- ^C* •" / : w* cPV % %<$ *• w y ^..^' % *< C.3 ♦O .«? "%k :• ■^ " ..# v* ■* ^d< c^ ^ ,V" "^ \^ : -v r » oj .#■ : '. %. "fU-^ "^f* ■- %.<* ' WZzCOmJL atttaced Jb^Hh© lEJL^, M3E Tf T ■ /. C^ ' y/f sry-y-t^- S£± BOTANIC GARDEN. A POEM, IN TWO PARTS. PART I. CONTAINING THE ECONOMY OF VEGETATION. PART II. THE LOVES OF THE PLANTS. WITH PHILOSOPHICAL NOTES, THE SECOND AMERICAN EDITION. $etoHfotfe: Printed and sold by T. 6? J. SWORDS, Printers to the Faculty of Fhysifc of Columbia College, No. 160 Pearl-Street. ADVERTISEMENT SECOND AMERICAN EDITION. 1 HE first American edition of the Botanic Garden was presented to the public in 1798. It was undertaken at the request of several gentlemen skilled in the science of Botany, who were pleased with this inimitable work of the great Darwin, and were desirous that an opportunity should be afforded their countrymen of possessing a book so pleasing in its manner, and so fruitful of instruction. Amongst these gentlemen was our worthy and highly regretted friend Dr. Elihu H. Smith, who, unsolicited, undertook the office of Editor, and, to evince his respect for the Author, prefixed to the volume a poetic ad- dress, correctly and beautifully describing the rise, process, and use of the art of Printing as connected with Science, and particularly its effect in spreading this Botanic Song from iv ADVERTISEMENT. Britain to the remotest corner of the new hemisphere, and throughout the world, and terminating in a prophecy which all but the misanthrope must wish to see fulfilled. With this address the great author of the Loves of the Plants, in a complimentary letter to Dr. Smith, expressed himself in terms of high commendation and gratification. Dr. Smith never enjoyed the pleasure of receiving this letter. Had he lived, the two amiable poets would unquestionably have derived much satis- faction from a correspondence begun in this way. But it is ever to be lamented that the pes- tilence of 1798 cut him off prematurely from his usefulness to his friends and to the world. In the present edition this address is retained; and care has been taken to preserve as much as possible the correctness which characterised, and which was so much admired in the first, New-York, 180r. EPISTLE TO THE AUTHOR OF THE BOTANIC GARDEN. I OR unknown ages, 'mid his wild abode, Speechless and rude, the human savage trode ; Bv slow degrees expressive sounds acquired, And simple thoughts in words uncouth attired. As growing wants and varying climes arise, Excite desire and animate surprise, Gradual his mind a wider circuit ranged, His manners soften'd and his language changed ; And grey experience, wiser than of yore, Bequeath'd its strange traditionary lore. Again long ages mark the flight of time, And lingering toil evolves the Art divine. Coarse drawings, first, the imperfect thought reveal'd ; Next, barbarous forms the mystic sense conceal' d ; Capricious signs the meaning, then, disclose ; And, last, the infant alphabet arose : From Nilus' banks adventurous Cadmus errs, And on his Thebes the peerless boon confers. Slow spread the sacred art, its use was slow : Whate'er the improvements later times bestow, Still how restrain'd, how circumscribed, its power ! Years raise the fruit an instant may devour. Fond Science wept ; the uncertain toil she view'd, And in the evil, half forgot the good. What though the sage, and though the bard inspired., By truth illumined, and by genius fired, In high discourse the theme divine prolong, And pour the, glowing tide of lofty song ; vi TO DR. DARWIN. To princes limited, to Plutus' sons, T rants of mines and heritors of thrones, The theme, the song, scarce touch'd the general mind; Lost, or secluded from opprest mankind. Fond SCIENCE wept ; how vain her cares she saw, Subject to Fortune's ever-varying law. Month after month a single transcript claim'd, The style perchance, perchance the story maim'd ;— * The guides to truth corrupted, or destroy 'd, A passage foisted, or a painful void, The work of ignorance, or of fraud more bold, To blast a rival, or a scheme uphold ;— Or, in the progress of the long review, The original perish'd as the copv grew ; Or, perfect both, while pilgrim bands admire, The instant prey of accidental fire. Fond Science wept; whate'er of costliest use, The gift and glory of each favouring Muse ; From even- land what genius might select ; What wealth might purchase, and what power protect ; The guides of youth, the comforters of age ; Swept by the besom of barbaric rage, — Scarce a few fragments scatter'd o'er the field, — Frantic, in one sad moment, she beheld. " Nor shall such toil my generous sons subdue ; " Nor waste like this again distress the view !" She cries : — where Harlem's classic groves Embowering rise, with silent flight she moves ; She marks Laurentius carve the beechen rind, And darts a new creation on his mind : A sudden rapture thrills the conscious shades ; The gift remains, the bounteous vision fades. Homeward, entranced, the Belgic Sire returns ; New hope inspires him, and new ardor burns } Secret, he meditates his ait by clav ; By night fair phantoms o'er his fancy stray ; Will opening morn they rush upon his soul, Nor cares, nor duties, banish nor control ; * The four following lines were supplied by a i'rieivl TO DR. DARWIN. vii Haunt his sequestered path, his social scene, And, in his prayers, seductive, intervene ; Till, shaped to method, simple, and complete, The filial ear the joyful tidings greet.* — First, their nice hands the temper'd letter frame, Alike in height, in width, in depth, the same ; Deep in the matrices secure infold, Aid fix within, and justify, the mould ; The red amalgam from the cauldron take, And flaming pour, and, as they pour it, shake ; On the hard table spread the type congeal'd, And smooth and polish on its marble field ; While, as his busy fingers either plies, The embn on parts of future volumes rise. — Next, with wise care, the slender plate they choose, Of shining steel, and fit, with harden'd screws, The shifting sliders, which the varying line Break into parts, or yet as one confine ; Whence, firmly bound, and fitted for the chase, Imposed, it rests upon the stony base ; Till, hardly driven, the many-figured quoins Convert to forms the accumulated lines. — Then, with new toil, the upright frame they shape, And strict connect it by the solid cap ; The moving head still more the frame combines ; The guiding shelf its humbler tribute joins ; While the stout winter erring change restrains, And bears the carriage, and the press sustains ; The platten these, and spindle well connect, Four slender bars support it, and direct, As the high handle, urging from above, Downwards and forceful bids its pressure move ; Beneath, with plank the patient carriage spread. Lifts the smooth marble on its novel bed, Rides on its wheeled spit in rapid state, Nor fears to meet the quick-descending weight. * Laurentius first confided the secret of his discovery to his son-in-law. — The reasons for the subsequent deviations from historical accuracy will be obvious to the poetic reader. viii TO DK. DARWIN. — Last, die wise Sire die ready form supplies, With cautious hands and scrutinizing eyes ; Fits the moist ti/m/Mi/i, — (while the Youth, intent, With patting balls, applies the sahle paint,) Then lowers the /Wv/rf, turns the flving r ounce, And pulls amain the forceful bar at once ; A second turn, a second pressure, gives, And on the sheet the fair impression lives. Raptured, the Youth and reverend Sire behold, Press to their lips and to their bosoms fold ; Mingle their sighs, ecstatic tears descend, And, face to face, in silent union blend : Fond Science triumphs, and rejoicing Fame, From pole to pole, resounds Laurentius' name. Hence, doom'd no more to barbarous zeal a prev. Genius and Taste th.dr treasured stores displav ; Nor lords, nor monks, alone, the sweets procure, But old and young, the humble and the poor. ' Hence, wide diffused, increasing knowledge flies_, And error's shades forsake the jaundiced eyesj Man knows himself for man, and sees, elate, The kinder promise of his future fate ; Nations, ashamed, their ancient hate forego, And find a brother where they found a foe. Hence, o'er the world, — (what else perchance conceal'd, Supprest for ages, or fore'er withheld, To one small town, or shire, or state, confined, In merit's spite to long neglect consign'd, The sport or victim of some envious flame, Whence care nor art might rescue nor reclaims- Flies the Botanic Song; around S.i> cessive nations catch the enchanting sound, Glow as they listen, wonder as they gaze, And pay the instructive page with boundless praise : For not to Britain's parent isle alone, Or w hut the East encircles with her zone, TO DR. DARWIN. The bounty flows ; but spreads to neighbouring realms, And a new hemisphere with joy o'erwhelms. Here, read with rapture, studied with delight, Long shall it charm the taste, the thought excite j And youths and maids, the parent and the child, Their minds illumined, and their griefs beguiled, By all of fancy, all of reason, moved, Rise from the Work invigor'd and improved. Nor only here, nor only now, enjoy'd: — Where opes the interior desolate and void ; Where Missisippi's turbid waters glide, And white Missouri pours its rapid tide; Where vast Superior spreads its inland sea, And the pale tribes near icy confines stray j " Where now Alaska lifts its forests rude, " And Nootka rolls her solitary flood ;"* Where the fierce sun with ray severer rains His floods of light o'er Amazonian plains ; Where, land of horrors ! roam the giant brood, On the bleak margin of the antarctic flood ; In future years, in ages long to come, — When redient Justice finds again her home ; — Known, honour'd, studied, graced with nobler fame, Its charms unfaded, and its worth the same, To vaster schemes shall light the kindling view, And lift to heights no earlier era knew. Some ardent youth, some Fair whose beauties shine, In mind, as person, only not divine, — In halls where Montezuma erst sat throned, Whom thirty princes as their sovereign own'd ;— In bowers where Manco labour'd for Peru, While the white thread his blest Oella drew, — Where Ataliba met a tyrant's rage, — > Entranced, shall ponder o'er the various page ; * This couplet is from an unpublished Poem of my friend Mr. Richard Alsop ; a poet who, were his ambition equal to his talents, would appear among the poets of his time " vtlut inter igncs lima % B x TO DR. DARWIN. Or, where Oregon foams along the ^ And seeks the fond Pacific's tranquil breast, With kindred spirit strike the sacred Lyre, And bid the nations listen and admire. Hence keen incitement prompt the prying mind, By treacherous fears nor palsied nor confined, Its curious search embrace the sea, and shore, And mine and ocean, earth and air, explore. Thus shall the years proceed, — till growing time Unfold the treasures of each differing clime ; Till one vast brotherhood mankind unite In equal bands of knowledge and of right : Then, the proud column, to the smiling skies, In simple majesty sublime shall rise, O'er Ignorance foil'd, their triumph loud proclaim, And bear inscribed, immortal, Darwin's name. E. H. SMITH. New-Tork, March, 1798. ADVERTISEMENT LONDON EDITION. 1 HE general design of the following sheets is to enlist Imagination under the banner of Science; and to lead her votaries from the looser analogies, which dress out the imagery of poetry, to the stricter ones, which form the ratiocination of philosophy. While their particular design is to induce the ingenious to cultivate the knowledge of Botany, by intro- ducing them to the vestibule of that delightful science, and recommending to their attention the immortal works of the celebrated Swedish Naturalist Linnaeus. In the first Poem, or Economy of Vegeta- tion, the Physiology of Plants is delivered; and the operation of the Elements, as far as they may be supposed to affect the growth of Vegetables. In the second Poem, or Loves of the Plants, the Sexual System of Linnaeus is explained, with the remarkable properties of many particular plants. • TO THE AUTHOR OF THE POEM ON THE LOVES OF THE PLANTS. BY THE REV. W. B. STEVENS. WFT though thy genius, Darwin! amply fraught With native wealth, explore new worlds of mind ; Whence the bright ores of drossless wisdom brought, Stampt by the Muse's hand, enrich mankind ; Though willing Nature to thy curious eye, Involved in night, her mazy depths betray ; Till at their source thy piercing search descry The streams, that bathe with Life our mortal clay ; Though, boldly soaring in sublimer mood Through trackless skies, on metaphysic wings, Thou darest to scan the approachless Cause of Good, And weigh, with stedfast hand, the sum of Things ; Yet wilt thou, charm'd amid his whispering bowers, Oft with lone step by glittering Derwent stray, Mark his green foliage, count his musky flowers, That blush or tremble to the rising ray: While Fancy, seated in her rock-roof 'd dell, Listening the secrets of the vernal grove, Breathes sweetest strains to thy symphonious shell, And " gives new echoes to the throne of Love." Repton, Nov. 28, 1/88. DR. DARWIN. W HILE Sargent winds, with fond and curious eyes, Through every mazy region of M the name " While, as entrancing forms around him rise, With magic light the mineral kingdoms shine ; Behold! amid the vegetable bloom, Darwin, thy ambrosial rivers flow, And suns more pure the fragrant earth illume, As all the vivid plants with passion glow. Yes! and, where'er with life creation teems, 1 trace thv spirit through the kindling whole ; As with new radiance to die genial beams Of Science, isles emerge, or oceans roll, And Nature, in primordial beauty, seems To breathe, inspired bv thee, the philosophic soul! R. POLWHELE, Kenton, near Exeter, April IS, 1T92. DR. .DARWIN. X WO Poets, (Poets, by report, Not oft so well agree) Sweet harmonist of Flora's court! Conspire to honour thee. They best can judge a Poet's worth, Who oft themselves have known The pangs of a poetic birth, By labours of their own. TO DR. DARWIN. We, therefore, pleased, extol thy song, Though various yet complete, Rich in embellishment, as strong And learn'd as it is sweet. No envy mingles with our praise, Though could our hearts repine At any Poet's happier lays, They would, they must, at thine* But we in mutual bondage knit Of Friendship's closest tie, Can gaze on even Darwin's wit With an unjaundiced eye ; And deem the Bard, whoe'er he be, And howsoever known, Who would not twine a wreath for thee, Unworthy of his own. WM. COWPER. Weston Underwood, Olney, Bucks, June 23, 1793. DR. DARWIN- As Nature lovely Science led Through all her flowery maze, The volume she before her spread Of Darwin's radiant lays. Coy Science starts — so started Eve At beauties yet unknown : " The figure that you there perceive (Said Nature) is your own." kvi TO I UK RIVER DERWENT. u My own ? It is : — but half so fair " I never Beem'd till now \ ki And here, too, with a soften'd air, u Sweet Nature ! here art thou." " Yes — in this mirror of the Bard " We both einlxllish'd shine, " And grateful will unite to guard " An aitist so divine." Thus Nature and thus Science spake In Flora's friendly bower ; While Darwin's glory seem'd to wake New life in every flower. This with delight two Poets heard ; Time verifies it daily ; Trust it, dear Darwin, on the word Of Cowper and of Hayley ! — W. HAYLEY. Earthan, near Chichester, Jane 27, 1792. ADDRESS TO THE RIVER DERWENT, On whose Banks the Author of the Botanic Garden resides. BY F. N. C. MUNUY, ESQ; 1~92. DeRWENT, like thee thy Poet's splendid song With sweet vicissitudes of ease and force Now with enchanting smoothness glides along, Now pours impetuous its resounding course ; While Science marches down tin wondering detts, And all the .Mums round her banners crowd. Pleased to assemble in thy sparry cells, And chant hi r lessons to thy echoes proud ; TO THE RIVER DERWENT. xv \VTiile here Philosophy and Truth display The shining robes those heaven-born sisters wove, While Favs and Graces beck'ning smooth their way, And hand in hand with Flora follows Love. Well mav such radiant state increase thy pride, Delighted stream ! though rich in native charms, Though inborn worth and honour still reside, Where thy chill banks the glow of Chatsworth warms. Though here her new-found art, as that of yore, The spinster Goddess to thy rule assigns ; Though, where her temples crowd thy peopled shore, Wealth gilds thy urn, and Fame thy chaplet twines. Ah, while thy nymphs in Derby's towered vale Lead their sad Quires around Milcena's bier, What soothing sweetness breathes along the gale, Comes o'er the consort's heart, and balms a brother's tear ! Her new-found art, ifc. Alluding to the numerous cotton mills on and near the river Derwent. Milcena's bier. Mrs. French, sister tc Mrs. Mundy. Part I. Canto III. 1. 508. BOTANIC GARDEN. PART I. CONTAINING THE ECONOMY OF VEGETATION'. A POEM. WITH PHILOSOPHICAL NOTES. It Ver, et Venus ; et Veneris prxnuncius ante Pennatus graditur Zephyrus vestigia propter ; Flora quibus mater, praespergens ante viai Cimcta, coloribus egregiis et odoribus opplet. Lucret. THE SECOND AMERICAN EDITION. $eto*§orfe: Printed and sold by T. £? J. SWORDS, Printers to the Faculty of Ph; of Columbia College, No. 160 Pearl-Street. APOLOGY. .1 T may be proper here to apologize for many of the subsequent conjectures on some articles of natural philosophy, as not being supported by accurate investigation or conclusive experiments. Extravagant theories, however, in those parts of philosophy where our knowledge is yet imperfect, are not without their use ; as they encourage the execution of laborious experiments, or the investi- gation of ingenious deductions, to confirm or refute them. And, since natural objects are allied to each other by many affinities, every kind of theoretic distribution of them adds to our knowledge by developing some of their analogies. The Rosicrucian doctrine of Gnomes, Sylphs, Nymphs, and Salamanders, was thought to afford a proper machinery for a Botanic Poem ; as it is probable, that they were originally the names of hieroglyphic figures representing the elements. Many of the important operations of Nature were shadowed or allegorized in the heathen mythology, as the first Cupid springing from the Egg of Night, the marriage of Cupid and Psyche, the Rape of Proserpine, the Congress of Jupiter and Juno, the Death and Resuscitation of Adonis, &c. many of which are ingeniously explained in the works of Bacon, vol. v. p. 47. 4th edit. London, 1778. The Egyptians were possessed of many discoveries in phi- losophy and chemistry, before the invention of letters ; these were then expressed in hieroglyphic paintings of men and animals ; which, after the discovery of the alphabet, were described and animated by the poets, and became first the deities of Egypt, and afterwards of Greece and Rome. Allusions to those fables were therefore thought proper ornaments to a philosophical poem, and are occa- sionally introduced either as represented by the poets, or preserved oa the numerous gems and medallions of antiquity. ARGUMENT OF THE FIRST CANTO. The Genius of the place invites the Goddess of Botany, 1. She descends ; is received by Spring, and the Elements, 59. Addresses the Nymphs of Fire. Star-light Night seen in the Camera Obscura, 81. I. Love created the Universe. Chaos explodes. All the Stars revolve. God, 97. II. Shooting Stars. Lightning. Rainbow. Colours of the Morning and Evening Skies. Exterior Atmosphere of inflammable Air. Twi- light. Fire-balls. Aurora Borealis. Planets- Comets. Fixed Stars. Sun's Orb, 115. III. 1. Fires at the Earth's Centre. Animal Incuba- tion, 137. 2- Volcanic Mountains. Venus vista the Cyclops, 149. IV. Heat confined on the Earth by the Air. Phosphoric Lights in the Evening. Bolognian Stone. Calcined Shells. Memnon's Harp, 173. Ignis Fatuus. Luminous Flowers. Glow-worm. Fire-fly. Luminous Sea-insects. Electric Eel. Eagle armed with Lightning, 1S9. V. 1. Discovery of Fire. Medusa, 209. 2. The chemical Properties of Fire. Phosphorus. Lady in Love, 223. 3. Gun-powder, 237. VI. Steam- engine applied to Pumps, Bellows, Water-engines, Corn-mills, Coining, Barges, Waggons, Flying-chariots, 253. Labours of Hercules. Abyla and Calpe, 297. VII. 1. Electric Machine. Hesperian Dragon. Elec- tric Kiss. Halo round the Heads of Saints. Electric Shock. Fairy- rings, 335. 2. Death of Professor Richman, 371. 3. Franklin draws Lightning from the Clouds. Cupid snatches the Thunderbolt from Ju- piter, 383. VIII. Phosphoric Acid and Vital Heat produced in the Blood. The great Egg of Night, 399. IX. Western Wind unfettered. Naiad released. Frost assailed. Whale attacked, 421. X. Buds and Flowers expanded by Warmth, Electricity, and Light. Drawings with colourless sympathetic Inks; which appear when warmed by the Fire, 457. XI. Sirius. Jupiter and Semele. Northern Constellations. Ice- Islands navigated into the Tropic Seas. Rainy Monsoons, 497. XII. Points erected to procure Rain. Elijah on Mount Carmel, 549. Depar-' ture of the Nymphs of Fire like sparks from artificial Fireworki, 587. BOTANIC GARDEN. ECONOMY OF VEGETATION. CANTO I. " UTAY your rude steps! whose throbbing breasts infold The legion-fiends of Glory, or of Gold ! Stay! whose false lips seductive simpers part, While Cunning nestles in the harlot-heart ! — For you no Dryads dress the roseate bower, For you no Nymphs their sparkling vases pour ; Unmark'd by you, light Graces swim the green, And hovering Cupids aim their shafts, unseen. " But thou ! whose mind the well-attemper'd ray Of Taste and Virtue lights with purer day ; Whose finer sense each soft vibration owns With sweet responsive sympathy of tones : So the fair flower expands its lucid form To meet the sun, and shuts it to the storm ; — For thee my borders nurse the fragrant wreath, My fountains murmur, and my zephyrs breathe j Slow slides the painted snail, the gilded fly Smoothes his fine down, to charm thy curious eye j On twinkling fins my pearly nations play, Or win with sinuous train their trackless way; So tie fair flower. 1. 13. It seems to have been the original design of the philosophy of Epicurus to render the mind exquisitely sensible to agreeable serrations, and equally insensible to disagreeable ones. S BOTANIC GARDEN. Part L Mv plumy pairs, in gay embroidery dn Form, with ingenious bill, the pensile nest ; To Love's Bweet not :s attune the listening dell, And Echo sounds her soft symphonious shell. " And, if with thee some hapless Maid should stray, 25 Disastrous Love companion of her way, Oh, lead her timid steps to yonder glade, Whose arching cliffs depending aiders shade ; There, as meek Evening wakes her temperate breeze, And moon-beams glimmer through the trembling trees, 30 The rills, that gurgle round, shall soothe her ear, The weeping rocks shall number tear for tear ; There, as sad Philomel, alike forlorn, Sings to the Night from her accustomed thorn ; While at sweet intervals each falling note :j Sighs in the gale, and whispers round the grot j The sister- woe shall calm her aching breast, And softer slumbers steal her cares to rest. — u Winds of the North ! restrain vour icy gales, Nor chill the bosom of these happy vales ! 40 Hence in dark heaps, ye gathering Clouds, revolve ! Disperse, ye Lightnings ! and, ye Mists, dissolve ! — Hither, emerging from von orient skies, Botanic Goddess ! bend thy radiant eyes; O'er these soft scenes assume div gentle reign, 45 Pomona, Ceres, Flora in thy train ; O'er the still dawn thy placid smile effuse, And with thy silver sandals print the dews ; In noon's bright blaze thy vcrmil vest unfold, And wave thy emerald banner starr'd with gold." 50 Disasterous Love. 1. 26. The scenery is taken from a botanic ,<:mk-'i about a mile from Litchfield, where a cold bath was erected b) There is,a grotto surrounded bj pr of which i perpetual shower of water; and it is here repn I to l ve M And now on earth the silver axle rings, 65 And the shell sinks upon its slender springs ; Light from her airy seat the Goddess boundsj And steps celestial press the pansied grounds. Fair Spring advancing calls her feather'd quire, And tunes to softer notes her laughing lyre ; 70 Bids her gay hours on purple pinions move, And arms her Zephyrs with the shafts of Love. Pleased Gnomes, ascending from their earthy beds, Play round her graceful footsteps, as she treads ; Gay Sylphs attendant beat the fragrant air 75> On winnowing wings, and waft her golden hair ; Blue Nymphs emerging leave their sparkling streams, And Fiery Forms alight from orient beams ; Pleased Gnovaes. 1. 73. The Rosicrucian doctrine of Gnomes, Sylphs, Nymphs, and Salamanders, affords proper machinery for a philosophic poem; as it is probable that they were originally the names of hieroglyphic figures of the Elements, or of Genii presiding over their operations. The Fairies of more modern days seem to have been derived from them, and to have inherited their powers. The Gnomes and Sylphs, as being more nearly allied to mo- dern Fairies, are represented as either male or female, which distinguishes the latter from the Aurae of the Latin poets, which were only female; ex- cept the winds, as Zephyrus and Auster, may be supposed to have been their husbands. Part I. D a BOTANIC GARDEN. Part L Muak'd in the rose's lap fresh dews they shed, Or breathe celestial lustres round her head. 80 First the fine Forms her dulcet voice requires, Which bathe or bask in elemental fires ; From each bright gem of Day's refulgent car, From the pale sphere of every twinkling star, From each nice pore of ocean, earth, and air, 85 With eye of flame the sparkling hosts repair, Mix their gav hues, in changeful circles play, Like motes, that tenant the meridian ray. — So the clear lens collects, with magic power, The countless glories of the midnight hour ; 90 Stars after stars, with quivering lustre fall, And twinkling glide along the whiten'd wall. — • Pleased, as they pass, she counts the glittering bands, And stills their murmur with her waving hands ; Each listening tribe with fond expectance bums, 95 And now to these, and now to those, she turns. I. " Nymphs of primeval Fire! your vestal train Hung with gold tresses o'er the vast inane, Nymphs of primeval Jire. 1. 97. The fluid matter of heat is perhaps the most I lement in nature ; all other bodies are immersed in it, and are pre- served in their present state of solidity or fluidity by the attraction of their particles to the matter of heat. Since all known bodies are conrractible into i by depriving them of some portion of their heat, and as there is DO part of nature totally deprived of heat, there is reason to believe that the parti- cles of bodies do not touch, but are held towards each other by their self-attrac- tion, and recede from each other by their attraction to the mass of heat which surrounds them; and thus exist in an equilibrium between these two powers. If more of the matter of heat be applied to them, they recede further from each other, and become fluid; if still mire be applied, they take an aiirial form, and are termed Gasses by the modern chemists. Thus, when water is heated to a certain degree, it would instantly assume the form of steam, but for the pressure of the atmosphere, which prevents this change from taking place so easjl) : the same is true of quicksilver, diamonds, and of, perhaps, all other bodies in Nature; they would first become fluid, and then aeriform, by ap- propriated degrees of heat. On the contrary, this elastic matter of heat, termed Calorique in the new nomenclature of tin- French Academicians, is liable to become consolidated itself in its combinations with some b in nitre, and probabl) in combustible bodies, as sulphur and See note on I. 232 of this Canto. Modern philosophers have not yet been aWe todecide whether lightandheat be different fluids, or modifications of the same fluid, as the) have man) properties in commou. Sec note on !. 46$ of. this Canto. Canto I. ECONOMY OF VEGETATION. Pierced with your silver shafts the throne of Night, And charm'd young Nature's opening eyes with light ; When Love Divine, with brooding wings unfurl'd, Call'd from the rude abyss the living world. *' '—Let there be light! proclaim'd the Almighty Lord, Astonish'd Chaos heard the potent word ; — Through all his realms the kindling Ether runs, And the mass starts into a million suns ; When Love Divine. 1. 101. From having observed the gradual evolution of the young animal or plant from its egg or seed; and afterwards its suc- cessive advances to its more perfect state, or maturity ; philosophers of all ages seem to have imagined, that the great world itself had likewise its infancy, and its gradual progress to maturity : this seems to have given origin to the very ancient and sublime allegory of Eros, or Divine Love, producing the world from the egg of Night, as it floated in Chaos. See 1. 419 of this Canto. The external crust of the earth, as far as it has been exposed to our view, in mines or mountains, countenances this opinion; since these have evidently, for the most part, had their origin from the shells of fishes, the decomposition of vegetables, and the recrements of other animal materials, and must, therefore, have been formed progressively from small beginnings. There are likewise some apparently useless or incomplete appendages to plants and animals, which seem to show they have gradually undergone changes from their original state ; such as the stamens without anthers, and styles without stigmas of several plants, as mentioned in the note on Curcuma, vol. ii. of this work. Such as the halteres, or rudiments of wings of some two-winged insects ; and the paps of male animals ; thus swine have four toes, but two of them are imperfectly formed, and not long enough for use. The allantoide in some animals seems to have become extinct ; in others, is above tenfold the size which would seem necessary for its purpose. Buftbn du Cochon, T. 6. p. 257. Perhaps all the supposed monstrous births of Nature are remains of their habits of production in their former less perfect state, or attempts towards greater perfection. Through all his realms. 1. 105. Mr. Herschel has given a very sublime and curious account of the construction of the heavens, with his discovery of some thousand nebulse, or clouds of stars ; many of which are much larger collec- tions of stars than all those put together which are visible to our naked eyes, added to those which form the galaxy or milky zone which surrounds us. He observes, that in the vicinity of these clusters of stars there are propor- tionally fewer stars than in other parts of the heavens ; and hence he con- cludes that they have attracted each other, on the supposition that infinite space was at first equally sprinkled with them ; as if it had, at the beginning, been filled with a fluid mass, which had coagulated. Mr. Herschel has further shown, that the whole sidereal system is gradually moving round some centre, which may be an opake mass of matter. Philos. Trans. Vol. LXXIV. If all these suns are moving round some great central body, they must have had a projectile force, as well as a centripetal one; and may thence be supposed to have emerged or been projected from the material where they were produced. We can have no idea of a natural power which could project a sun out of Qhaos, except by comparing it to the explosions or earthquakes owing to the io BOTANIC GARDEN. Part I. Earths round each sun with quick explosions burst, And second planets issue from the firat j Bend, as they journey with projectile force, In bright ellipses their reluctant course j 110 Orbs wheel in orbs, round centres centres roll, And form, self-balanced, one revolving Whole. — Onward they move amid their bright abode, Space without bound, the bosom of their God ! II. " Ethereal powers! you chase the shooting stars, 115 Or yoke the vollied lightnings to your cars, Cling round the aerial bow with prisms bright, And, pleased, untwist the sevenfold threads of light ; Eve's silken couch with gorgeous tints adorn, And fire the arrowy throne of rising Morn. 120 — Or, plumed with flame, in gay battalions spring, To brighter regions borne on broader wing ; sudden evolution of aqueous or of other more elastic vapours; of the power of which, under immeasurable degrees of heat and compression, we are yet ignorant. It may be objected, that if the stars had been projected from a Chaos by explosions, they must have returned again into it from the known laws of gravitation : this, however, would not happen if the whole of Chaos, like grains of gun-powder, was exploded at the same time, and dispersed through Infinite space at once, or in quick succession, in every possible direction. The same objection may be stated against the possibility of the planets having been thrown from the sun by explosions ; and the secondary planets from the pri- mary ones, which will be spoken of more at large in the second Canto. But if the planets are supposed to have been projected from their suns, and the se- condary from the primary ones, at the beginning of their course, they might be so influenced or diverted by the attractions of the suns, or sun, in their vicinity, as to prevent their tendency to return into the bod) from v. hich they were projected. If these innumerable and immense suns, thus rising out of Chaos, are sup- posed to have thrown out their attendant planets b) new explosions, as they ascended; and those, their respective satellites, tilling in a moment, the im- mensity of space with light and motion, a grander idea cannot be conceived by the mind of man. Chase the shooting stars. 1. 115. The meteors culled shooting stars, the lightning, the rainbow, and the clouds, are phenomena of the lower regions ef the atmosphere. The twilight, the meteors called fire-balls, or t ; . gons, and the northern lights, inhabit the higher regions of the atmosphere, bee additional notes, No. I. Cling round the aUrial boa, 1. 117. See additional notes, No. II. JEw'* silken couch. 1. 111). Sec additional notes, No. III. Canto I. ECONOMY OF VEGETATION. Where lighter gases, circumfused on high, Form the vast concave of exterior skv ; With airy lens the scatter'd rays assault, And bend the twilight round the dusky vault ; Ride, with broad eye and scintillating hair, The rapid Fire-ball through the midnight air ; Where lighter gases. 1. 123. Mr. Cavendish has shown, that the gas cal- led mtlammuble air, is at least ten times lighter than common air : Mr. La- voisier contends, that it is one of the component parts of wa f er, and is by him called hsdrogene. It is supposed to afford their principal nourishment to vegetables, and thence to animals, and is perpetually rising from their decom- position : this source of it in hot climates, and in summer months, is so great as to exceed estimation. Now, if this light gas passes through the atmos- phere, without combining with it, it must compose another atmosphere over the aerial one, which must expand, when the pressure above it is thus taken away, to inconceivable tenuity. If this supernatural gasscous atmosphere floats upon the aerial one, like ether upon water, what must happen ? 1. It will flow from the line, where it will be produced in the greatest quantities, and become much accumulated over the poles of the earth. 2. The common air, or lower stratum of the at- mosphere, will be much thinner over the poles than at the line ; because, if a glass globe be filed with oil and water, and whirled upon its axis, the cen- trifugal power will carry the heavier fluid to the circumference, and the lighter will, in consequence, be found round the axis. 3. There may be a place at some certain latitude between the poles and the line on each side the equator, where the inflammable supernatant atmosphere may end, owing to the greater centrifugal force of the heavier aerial atmosphere. 4. Between the ter- mination of the aerial and the beginning of thegasseous atmosphere, the airs will occasionally be intermixed, and thus become inflammable by the electric spark. These circumstances will assist in explaining the phenomena of fire- balls, northern lights, and of some variable winds, and long-continued rains. Since the above note was first written, Mr. Volta, I am informed, has ap- plied ihe supposition of a supernatant atmosphere of inflammable air, to ex- plain some phenomena in meteorology. And Mr. Lavoisier has announced his design to write on this subject. Traite de Chimie, Tom. 1. I am happy to find these opinions supported by such respectable authority. Arid bend the twilight. 1. 126. The crepuscular atmosphere, or the region where the light of the sun ceases to be refracted to us, is estimated by phi- losophers to be between 40 and 50 miles high, at which time the sun is about 18 degrees below the horizon ; and the rarity of the air is supposed to be from 4000 to 10,000 times greater than at the surface of the earth. Cotes's Hydrost. p. 123. The duration of twilight differs in different seasons and in different latitudes. In England the shortest tw light is about the beginning of October and of March ; in more northern latitudes, where the sun never sinks more than 18 degrees below the horizon, the twilight continues the whole night. The time of its duration may also be occasionally affected by the varying height of the atmosphere. A number of observations on the duration of twilight in different latitudes might afford considerable information concerning the aerial Strata in the higher regions of the atmosphere, and might assist in determin- ing whether an exterior atmosphere of inflammable gas, or hydrogene, exists over the aerial one. U BOTANIC GARDEN. Part I. Dart from the North on pale electric streams, Fringing Night's sable robe with transient beam*. 130 — Or rein the Planets in their swift careers, Gilding with borroVd light their twinkling spheres ; Alarm with com t-hlaze the sapphire plain, The wan stars glimmering through its silver train ; Gem the bright Zodiac, stud the glowing pole, 135 Or give the Sun's phlogistic orb to roll. III. Nymphs ! your fine forms with steps impassive mock Earth's vaulted roofs of adamantine rock; Round her still centre tread the burning soil, And watch the billowy Lavas as they boil ; 140 Where, in basaltic caves imprisoned deep, Reluctant fires in dread suspension sleep; Or sphere on sphere in winding waves expand. And glad with genial warmth the incumbent land. So when the Mother -bird selects dieir food 145 With curious bill, and feeds her callow brood ; Warmth from her tender heart eternal springs, And, pleased, she clasps them with extended wings. " Tou from deep cauldrons and unmeasured raves Blow flaming airs, or pour vitrescent waves ; loO O'er shining oceans ray volcanic light, Or hurl innocuous embers to the night. — Alarm with comet-blaze. 1. 133. Sec additional notes, No. IV. The Sun's phlogistic orb. 1. 136. See additional notes, No. V. Hound her still centre. 1. 139. Many philosophers have believed that the eentral parts of the earth consist of a fluid mass of burning lava, which they have called a sub erraneous sun ; and have supposed that it contributes to thr pr duction of metals, and to the growth of vegetables. See additional notes, No. VI. Or sphere on sphere. 1. 143. See additional notes, No. VII. Hurl innocuous embers. 1.152. The immediate cause of volcanic eruptions is believed i i be owing t.> the water of the sea, er from lakes or inundations, finding itself a passage into the subterraneous fires, which may lie at great depths This must first produce, by its coldness, a condensation of the va- pour there exi (ting, or a vacuum, and thus occasion pans of the earth's crust or shell to be forced down by the pressure of the incumbent atmosphere, Afterwards the ed into steam, produces all the ex- plosive effects of earthquakes. And by new accessions of water, during the Canto I. ECONOMY OF VEGETATION. 33 While with loud shouts to Etna Hecla calls, And Andes answers from his beacon'd walls ; Sea-wilder'd crews the mountain-stars admire, 155 And Beauty beams amid tremendous fire. " Thus when of old, as mystic bards presume, Huge Cyclops dwelt in Etna's rocky womb, On thundering anvils rung their loud alarms, And leagued with Vulcan forged immortal arms 5 160 Descending Venus sought the dark abode, And sooth'd the labours of the grisly God. While frowning Loves the threatening falchion wield, And tittering Graces peep behind the shield, With jointed mail their fairy limbs o'erwhelm, %QS Or nod with pausing step the plumed helm; With radiant eye she view'd the boiling ore, Heard undismay'd the breathing bellows roar, Admired their sinewy arms, and shoulders bare, And ponderous hammers lifted high in air, J 70 With smiles celestial bless'd their dazzled sight, And Beauty blazed amid infernal night. IV. Effulgent Maids! you round deciduous day, Tressed with soft beams, your glittering bands array j On Earth's cold bosom, as the Sun retires, 175 Confine with folds of air the lingering fires 5 intervals of the explosions, the repetition of the shocks is caused. These, circumstances were hourly illustrated by the fountains of boiling water in Iceland, in which the surface of the water in the boiling wells sunk down low before every new ebullition. Besides these eruptions occasioned by the steam of water, there seems to be a perpetual effusion of other vapours, more noxious, and ( as far as it is. yet known) perhaps greatly more expansile than water from the Volcanos in various parts of the world. As these Volcanos are supposed to be spiracula, or breathing holes to the great subterraneous fires, it is probable that the es- cape of elastic vapours from them is the cause that the earthquakes of mo- dern days are of such small extent compared to those of anc ent times, of which vestiges remain in every part of the world, and, on this account, may be said not only to be innocuous, but useful. Confine with folds of air. 1. 176. The air, like all other bad conductors of electricity, is known to be a bad conductor of heat ; and thence prevents the; heat acquired from the sun's rays by the earth's surface from being so soon dissipated, in the same manner as a blanket, which may be considered as a 14 BOTANIC GARDEN". Part L OYr Fat's pale forms diffuse phosphoric light, And deck with lambent flames the shrine of Night. S >, warm'd and kindled by meridian skies, And vkw'd in darkness nidi dilated eyes, ISO Bologna's chalks with faint ignition blaze, Beccari's shells emit prismatic rays. 9ponge filled with air, prevents the escape of heat from the person wrapped in it. This seems to be one cause of the great degree of cold on the tops of mountains, where the rarity of the air is greater, and it therefore b. conies a better conductor both of heat and electricity. See note on Barometz, Vol II. of this work. There is, however, another cause to which the great coldness of moun- tains, and of the higher regions of the atmosphere, is more immediately to be ascribed, explained by Dr. Darwin in the Philos. Trans. Vol. LXX\ III. who has there proved, by experiments with the air-gun and air-pump, that when any portion of the atmosphere becomes mechanically expanded, it ab- sorbs heat from the bodies in its vicinity. And as the air which creeps along the plains expands itself, by a part of the pressure being taken oft", when it ascends the sides of mountains, it, at the same time, attracts heat from the summits of those mountains, or other bodies which happen to be immersed m it, and thus produces cold. Hence he concludes, that the hot air at the bottom of the Andes becomes temperate by its own rarefaction when it as- cends to the city of Quito; and by its further rarefaction becomes cooled to the freezing point when it ascends to the snowy regions on the summits of those mouiuains. To this also he attributes the great degree of cold experi- enced by the aeronauts in their balloons ; and which produces hail in summer at the height of only two or three miles in the atmosphere. Diffuse phosphoric light. 1. 177. I have often been induced to believe, from observation, that the twilight of the evenings is lighter than that of the mornings at the same distance from noon. Some may ascribe this to the greater height of the atmosphere in the evenings, having been rarefied by the sun during the day ; but as its density must at the same time be diminished, its power of refraction would continue the same. I should rather suppose that it may be owing to the phosphorescent quality (as it is called) of almost all bodies ; that is, when they have been exposed to the sun, they continue to emit light for a considerable time afterwards. This is generally In arise either from such bodies giving cut the light which they had previously absorbed, or to the continuance of a slow combustion which the light they had been previoush exposed to had excited. See the next note. Beccari's shells. 1. 182. Beccari made many curious experiments on the phosphoric light, as it is called, which becomes visible on bodies brought into a dark room, alter having been previously exposed to the sunshine. It ap- pears, from these experiments, that almost all inflammable bodies possess tins qualit) in a greater Or Less degree: white paper or linen, thus examined, after having been exposed to the sunshine, is luminous to an extraordinary I ij ,i person, shut up in a dark room, puts one oi his hands out into the sun's light for a short time, and then retracts it, he will be able to sec that hand distinctly, and not the other. These experiments seem W countenance the idea of light being absorbed, and again emitted from bodies when the) are removed into darkness. But Beccari further pretended, uY.»- CaktoI. ECONOMY OF VEGETATION. Iff So to the sacred Sun in Memnon's fane, Spontaneous concords quired the matin strain ; — Touch'd by his orient beam, responsive rings 185 The living lyre, and vibrates all its strings ; Accordant aisles the tender tones prolong, And holy echoes swell the adoring song. " Tou with light Gas the lamps nocturnal feed, Which dance and glimmer o'er the marshy mead; 190 Shine round Calendula at twilight hours, And tip with silver all her saffron flowers ; Warm on her mossy couch the radiant Worm, Guard from cold dews her love-illumined form, some calcareous compositions, when exposed to red, yellow, or blue light, through coloured glasses, would, on their being brought into a dark room, emit coloured lights. This mistaken fact of Beccari's, Mr. Wilson decidedly refutes ; and, among many other curious experiments, discovered, that if oy- ster-shells were thrown into a common fire, and calcined for about half an hour, and then brought to a person who had previously been some minutes in a dark room, that many of them would exhibit beautiful irises of prismatic colours, whence, probably, arose Beccari's mistake. Mr. Wilson hence com> tends, that these kinds of phosphori do not emit the light they had previously received, but that they are set on fire by the sun's rays, and continue for some time a slow combustion after they are withdrawn from the light. Wil- son's Experiments on Phosphori. Dodsley, 1775. The Bolognian stone is a selenite, or gypsum, and has been long celebrated for its phosphorescent quality after having been burnt in a sulphurous fire, and exposed, when cold, to the sun's light. It may be thus well imitated : Calcine oyster-shells half an hour, pulverize them when cold, and add on* third part of flowers of sulphur, press them close into a small crucible, and calcine ihem for an hour or longer, and keep the powder in a phial close stop- ped. A part of this powder is to be exposed for a minute or two to the sun- beams, and then brought into a dark room. The calcined Bolognian stone becomes a calcareous hepar of sulphur; but the calcined shells, as they contain the animal acid, may also contain some of the phosphorus of Kunkel. In MemnorCsfane. 1. 183. See additional notes, No. VIII. The lamps nocturnal. 1. 189. The ignis-fatuus, or Jack-a-lantern, so fre- quently alluded to by poets, is supposed to originate from the inflammable air, or Hydrogene, given up from morasses ; which being of a heavier kind, from its impurity, than that obtained from iron and water, hovers near the surface of the earth, and, uniting with common air, gives out light by its slow igni- tion. Perhaps such lights have no existence; and the reflection of a star on watery ground may have deceived the travellers, who have been said to be bewildered by them : if the fact was established, it would much contr bute to explain the phenomena of northern lights. I have travelled much in the night, in all seasons of the year, and over all kinds of soil, but never saw one of these Will o'wisps. Shine round Calendula. I. 191. See note on Tropaeolum in Vol. II. The radiant Worm. 1. 193. See additional notes, No. IX. Part I. E 10 BOTANIC GARDEN. Part I. From leaf to leaf conduct the virgin light, 195 Star of the earth, and diamond of the night. You bid in air the tropic Beetle burn, And fill with golden flame his winged urn : Or gild the smge with insect-sparks, that swarm Round the bright oar, the kindling prow alarm ; 200 Or arm in waves, electric in his ire, The dread Gymnotus with ethereal fire. — The dread Gymnotus. 1. 202. The Gymnotus electricus is a native of the river of Surinam, in South- America; those which wire brought over to Eng- land about eight years ago were about three or four feet long, and gave an electric shock (as I experienced) by putting one finger on the back, near its head, and another of the opposite hand into the water near its tail. In their native country they are said to exceed twenty feet in length, and kill any man who approaches them in an hostile manner. It is not only to escape its enemies that this surprising power of the fish is used, but also to take its prey ; which it does by benumbing them, and then devouring them before they have time to recover, or by perfectly killing them ; for the quantity of the power seemed to be determined by the will or anger of the animal ; as it sometimes struck a fish twice before it was su.Rciently benumbed to be easily swallowed. The organs productive of this wonderful accumulation of electric matter have been accurately dissected and described by Mr. J. Hunter. Philos. Trans. Vol. LXV. They are so divided by membranes as to compose a very extensive surface, and are supplied with many pairs of nerves larger than any other nerves of the body : but how so large a quantity is so quickly accu- mulated as to produce such amazing effects in a rluid ill adapted for the pur- pose, is not yet satisfactorily explained. The Torpedo possesses a similar power in a less degree, as was shown by Mr. Walch, and another fish lately described by Mr. Patterson. Philos. Trans. Vol LXXVI. In the c instruction of the Leyden-Phial, (as it is called) which is coated on both sides, it is known, that above one hundred times the quantity of po- sitive electricity can be condensed on every square inch of the c.a ing on one side, than could have been accumulated on the same surface if there had baa no opposite coating communicating with the earth ; because the negative electricity, or that part of it which caused its expansion, is now drawn oft" through the glass. It is also well known, that the thinner the glass is (which is thus coated on both sides so as to make a Leyden-Phial, or plate) the more electricity can be condensed on one of its surfaces, till it becomes so than as to break, and thence discharge itself. Now, it is possible that the quantity of electricity condensable on one side of a coated phial may increase in some high ratio in respect to the thinness of the glass, since the power of attraction is known to decrease .is the squares of the distances, to which this circumstance of electricity seems to Ik ar some I Knee, if an animal membrane, as thin as the silk-worm spina d as to be charged like the Leyden bottle, without bursting, | < uch thin glass would be liable to do), it would be difficult to calculate th< immense quantity of electric fluid winch might be accumulated on its surface No land animals ar air would have been a much better medium for prodiu i the necessary apparatus would have been inconve- nient to land animals. Canto I. ECONOMY OF VEGETATION. 17 Onward his course with waving tail he helms, And mimic lightnings scare the water}' realms ; So, when with bristling plumes the bird of Jove 205 Vindictive leaves the argent fields above, Borne on broad wings the guilty world he awes, And grasps the lightning in his shining claws. V. 1. " Nymphs ! your soft smiles uncultured man subdued, And charm'd the Savage from his native wood ; 210 You, while amazed his hurrying Hords retire From the fell havoc of devouring Fire, Taught the first Art ! with piny rods to raise, By quick attrition, the domestic blaze, Fan with soft breath, with kindling leaves provide, 215 And list the dread destroyer on his side. So, with bright wreath of serpent-tresses crown'd, Severe in beauty, young Medusa frown'd : In his shining claws. 1. 208. Alluding to an antique gem in the collection of the Grand Duke of Florence. Spence. Of devouring Fire. 1. 212. The first and most important discovery of man- kind seems to have been that of fire. For many ages, it is probable fire was esteemed a dangerous enemy, known only b> its dreadful devastations ; and that many lives must have been lost, and many dangerous burns and wounds must have afflicted those who first dared to subject it to the uses of life. It is said that the tall monkies of Borneo and Sumatra lie down with pleasure round any accidental fire in their woods ,• and are arrived to that degree of reason, that knowledge of causation, that they thrust into the remaining fire the half- burnt ends of the branches to prevent its going out. — One of the nobles of the cultivated people of Otaheite, when Captain Cook treated them with tea, catched the boiling water in his hand from the cock of the tea-urn, and bel- lowed with pain, not conceiving that water could become hot, like red fire. Tools of steel constitute another important discovery in consequence of fire ; and contributed, perhaps, principally to give the European nations so great superiority over the American world. By these two agents, fire and tools of steel, mankind became able to cope with the vegetable kingdom, and conquer provinces of forests, which, in uncultivated countries, almost exclude the growth of other vegetables, and of those animals which are necessary to our existence. Add to this, that the quantity of our food is also increased by the use of fire, for some vegetables become salutary food by means of the heat used in cookery, which are naturally either noxious or difficult of digestion ; as pota- toes, kidney-beans, onions, cabbages. The cassava, when made into bread, is, perhaps, rendered mild by the heat it undergoes, more than by expressing its superfluous juice. The roots of white bryony and of arum, I am in- formed, lose much of their acrimony by boiling. Young Medusa frown'd. 1. 218. The Egyptian Medusa is represented on ancient gems, with wings on her head, snaky hair, and a beautiful counte- ■oance, which appears intensely thinking; and was supposed to represent 18 BOTANIC GARDEN. Part 1. Erewhile subdued, round Wisdom's j£gis roll'd, Hiss'd the dread snakes, and flamed in burnish'd gold ; 220 Flash'd on her brandish'd arm the immortal shield, And terror lighten'd o'er the dazzled field. 2. " Nymphs ! you disjoin, unite, condense, expand, And give new wonders to the Chemist's hand ; On tepid clouds of rising steam aspire, 225 Or fix in sulphur all its solid fire; With boundless spring elastic airs unfold, Or fill the fine vacuities of gold ; With sudden flash vitrescent sparks reveal, By fierce collision from the flint and steel ; 230 divine wisdom. The Grecian Medusa, on Minerva's shield, as appears on other gems, has a countenance distorted with rage or pain, and is supposed to re- present divine vengeance. This Medusa was one of the Gorgons, at first very beautiful, and terrible to her cnem es. M.nerva turned her hair into snakes; and Perseus having cut oil" her head, fixed it on the shield of that goddess; the sight of which then petrified the beholders. Daunet. Diet. Or fix in sulphur. 1. 226. The phenomena of chemical explosions cannot be accounted for without the supposition, that some of the bodies employed contain concentrated or solid heat combined with them, to which the French chemists have given the name of Calorique. When air is expanded in the air- pump, or water evaporated into steam, they drink up or absorb a great quan- tity of heat: from this analogy, when gun-powder is exploded, it ought to absorb much heat ; that is, in popular language, it ought to produce a great quantity of cold. When vital air is united with phlogistic matter in respiration, which seems to be a slow combustion, its volume is lessened; the carbonic add, and perhaps phosphoric acid, are produced, and heat is given out ; which, according to the experiments of Dr. Crawford, would seem to be deposited from the vital air. But as the vital air in nitrous acids is condensed from a light elastic gas to that ol a heav) fluid, it must possess less heat than before. And hence a great part of the heat winch is given out in tiring gun-powder, I should suppose, must reside in the sulphur or charcoal. Mr. Lavoisier has shown, that vital air, or Oxygene, loses less of its heat when it becomes one of the component parts of nitrous acid, than in any other of its combinations; and is hence capable of giving out a great quantity of heat in the explosion of gun-powder: but as there seems to be great analogy between the matter of heat, or Calorique, and the electric matter ; and as the worst conductors of electricity are believed to contain the greatest quantity of that tluid ; there is reason to suspect, that the worst conductors of heat may contain the most of that fluid ; as sulphur, wax, silk, an, glass. See note on 1. 1~6 of this Canto. Vitre. scent sparit. 1 229. When flints are struck against other flints they have the property of giving sparks of light ; but it seems to be an internal lij;lu, perhaps of electric origin, very dilicrent from the ignited sparks which ju BtrU( k from flint and steel. The sparks produced bj the collision of steel With Hint appear to be globular particles of iron, which hu\c k\n fusecL aiul Canto I. ECONOMY OF VEGETATION. Or mark with shining letters Kunkel's name In the pale Phosphor's self-consuming flame. So the chaste heart of some enchanted Maid Shines with insidious light, by Love betray'd ; Round her pale bosom plavs the young Desire, And slow she wastes by self-consuming fire. 3. " You taught mysterious Bacon to explore Metallic veins, and part the dross from ore ; With sylvan coal in whirling mills combine The crystall'd nitre, and the sulphurous mine ; Through wiry nets the black diffusion strain, And close an airy ocean in a grain.— imperfectly scorified or vitrified. They are kindled by the heat produced by the collision; but their vivid light, and their fusion and vitrification are the effects of a combustion continued in these particles during their passage through the air. This opinion is confirmed by an experiment of Mr. Hawksbee, who found that these sparks could not be produced in the exhausted receiver. See Keir's Chemical Diet. art. Iron, and art. Earth vitrifiable. The pale Phosphor. 1. 232. See additional notes, No. X. 'And close an airy ocean. 1. 242. Gun-powder is plainly described in the works of Roger Bacon, before the year 1267. He describes it in a curious manner, mentioning the sulphur and nitre, but conceals the charcoal in an anagram. The words are, sed tamen salis petrae lure mope can ubrc, et sulphuris, et sic facies tonitrum, et corruscationem, si scias, artificium. The words lure mope can ubre are an anagram of carbonum pulvere. Biograph. Britan. Vol. L Bacon de Secretis Operibus, Cap. XI. He adds, that he thinks, by an arti- fice of this kind Gideon defeated the Midianites with only three hundred men. Judges, Chap. VII. Chamb. Diet. art. Gun-powder. As Bacon does not claim this as his own invention, it is thought, by many, to have been of much more ancient discovery. The permanenflv-elasMc fluid, generated in the firing of gun-powder, is calculated by Mr. Robins to be about 244 if the bulk of the powder be 1. And that thelieat generated at the time of the explosion occasions the rare- fied air, thus produced, to occupy about 1000 times rhe space of the gun-pow- der. This pressure may therefore be called equal to 1000 atmospheres, or six tons upon a square inch. As the suddenness of this explosion must contribute much to its power, it would seem that the chamber of powder, to produce its greatest effect, should be lighted in the centre of it ; which, I believe, is not attended to in the manufacture of muskets or pistols. From the cheapness with which a very powerful gun-powder is likely soon to be manufactured from aerated marine acid, or from a new method of forming nitrous acid by means of manganese or other calciform ores, it may probably, in time, be applied to move machinery, and supersede the use of steam. There is a bitter invective in Don Quixote against the inventors of gun- powder, as it levels the strong with the weak, the knight cased in steel with the naked shepherd, those who have been trained to the sword with thosw 20 BOTANIC GARDEN. Part I. Pont in dnrk chambers of cylindric brass, Slumbers in grim repose the sooty mass ; Lit by the brilliant spark, from grain to grain 245 Runs the quick fire along the kindling train ; On the pain'd ear-drum bursts the sudden crash, Starts the red (lame, and Death pursues the flash.— Fear's feeble hand directs the fiery darts, And strength and courage yield to chemic arts ; 350 Guilt with pale brow the mimic thunder owns, And Tyrants tremble on their blood-stain'd thrones. VI. " Nymphs! you erewhile on simmering cauldrons play'd, And call'd delighted Savery to your aid; Bade round the youth explosive Steam aspire 255 In gathering clouds, and wing'd the wave with fire; Bade with cold streams the quick expansion stop, And sunk the immense of vapour to a drop. — Press'd by the ponderous air the Piston falls Resistless, sliding through its iron walls; 260 who are totally unskilful in the use of it ; and throws down all the splendid distinctions of mankind. These very reasons ought to have been urged to show that the discovery of gun-powder has been of public utility, by weaken- ing the tyranny of the few over the many. Delighted Savery. 1. 254. The invention of the steam-engine for raising water by the pressure of the air, in consequence of the condensation of steam, is properly ascribed to Capt. Savery ; a plate and description of this machine is given in Harris's Lexicon Technicum, art. Engine. Though the Marquis of Worcester, in his Century of Inventions, printed in the year 1663, had de- scribed an engine for raising water by the explosive power of Steam long before Savery's. Mr. Desaguliers affirms, that Savery bought up all he could procure of the books of the Marquis of Worcester, and destroyed them, professing himself then to have discovered the power of steam by ac- cident, which seems to have been an unfounded slander. Savery applied it to the raising of water to supply houses and gardens, bur could not plish the draining of mines by it. Which was afterwards done by Mr. Newcomen and Mr. John Cowley, at Dartmouth, in the year ITU, who added the piston. A Few years a)., r o Mr. Watt, of Glasgow, much improved this machine, and with Mr. Boulton, of Birmingham, has applied it toa varierj of purposes, ouch as raising water front mines, blowing bellows to fuse the ore. suppKing towns with water, grinding corn, and man) other purposes. There is tea- son to believe it ma) in time be applied to the rowing of barges, and the moving of carriages along the road As the specific levit) oi air i lor the BUpporl 0? great burthens b) balloons, there seems no probable me- thod .1 flying convenient!) but by the power of steam, orsomeothei explo- sive material ; which another half century may probably discover. See ad ditional note, N<> XI Canto I. ECONOMY OF VEGETATION. 21 Quick moves the balanced beam of giant-birth, Wields his large limbs, and, nodding, shakes the earth. " The Giant-Power from earth's remotest caves Lifts with strong arm her dark reluctant waves ; Each cavern'd rock, and hidden den explores, 265 Drags her dark coals, and digs her shining ores, — Next, in close cells of ribbed oak confined, Gale after gale, he crowds the struggling wind ; The imprison'd storms through brazen nostrils roar, Fan the white flame, and fuse the sparkling ore. 27G Here high in air the rising stream he pours To clay-built cisterns, or to lead-lined towers ; Fresh through a thousand pipes the wave distils, And thirsty cities drink the exuberant rills. There the vast mill-stone, with inebriate whirl, 275 On trembling floors his forceful fingers twirl, Whose flinty teeth the golden harvests grind, Feast without blood ! and nourish human kind. " Now his hard hands on Mona's rifted crest, Bosom' d in rock, her azure ores arrest ; 280 Feast without blood ! 1. 278. The benevolence of the great Author of all things is greatly manifest in the sum of his works, as Dr. Balguy has well evinced in his pamphlet on Divine Benevolence asserted, printed for Davis, 1781. Yet if we may compare the parts of nature with each other, there are some circumstances of her economy which seem to contribute more to th« general scale of happiness than others. Thus the nourishment of animal bodies is derived from three sources : 1. The -milk given from the mother to the offspring : in this excellent contrivance the mother has pleasure in af- fording the sustenance to the child, and the child has pleasure in receiving it. 2. Another source of the food of animals includes seeds, or eggs: in these the embryon is in a torpid or insensible state, and there is along with it, laid up for its early nourishment, a store of provision, as the fruit be- longing to some seeds, and the oil and starch belonging to others : when these are consumed by animals, the unfeeling seed, or egg, receives no pain, but the animal receives pleasure which consumes it. Under this article may be included the bodies of animals which die naturally. 3. But the last method of supporting animal bodies by the destruction of other living animals, as lions preying upon lambs, these upon living vegetables, and mankind upon them all, would appear to be a less perfect part of the economy of na- ture than those before mentioned, as contributing less to the sum of general happiness. Mono's rifted crest. 1. 279. Alluding to the very valuable copper-mines in the isle of Anglesey,, the property of the Earl of Uxbridge. 22 BOTAXIC GARDEN*. Pakt I. With iron lips his rapid rollers seize The lengthening bars, in thin expansion squeeze ; Descending screws with ponderous fly-wheels wound The tawny plates, the new medallions round ; Hard dyes of steel the cupreous circles cramp, 285 And with quick fill his missy hammers stamp. The Harp, the Lilv and the Lion join, And George and Britaiv guard the sterling coin. " Soon shall thy arm, unconquer'd Steam ! afar Drag the slow barge, or drive the rapid car ; 290 Or on wide-waving wings expanded bear The flying-chariot through the fields of air. —Fair crews triumphant, leaning from above, Shall wave their fluttering 'kerchiefs as they move ; Or warrior-bands alarm the gaping crowd, 295 And armies shrink beneath the shadow}- cloud. " So mighty Hercules o'er many a clime Waved his vast mace in Virtue's cause sublime, With iron lips. 1. 281. Mr. Boulton has lately constructed at Soho, near Birmingham, a mist magnificent apparatus for coining, which has cost him some thousand pounds: the whole machinery is moved by an improved steam-engine, which rolls the copper for half-pence finer than copper has before been rolled for the purpose of making money ; — it works the coupoirs, or screw-presses for cutting out the circular pieces of copper, and coins both the faces and edges of the money at the same time, with such superior ex- cellence, and cheapness of workmanship, as well as with marks of such powerful machinery, as must totally prevent clandestine imitation, and, in consequence, save many lives from the hand of the executioner; a circum- stance worthy the attention of a great minister. If a civic crown was given in Rome for preserving the life of one citizen, Mr Boulton should be co- vered with garlands of oak ! By this machinery four boys, of ten or twelve years old, are capable of striking thirty thousand guineas in an hour, and the machine itself keeps an unerring account of the pieces struck. Su mighty Htrciiles. 1. 297. The story of Hercules seems of great anti- quity, as appears from the simplicity of his dress and armour, a lion's skin and a club; and from the nature of mam of his exploits, the desrrocti m of wild beasts and robbers. This part of the history of Hercules seems to have related to times before the invention of the bow ami arrow, or of spin* ningnax. Other stories of Hercules are perhaps of liter date, and appear to be allegorical, as his conquering the river-god Achelous, and bringing Cerberus up to day-light: the former might refer to his turning the course ol a river, and draining a morass, and the latter to his exposing a part of the Bnperstition of the times. The strangling the Hon, and tearing Ins laws asunder, are described from a statue in the Museum Florentinum, and from Canto I. ECONOMY OF VEGETATION. Unmeasured strength with early art combined, Awed, served, protected, and amazed mankind.— First two dread Snakes, at Juno's vengeful nod, Climb'd round the cradle of the sleeping God ; Waked by the shrilling hiss and rustling sound, And shrieks of fair attendants trembling round, Their gasping throats with clenching hands he holds ; And Death untwists their convoluted folds. Next in red torrents from her sevenfold heads Fell Hydra's blood on Lerna's lake he sheds ; Grasps Achelous with resistless force, And drags the roaring River to his course ; Binds with loud bellowing and with hideous yell, The monster Bull, and threefold Dog of Hell. " Then, where Nemea's howling forests wave, He drives the Lion to his dusky cave ; Seized by the throat, the growling fiend disarms, And tears his gaping jaws with sinewy arms ; Lifts proud Antaeus from his mother-plains, And with strong grasp the struggling Giant strains ; Back falls his fainting head, and clammy hair, Writhe his weak limbs, and flits his life in air j — . an antique gem ; and the grasping Anteus to death in his arms, as he lifts him from the earth, is described from another ancient cameo. The famous pillars of Hercules have been variously explained. Pliny asserts that the natives of Spain and of Africa believed that the mountains of Abyla and Calpe, on each side of the straits of Gibraltar, were the pillars of Hercules; and that they were reared by the hands of that god, and the sea admitted be- tween them. Plin. Hist. Nat. p. 46. Edit. Manut. Venet. 1609. If the passage between the two continents was opened by an earthquake, in ancient times, as this allegorical story would seem to countenance, there must have been an immense current of water at first run into the Mediter- ranean from the Atlantic ; since there is at present a strong stream sets always from thence into the Mediterranean. Whatever may be the cause, which now constantly operates, so as to make the surface of the Mediterranean lower than that of the Atlantic, it must have kept it very much lower before a passage for the water through the straits was opened. It is probable, before such an event took place, the coasts and islands of the Mediterranean ex- tended much further into that sea, and were then, for a great extent of country, destroyed by the floods occasioned by the new rise of water, and have since remained beneath the sea. Might not this give rise to the flood ©f Deucalion? See note on Cassia, Vol. II. of this work. Part I. F 24 BOTANIC GARDEN. Part I. By steps reverted, o'er the hlood-clropp'd fen He tracks huge Cacus to his murderous den ; Where breathing flames through brazen lips he fled, And shakes the rock-roof d cavern o'er his head. u Last with wide arms the solid earth he tears, 325 Piles rock on rock, on mountain mountain rears ; Heat es up huge Abi/ki on Afric's sand, Crowns with high Calpe Europe's salient Strand; Crests with opposing towers the splendid scene, And pours from urns immense the sea between. — • 330 —Loud o'er her whirling flood Charybdis roars, Affrighted Scylla bellows round his shores ; Vesuvio groans through all his echoing caves, And Etna thunders o'er the insurgent waves* VII. 1. " Nymphs! your fine hands ethereal floods amass From the warm cushion, and the whirling glass j 336- Beard the bright cvlinder with golden wire, And circumfuse the gravitating fire. Cold from each point cerulean lustres gleam, Or shoot in air the scintillating stream. 340 So, borne on brazen talons, watch'd of old The sleepless dragon o'er his fruits of gold ; Bright beam'd his scales, his eye-balls blazed with ire, And his wide nostrils breathed inchanted fire. Ethereal floods amass. 1. 335. The theory of the accumulation of the electric fluid, by means of the glass globe and cushion, is difficult to com- prehend. Dr. Franklin's idea of the pores of the glass being opened by the friction, and thence rendered capable of attracting more electric fluid, which it again parts with, as the pores contract again, seems analogous, in some measure, to the heat produced by the vibration, or condensation i I as when a nail is hammered or tiled till it becomes hot, as mentioned in ad- ditional notes, No. VII. Some philosophers have endeavoured to account for this phenomenon, by supposing the i \istence of two electric fluids, which ma) be called the vitreous and resinous ones, instead of the plus and minus of the same i her. lim its accumulati m on the rubbed glass bears great an- i on the surface of the L -Jen bottle, and cannot, perhaps, be explained from any known mechanical or chemical principle. See note <>n Gymnotus, I. 202 of this Canto. (*U I from each point. 1. SJ'J. Sec additional notes, No. XIII. Canto I. ECONOMY OF VEGETATION. 25 " Tou bid gold-leaves, in crystal lantherns held, 345 Approach attracted, and recede repell'd ; While paper-nymphs instinct with motion rise, And dancing fauns the admiring Sage surprize. Or, if on wax some fearless Beauty stand, And touch the sparkling rod with graceful hand ; 350 Through her fine limbs the mimic lightnings dart, And flames innocuous eddy round her heart: O'er her fair brow the kindling lustres glare, Blue rays diverging from her bristling hair ; While some fond youth the kiss ethereal sips, .355 And soft fires issue from their meeting lips. So round the virgin Saint in silver streams The holy Halo shoots its arrowy beams. " Tou crowd in coated jars the denser fire, Pierce the thin glass, and fuze the blazing wire ; 360 Or dart the red flash through the circling band Of youths and timorous damsels, hand in hand. —Starts the quick Ether through the fibre-trains Of dancing arteries, and of tingling veins, Goad's each fine nerve, with new sensation thrill'd, 365 Bends the reluctant limbs with power unwill'd - r Tou bid gold-leaves. 1. 345. Alluding to the very sensible electrometer im- proved by Mr. Bennet : it consists of two slips of gold-leaf suspended from ■3. tin cap in a glass cylinder, which has a partial coating without, communi- cating with the wooden pedestal. If a stick of sealing-wax be rubbed for a moment on a dry cloth, and then held in the air, at the distance of t-xvo or three feet from the cap of this instrument, the gold leaves separate, such is its as- tonishing sensibility to electric influence ! (See Bennet on electricity. John- son. Lond.) The nerves of sense of animal bodies do not seem to be af- fected by less quantities of light or heat. The holy Halo. 1. 358. I believe it is not known with certainty at what time the painters first introduced the luminous circle round the head, to im- port a Saint or holy person. It is now become a part of the symbolic lan- guage of painting, and it is much to be wished that this kind of hieroglyphic character was more frequent in that art, as it is much wanted to render his- toric pictures both more intelligible and more sublime ; and why should not painting, as well as poetry, express itself in a metaphor, or in indistinct alle- gory ? A truly great modern painter lately endeavoured to enlarge the sphere of pictorial language, by putting a demon behind the pillow of a wicked man on his death-bed. Which, unfortunately for the scientific part of painting, the cold criticism of the present day has depreciated, and thus barred, per- haps, the only road to the farther improvement in this science. With new sensation thrilVd. 1. 365. There is probably a system of nerves 26 BOTANIC GARDEN. Part I. Palsy's cold hands the fierce concussion own. And Lite clings trembling on her tottering throne. — So from dark clouds the playful lightning springs, Rives die firm oak, or prints die Fair)- -rings. 370 2. " Nymphs! on that day ye shed from lucid eves Celestial tears, and breathed ethereal sighs ! When Richman rear'd, by fearless haste betrav'd, The win - rod in Nieva's fatal shade;— Clouds o'er the Sage, with fringed skirts succeed, 375 Flash follows flash, the warning corks recede ; Near and more near he eyed, with fond amaze, The silver streams, and watch'd the sapphire blaze ; Then burst the steel, die dart electric sped, And the bold Sage la)- number'd with the dead ! 380 in animal bodies for the purpose of perceiving heat; since the degree of this fluid is so necessary to health, that we become presently injured, either by its excess or defect ; and because almost every part of our bodies is supplied with branches from different pairs of nerves, which would not seem neces- sary for their motion alone. It is therefore probable, that our sensation of electricity is only of its violence in passing through our system, by its sud- denly distending the muscles, like any other mechanical violence ; and that it is general pain alone that we feel, and not any sensation analogous to the spe- cific quality of the object. Nature may seem to have been niggardly to nun- kind in bestowing upon them so few senses; since a sense to have perceived electricity, and another to have perceived magnetism, might have been of great service to them, many ages before these fluids were discovered by acci- dental experiment; but it is possible an increased number of senses might have incommoded us by adding to the size of our bodies. Palsy's cold bands. 1. 367. Paralytic limbs are in general only incapable of being stimulated into action by the power of the will ; since the pulse conti- nues to beat, and the fluids to be absorbed in them ; and it commonly happens, when paralytic people yawn and stretch themselves (which is not a voluntary notion), that the affected limb moves at the same time. The temporary mo- tion of a paralytic limb is likewise caused In passing the electric shock through it; which would seem to indicate some analog} between the electric fluid and the nervous fluid, which is separated from the blood by the brain, and thence diffused along the nerves, for the purposes of motion and sensa- tion. It probably destroys life, by its sudden expansion of the • fibres of the brain, in the .same manner as it fuses metals, ami splint) or stone, and removes the atmosphere when it passes fioi.i one object to another in a dense state. 1'iints the Fair v -rings. 1. .170. See additional notes No. XIII. When Richman rear'd. 1.373. Dr. Richman, Professor of Natural Philo- sophy at Petersburgh, about the year 1763, elevated an insulated metallic tod to collect the aerial electricity, as Dr. Franklin had previous!] done at Philadelphia ; and as he was observing the repulsion of the balls of lus elee- trometer, approached too near the conductor, and receiving the lightning in hit bud] wi'lia loud explosion, was struck dead amidst his family. Canto I. ECONOMY OF VEGETATION. Nymphs! on that day ye shed from lucid eyes Celestial tears, and breathed ethereal sighs ! 3. " Ton led your Franklin to your glazed retreats, Your air-built castles, and your silken seats ; Bade his bold arm invade the lowering sky, 3 And seize the tip-toe lightnings ere they fly ; O'er the young Sage your mystic mantle spread, And wreathed the crown electric round his head.— Thus, when on wanton wing intrepid Love Snatch'd the raised lightning from the arm of Jove ; 3 Quick o'er his knee the triple bolt he bent, The cluster'd darts and forky arrows rent, Snapt with illumined hands each flaming shaft, His tingling fingers shook, and stamp'd, and laugh'd ; Bright o'er the floor the scatter'd fragments blazed, 3' And gods, retreating, trembled as they gazed ; The immortal Sire, indulgent to his child, Bow'd his ambrosial locks, and Heaven, relenting, smiled. You led your Franklin. 1. 383. Dr. Franklin was the first that discovered that lightning consisted of electric matter; he elevated a tall rod with a wire wrapped round it, and fixing the bottom of the rod into a glass bottle, and preserving it from falling by means of silk strings, he found it electrified whenever a cloud passed over it, receiving sparks by his finger from it, and charging coated phials. This great discovery taught us to defend houses, and ships, and temples, from lightning, and also to understand that people are always perfectly safe in a room during a thunder storm, if they keep themselves at three or four feet distance from the walls; for the matter of lightning, in passing from the clouds to the earth, or from the earth to the clouds, runs through the walls of a house, the trunk of a tree, or other elevated object ; except there be some moister body, as an animal, in contact with them, or nearly so; and in that case the lightning leaves the wall or tree, and passes through the animal ; but as it can pass through metals with still greater faci- lity, it will leave animal bodies to pass through metallic ones. If a person, in the open air, be surprised by a thunder-storm, he will know his danger by observing, on a second watch, the time which passes between the flash and the crack, and reckoning a mile for ever) four seconds and a half, and a little more. For sound travels at the rate of 1142 feet in a second of time ; and the velocity of light, through such small distances, is not to be esti- mated. In these circumstances a person will be safer by lying down on the ground than erect, and still safer if within a few feet of his horse; which,, being then a more elevated animal, will receive the shock in preference, as the cloud passes over. See additional notes, No. XIII. Intrepid Love. 1. 389. This allegory is uncommonly beautiful, representing Divine Justice as disarmed by Divine Love, and relenting of his purpose. It is expressed on an agate in the Great Duke's collection at Florence. Spence. 28 BOTANIC GARDKN. Part I. VIII. " "When Air's pure essence joins the vital flood, And with phosphoric Acid dyes the blood, 400 Tour Virgin trains the transient heat dispart, And lead the solt combustion round the heart; Life's holy lamp with fires successive feed, From the crown'd forehead to the prostrate weed, From Earth's proud realms to all that swim or sweep, 405 The yielding ether or tumultuous deep. 1 'ou swell the bulb beneath the heaving lawn, Brood the live seed, unfold the bursting spawn ; Nurse with soft lap, and warm with fragrant breath The embrvon panting in the amis of Death ; 410 Youth's vivid eye with living light adorn, And fire the rising blush of Beauty's golden morn. u Thus when the Egg of Night, on Chaos hurl'd. Burst and disclosed the cradle of the world ; Transient heat dispart. 1. 401. Dr. Crawford, in his ingenious work on ani- mal heat, has endeavoured to prove, that during the combination of the pure part of the atmosphere with the phlogistic part of the blood, much of the matter of the heat is given out from the air ; and that this is the great and perpetual source of the heat of animals; to which we may add, that the phos- phoric acid is probably produced by this combination ; by which acid the colour of the blood is changed in the lungs from a deep crimson to a bright scarlet. There seems to be, however, another source of animal heat, though of a similar nature; and that this is from the chemical combinations produced in all the glands ; since, by whatever cause any glandular secretion is increased, as by friction or topical inflammation, the heat of that part becomes increased at the same time; thus, alter the hands have been for a time 'immersed in snow, oncoming into a warm room, they become red and hot, without any increased pulmonary action. Besides this, there would seem to be another material received from the air by respiration ; which is s.> necessary to life, that the embryon must learn to breathe almost within a minute after its birth, or it dies. The perpetual necessity of breathing shows, that the material thus acquired is perpetually consuming or escaping, and, on that account, requires perpetual renovation.' Perhaps the spirit of animation itself is thus acquired from the atmosphere, which, if it be supposed to be liner or more subtle than the electric matter, could not long be retained in our bodies, and must there- fore require perpetual renovation. Thus when the J'Jgg of Night. 1. 413. There were two Cupids belonging to the ancient mythology, one much elder than the other. The elder Cupid, or Eros, or Divine Love, was the first that came out of the great egg of night, which floated in Chaos, and was broken by the horns oJ the celestial bull, thai i , was hatched by the warmth of the spring. He was winged and armed, and by his arrows and torch pierced and vivified all things, producing life and joy. Bacon, vol. v. p. 197. Quarto edit. Lond. irrtt. " At this . Aristophanes) sable-winged night produced an egg, from whence sprung up like a blossom Eros, the lovely, the desirable, with his glossy Canto I. ECONOMY OF VEGETATION. 29 First from the gaping shell refulgent sprung 415 Immortal Love, his bow celestial strung ;— O'er the wide waste his gaudy wings unfold, Beam his soft smiles, and wave his curls of gold ; — With silver darts he pierced the kindling frame, And lit with torch divine the ever-living flame." 420 IX. The Goddess paused, admired with conscious pride The effulgent legions marshal'd by her side, Forms sphered in fire, with trembling light array'd, Ens without weight, and substance without shade ; And while tumultuous joy her bosom warms, 425 Waves her white hand, and calls her hosts to arms. " Unite, illustrious Nymphs ! your radiant powers, Call from their long repose the Vernal Hours. Wake with soft touch, with rosy hands unbind The struggling pinions of the Western Wind; 430 golden wings." Avibus. Bryant's Mythology, vol. ii. p. 350, second edition. This interesting moment of this sublime allegory, Mrs. Cosway has chosen for her very beaut, ful painting. She has represented Eros, or Divine Love, with large wings, having the strength of the eagle's wings, and the splen- dour of the peacock's, with his hair floating in the form of flame, and with a halo of light vapour round his head, which illuminates the painting, while he is in the act of springing forwards, and with his hands separating the elements. Of the western Wind. 1 430. The principal frosts of this country are ac- companied or produced by a N. E. wind, and the thaws by a S. W. wind ; the reason of which is, that the N. E. winds consist of regions of air brought from the north, which appear to acquire an easterly direction as they ad- vance ; and the S. W. winds consist of regions of air brought from the south, which appear to acquire a westerly direction as they advance. The surface of the earth nearer the pole moves slower than it does in our latitude ; whence the regions of air brought from thence move slower, when they arrive hither, than the earth's surface, with which they now become in contact ; that is, they acquire an apparent easterly direction, as the earth moves from west to east faster than this new part of its atmosphere. The S. W. winds, on the contrary, consist of regions of air brought from the south, where the surface of the earth moves faster than in our latitude ; and have, therefore, a west- erly direction when they arrive hither, by their moving faster than the sur- face of the earth with which they are in contact ; and, in general, the nearer to the west, and the greater the velocity of these winds, the warmer they should be in respect to the season of the year, since they have been brought more expeditiously from the south than those winds which have less westerly- direction, and have thence been less cooled in their passage. Sometimes I have observed the thaw to commence immediately on the change of the wind, even within an hour, if I am not mistaken, or sooner. 30 BOTANIC GARDEN. Part L Chafe his wan cheeks, his ruffled plumes repair, And wring die ram-drops from his tangled hair. Bla/.e round each frosted rill, or Stagnant wave, And charm die Naiad from her silent cave ; Where, shrined in ice, like Niobf. she mourns, 4-JJ And clasps u ith hoary arms her empty urns. Call your bright myriads, trooping from afar, With beamy helms, and glittering shafts of war ; In phalanx linn, the Fiend of Frost assail, Break his white towers, and pierce his crystal mail ; 440 To Zembla's moon-hright coasts the Tyrant bear, And chain him, howling, to the Northern Bear, " So when enormous Grampus, issuing forth From the pale regions of the icy North, Waves his broad tail, and opes his ribbed mouth, 44J And seeks on winnowing fin the breezy South; At other times, the S. W. wind has continued a day, or even two, before the thaw has commenced ; during which time some of the frosty air, which had gone southwards, is driven back over us; and, in consequence, has taken a westerly direction as well as a southern one. At other times, I have ob- served a frost, with a N. E. wind, every morning, and a thaw, with a S. W. wind, every noon, for several days together. See additional notes, No. XXXIII. The Fiend of Frost. I. 439. The principal injury done to vegetation by frost, is from the expansion of the water contained in the vessels of plants. Water, converted into ice, occupies a greater space than it did before, at appears by the bursting of bottles filled with water at the time of their freez- ing. Hence frost destroys those plants of our island tirst which are most succulent ; and the most succulent parts Hrst of other plants, as their leaves and last year's shoots ; the vessels of which are distended and burst by the expansion of their freezing fluids ; while the drier, or more resinous plants, as pines, yews, laurels, and other ever-greens, are less liable to injury from cold. The trees in vallies are, on this account, more injured by tie vernal frosts than those on eminences, because their early succulent shoots come out sooner. Hence fruit trees, covered by a six-inch coping of a wall, are less injured by the vernal frosts, because their being shielded from showers and the descending night-dews, has prevented them from being noist at the time of their being frozen ; which circumstance has given occasion to a vul- gar error amongst gardeners, who suppose frost to descend. As the common heat of the earth, in this climate, is 18 & • I' i 'i. . which will bear bending down, are easily secured tram the frost, by spreading them upon the ground, and covering them with straw or rein. This particularly suits fig-trees, as they easil} bear bending to the ground, and are Furnished with an acrid juice, which secures them from the depvsv di I'n. Mo i insects, but are, nevertheless, liable to be eaten bj mice* See -ad- ditional notes, No. XII. CAnto I. ECONOMY OF VEGETATION. 31 From towns deserted rush the breathless hosts, Swarm round the hills, and darken all the coasts ; Boats follow boats along the shouting tides, And spears and javelins pierce his blubbery sides j 450 Now the bold Sailor, raised on pointed toe, Whirls the wing'd harpoon on the slimy foe ; Quick sinks the monster in his oozy bed, The blood stain'd surges circling o'er his head, Steers to the frozen pole his wonted track, 455 And bears the iron tempest on his back. X. " On wings of flame, ethereal Virgins! sweep O'er Earth's fair bosom, and complacent deep ; Where dwell ray vegetative realms benumb'd, In buds imprison'd or in bulbs intomb'd, 460 Pervade, pellucid Forms ! their cold retreat, Ray from bright urns your viewless floods of heat ; In buds imprison'd. I. 460. The buds and bulbs of plants constitute what is termed by Linnseus the Hibernaculum, or winter cradle of the embryon ve- getable. The buds arise from the bark on the branches of trees, and the bulbs from the caudex of bulbous-rooted plants, or the part from which the fibres of the root are produced : they are defended from too much moisture, and from frosts, and from the depredations of insects, by various contrivances, as by scales, hairs, resinous varnishes, and by acrid rinds. The buds of trees are of two kinds, either flower-buds or leaf-buds ; the former of these produce their seeds, and die ; the latter produce other leaf- buds, or flower-buds, and die. So that all the buds of trees may be consi- dered as annual plants, having their embryon produced during the preceding summer. The same seems to happen with respect to bulbs: thus a tulip produces annually one flower-bearing bulb, sometimes two, and several leaf- bearing bulbs ; and then the old root perishes. Next year the flower-bearing bulb produces seeds and other bulbs, and perishes ; while the leaf-bearing bulb, producing other bulbs only, perishes likewise : these circumstances es- tablish a strict analogy between bulbs and buds. See additional notes, No. XIV. Viewless floods of heat. 1. 462. The fluid matter of heat, or Calorique, in which all bodies are immersed, is as necessary to vegetable as to animal ex- istence. It is not yet determinable whether heat and light be different mate- rials, or modifications of the same materials, as they have some properties in common. They appear to be both of them equally necessary to vegetable health, since, without light, green vegetables become first yellow; that is, they lose the blue colour, which contributed to produce the green ; and after- wards they also lose the yellow, and become white ; as is seen in cellery blanched or etiolated for the table, by excluding the light from it. ^ The upper surface of leaves, which I suppose to be their organ of respira- tion, seems to require light as well as air ; since plants which grow in win- dows, on the inside of houses, are equally solicitous to turn the upper side of Part I. G 52 BOTANIC GARDEN. Part I. From earth's dec]) wastes electric torrents pour, Or shed from heaven the scintillating shower; Pierce the- dull root, relax its fibre trains, 465 Thaw the thick blood, which lingers in its veins ; Melt with warm breath the fragrant gums, that bind The expanding foliage in its scaly rind; their leaves to the light. Vegetables, at the same time, exude or perspire a great quantity from their leaves, as animals do from their lungs; this per- spirable matter, as it rises from their fine vessels (perhaps much finer than the pores of animal skin), is divided into inconceivable tenuity; and, when acted upon by the sun's light, appears to be decomposed ; the hydrogene be- comes a part of the vegetable, composing oils or resins ; and the oxygene, com- bined with light or calorique, ascends, producing the pure part of the atmos- phere, or vital air. Hence, during the light of the day, vegetables give up more pure air than their respiration injures ; but not so in the night, even though equally exposed to warmth. This single fact would seem to show, that light is essentially different from heat ; and it is, perhaps, by its combi- nation with bodies, that their combined or latent heat is set at liberty, and becomes sensible. See additional notes, No. XXXIV. Electric torrents pour. 1. 453. The influence of electricity in forwarding the germination of plants and their growth, seems to be pretty well esta- blished, though Mr. Ingenhouz did not succeed in his experiments, and thence doubts the success of those of others; and though M. Rouland, from his new experiments, believes that neither positive nor negative electricity in- creases vegetation, both which philosophers had previously been supporters of the contrary doctrine: for many other naturalists have since repeated their experiments relative to this object, and their new results have confirmed their former ones. Mr. D'Ormoy, and the two Roziers, have found the same success in numerous experiments which they have made in the last two years ; and Mr. Carmoy has siiown, in a convincing manner, that electricity acce- lerates germination. Mr. !)'«' >i m iv nut only found various seeds to vegetate sooner, and to grow taller, which were put upon his insulated table, and supplied with electricity, but also, that silk- worms began to spin much sooner which were kept elec- trified, than those of the same hatch, which were kept in the same place and manner, except that they were not electrified. These experiments of Mr. D'Ormov are detailed at length in the Journal de Phvsique of Roster, Tom. XXXV. p. 270. M. Bartholon, who had before written a tract on this subject, and pro- posed ingenious methods for applying electricity to agriculture and gardening, has also repeated a numerous set of experiments ; and shows, both that na- tural electricity, as well as the artificial, increases the growth of plants, and the germination of seeds ; and opposes Mr. Ingenhouz by very numerous and conclusive facts. lb. Tom XXXV. p. 401. Since by the late discoveries or opinions of the chemists, there is reason to believe, that water is decomposed in the vessels of vegetables ; and that the Hyd . or inflammable air, of which it in pari consists, contributes to timent of the plant, and to the production of its oils, resins, gums, imposes water into these two airs, termed Oxygene and Hydrogene, there is .i powerful analogy to induce us to believe, that it accelerates or contributes to the growth ol vegetation, and, like heat, may possibly enter into combination with man) bodies, or form the basil of borne yet uuanalizcd acid. Canto I. ECONOMY OF VEGETATION. 55 And as in air the laughing leaflets play, And turn their shining bosoms to the ray, 470 Nymphs ! with sweet smile, each opening flower invite, And on its damask eyelids pour the light. " So shall my pines, Canadian wilds that shade, Where no bold step has pierced the tangled glade, High-towering palms, that part the Southern flood, 475 With shadow}* isles, and continents of wood, Oaks, whose broad antlers crest Britannia's plain, Or bear her thunders o'er the conquer' d main, Shout, as you pass, inhale the genial skies, And bask and brighten in your beamy eyes ; 480 Bow their white heads, admire the changing clime, Shake from dieir candied trunks the tinkling rime ; With bursting buds their wrinkled barks adorn, And wed the timorous floret to her thorn ; Deep strike their roots, their lengthening tops revive, 485 And all my world of foliage wave, alive. " Thus with Hermetic art, the Adept combines The royal acid with cobaltic mines ; Marks, with quick pen, in lines unseen portray'd, The blushing mead, green dell, and dusky glade ; 49© Shades, with pellucid clouds, the tintless field, And all the future Group exists conceal'd : Thm with Hermetic art. 1. 487. The sympathetic inks made by Zaffre, dissolved in the marine and nitrous acids, have this curious property, that being brought to the fire, one of them becomes green, and the other red; but what is more wonderful, they again lose these colours (unless the heat has been too great), on their being again withdrawn from the fire. Fire-screens have been thus painted, which, in the cold, have shown only the trunk and branches of a dead tree, and sandy hills, which, on their approach to the fire, have put forth green leaves and red flowers, and grass upon the mountains. The process of making these inks is very easy ; take Zafi're, as sold by the druggists, and digest it in aqua-regia, and the calz of Cobalt will be dissolved ; which solution must be diluted with a little common water, to prevent it from making too strong an impression on the paper; the colour, when the paper is heated, becomes of a fine green-blue. If Zaft're, or Regulus of Cobalt, be dissolved in the same manner in spirit of nitre, or aqua-fortis, a reddish colour is produced on exposing the paper to heat. Chemical Dictionary, by Mr. Keir, art. Ink Sympathetic. 34 BOTANIC GARDEN. Part I. Till, waked by fire, the dawning tablet glows, Circe n springs the herb, the purple floret blow a ; Hills, roles, and woods, in bright succession rise, 495 And all the living landscape charms his eyes. XI. " With crest of gold should sultry Sirius glare, And witli his kindling tresses scorch the air; With points of flame the shafts of Summer arm, And burn the beauties he designs to warm : — ■ 500 — So erst when Jove his oath extorted mourn'd, And, clad in glory, to the Fair retum'd ; WTiile Loves at forky bolts their torches light, And resting lightnings gild the car of Night; His blazing form the dazzled Maid admired, 505 Met with fond lips, and in his arms expired ; — Nymphs! on light pinion lead your banner'd hosts High o'er the cliffs of Orkney's gulphy coasts ; Leave on vour left the red volcanic light, Which Hecla lifts amid the dusky night ; 510 Mark, on the right, the Dofrints snow-capt brow, Where whirling Mh-Istrome roars and foams below ; Watch, with unmoving eye, where Cepheus bends His triple crown, his scepter'd hand extends ; Where studs Cass i ope, with stars unknown, 515 Her golden chair, and gems her sapphire zone ; Where with vast convolution Draco holds The ecliptic axis in his scaly folds, O'er half the skies his neck enormous rears, And with immense meanders parts the Bears; 520 Onward the kindred Bears, with footstep rude, Dance round the Pole, pursuing and pursued. " There in her azure coif and starry stole, (iiv\ Ttyifyght sits, and rules the slumbering Pole ; \araunktwnin. 1.515. Alluding u< the star which .!j>|*-;iuil m the d.air ..I i;;i'.;;i ( ,jK- :i in the year 1573, which, at fust, surpassed Jupiter in Ktagi 1 brightness, diminished l>\ degrees, and disappeared in IS months, it alarmed all the astronomers of the age, and » a5 esteemed a comet fan some.— Could this haye been the Georgium Sidusi Canto I. ECONOMY OF VEGETATION. 35 Bends the pale moon-beams round the sparkling coast, 525 And strews, with livid hands, eternal frost. There, Nymphs ! alight, array your dazzling powers, With sudden march alarm the torpid Hours ; On ice-built isles expand a thousand sails, Hinge the strong helms, and catch the frozen gales ; 530 On ice-built isles. 1. 529. There are many reasons to believe, from the ac? counts of travellers and navigators, that the islands of ice in the higher nor- thern latitudes, as well as the Glaciers on the Alps, continue perpetually to increase in bulk. At certain times in the ice-mountains of Switzerland, there happen cracks which have shown the great thickness of the ice, as some of these cracks have measured three or four hundred ells deep. The great islands of ice in the northern seas near Hudson's bay, have been ob- served to have been immersed above one hundred fathoms beneath the surface of the sea, and to have risen a fifth or sixth part above the surface, and to have measured between three and four miles in circumference. Phil. Trans. No. 465. Sect. 2. Dr. Lister endeavoured to show, that the ice of sea-water contains some salt, and perhaps less air than common ice, and that it is, therefore, much more difficult of solution ; whence he accounts for the perpetual and great in- crease of these floating islands of ice. Phil. Trans. No. ?69. As, by a famous experiment of Mr. Boyle's, it appears that ice evapo- rates very fast in severe frosty weather, when the wind blows upon it ; and as ice, in a thawing state, is known to contain six times more cold than wa- ter at the same degree of sensible coldness, it is easy to understand, that winds blowing over islands and continents of ice, perhaps much below no- thing on Farenheit's scale, and coming from thence into our latitude, must bring great degrees of cold along with them. If we add to this the quantity of cold produced by the evaporation of the water, as well as by the solution of the ice, we cannot doubt but that the northern ice is the principal source of the coldness of our winters, and that it is brought hither by the regions of air blowing from the north, and which take an apparent easterly direc- tion, by their coming to a part of the surface of the earth which moves faster than the latitude they come from. Hence the increase of the ice in the polar regions, by increasing the cold of our climate, adds, at the same time, to the bulk of the Glaciers of Italy and Switzerland. If the nations who inhabit this hemisphere of the globe, instead of de- stroying their seamen, and exhausting their wealth in unnecessary wars, could be induced to unite their labours to navigate these immense masses of ice into the more southern oceans, two great advantages would result to man- kind ; the tropic countries would be much cooled by their solution, and our winters, in this latitude, would be rendered much milder, for perhaps a cen- tury or two, till the masses of ice become again enormous. Mr. Bradley ascribes the cold winds and wet weather which sometimes hap- pen in May and June, to the solution of ice-islands accidentally floating from the north. Treatise on Husbandry and Gardening, vol. ii. p. 437. And adds, that Mr. Baiham, about the year 1718, in his voyage from Jamaica to England, in the beginning of June, met with ice-islands coming from the north, which were surrounded with so great a fog, that the ship was in danger of Striking upon them, and that one of them measured sixty miles in length. We have lately experienced an instance of ice-islands brought from the southern polar regions, on which the Guardian struck at the beginning of 36 BOTANIC GARDEN. Part I. The winged rocks to feverish climates guide, Where fainting Zephyrs pant upon the title ; Pass, where to Cf.uta Calpe's thunder roars, And answering echoes shake the kindred shores ; Pass, where with palmy plumes Canary smiles, 535 And in her silver girdle binds her isles } Onward, where Nigeria dusky Naiad laves A thousand kingdoms with prolific waves, Or leads o'er golden sands her threefold train In steamy channels to the Fervid main ; 540 "While swarthy nations crowd the sultry coast, Drink the fresh breeze, and hail the floating Frost, Nymphs ! veil'd in mist, the melting treasures steer, And cool, with arctic snows, the tropic year. So from the burning Line, by Monsoons driven, 545 Clouds sail in squadrons o'er the darken'd heaven Wide wastes of sand the gelid gales pervade, And Ocean cools beneath die moving shade. XII. " Should Solstice, stalking thro' the sickening bowers, Suck the warm dew-drops, lap the falling showers ; 550 Kneel, with parch'd lip, and bending from its brink, From dripping palm the scant)- river drink ; Nymphs ! o'er the soil ten thousand points erect, And high in air the electric flame collect. her passage from the Cape of Good-Hope towards Botany-Bay, on Decem- ber 22, 1789. These islands were involved in mist, were about one hundred and fifty fathoms long, and about fifty fathoms above the surface of the wa- ter. A part from the top of one of them broke off, and fell into the sea, causing an extraordinary commotion in the water, and a thick smoke all round it. Threefold train. 1. 539. The river Niger, after traversing an immense tract of populous country, is supposed to divide itself into three other great rivers; the Rio Grande, the Gambia, and the Senegal. Gold-dust is obtained f rem the sands of these rivers. It. wastes of sand. 1.547. When the sun is in the southern tropic, 36 deg. distant from the zenith, the thermometer is seldom lower tha at Gondar, in Abyssinia, but it falls to 60 or 53 deg. when the BUD is imme- diately vertical ; so much does the approach of rain counteract the heat of the sun. Brace's Travels, vol. iii. p. 670. Ten thousand /mints erect. 1. 553. The solution of water in air, or in calo- riqoe, seems to acquire electric matter, at the same time, as appears from an experiment of Mr. Bennet. He put some live coals into an insulated funnel wl metal, and throwing on them a little water, observed, that the ascending Canto I. ECONOMY OF VEGETATION. 37 Soon shall dark mists, with self-attraction, shroud 555 The blazing day, and sail in wilds of cloud; Each silvery flower the streams aerial quaff, Bow her sweet head, and infant Harvest laugh. " Thus when Elija mark'd from Carmel's brow In bright expanse the briny flood below ; 560 RolPd his red eyes amid the scorching air, Smote his firm breast, and breathed his ardent prayer ; High in the midst a massy altar stood, And slaughter'd offerings press'd the piles of wood ; While Israel's chiefs the sacred hill surround, 565 And famish'd armies crowd the dusty ground ; While proud Idolatry was leagued with dearth, And wither'd Famine swept the desert earth. — " Oh, mighty Lord ! thy woe-worn servant hear, " Who calls thy name in agony of prayer ; 570 " Thy fanes dishonour'd, and thy prophets slain, " Lo ! I alone survive of all thy train !— • " Oh, send from heaven thy sacred fire — .and pour " O'er the parch'd land the salutary shower,' — " So shall thy Priest thy erring flock recall,— 575 " And speak in thunder, Thou art Lord of a//."—. He cried, and kneeling on the mountain-sands, Stretch'd high in air his supplicating hands. — Descending flames the dusky shrine illume, Fire the Avet wood, the sacred bull consume j 580 steam was electrised plus, and the water which descended through the funnel was electrised minus. Hence it appears, that though clouds, by their change of form, may sometimes become electrised minus, yet they have, 'in general, an accumulation of electricity. This accumulation of electric matter also evidently contributes to support the atmospheric vapour when it is condensed into the form of clouds, because it is seen to descend rapidly after the flashes of lightning have diminished its quantity ; whence there is reason to conclude that very numerous metallic rods, with fine points erected high in the air, might induce it, at any time, to part with some of its water. If we may trust the theory of Mr. Lavoisier concerning the composition and decomposition, of water, there would seem another source of thunder- showers ; and that is, that the two gasses termed oxygene gas, or vital air, and hydrogene gas, or inflammable air, may exist in the summer atmosphere in a state of mixture, but not of combination, and that the electric spark, or flash of lightning, may combine them, and produce water instantaneously. 38 BOTANIC GARD1X. Part I. Winged from the sea the gathering mists arise, And flouting waters darken all the skies; The King with shifted reins his chariot bends, And wide o'er earth the airy flood descends ; With mingling cries dispersing hosts applaud, 5G5 And shouting nations own the living God." The Goddess ceased — the exulting tribes obey, Start from the soil, and win their airy way; The vaulted skies, with streams of transient rays* Shine as they pass, and earth and ocean blaze. 590 So from fierce wars, when lawless Monarchs cease* Or Liberty returns with laurelPd Peace, Bright flv the sparks, the colour' d lustres burn, Flash follows flash, and flame -wing'd circles turn ; Blue serpents sweep along the dusky air, 595 Imp'd by long trains of scintillating hair; Red rockets rise, loud cracks are heard on high, And showers of stars rush headlong from the sky ; Burst, as in silver lines thev hiss along, And the quick flash unfolds the gazing throng. COO THE' ECONOMY OF VEGETATION. CANTO II. Part I. ARGUMENT SECOND CANTO Address to the Gnomes. I. The Earth thrown from a volcano of the Sun \ its atmosphere and ocean ; its journey through the Zodiac ; vicissitude of dav-light, and of seasons, 11. II. Primeval islands. Paradise, or the golden age. Venus rising from the Sea, 33. III. The first great earth- quakes ; continents raised from the Sea; the Moon thrown from a vl- cano, has no atmosphere, and is frozen; the Earth's diurnal motion retarded; its axis more inclined; whirls with the Moon round a new cemre, 67. IV Formation of lime-stone by aqueous solution ; calcareous spar; white marble; ancient statue of Hercules resting from his labours. Antinous. Api llo of Belvidere. Venus de Medici. Lady Elizabeth Fos-er, and Lady Melbourn, by Mrs. Darner, 93. V. 1. Of morasses. Whence the production of salt by elutriation. Salt-mines at-CraO'W, 115. 2 Production of nitre. Mars and Venus caught by Vulcan. 143. 3- Production of iron. Mr. Michel's improvement of artificial mag- nets Uses of steel in agriculture, navigation, war, 183. 4. Production of Acids; whence Flint, Sea-sand, Selenite, Asbestus, Flu r, Onyx, Agate, Mocho, Opal, Sapphire, Ruby, Diamond. Jupiter and Europa, 215. VI. 1. New subterraneous fires from fermentation. Production of Clays; manufacture of Porcelain in China ; in Italy ; in England Mr. Wedgwood's works at Etruria, in Staffordshire. Cameo of a Slave in Chains ; of Hope. Figures on the Portland or Barberini vase explained, 271. 2. Coal; Pyrite; Naptlia ; Jet; Amber. Dr. Franklin's disco- very of disarming the Tempest of its lightning. Liberty of America; of Ireland; of France, 349. VII. Ancient central subterraneous fires. Production of Tin, Copper, Zink, Lead, Mercury, Platina. Gold, and Silver. Destruction of Mexico. Slavery of Africa, 395. VIII De- struction of the armies of Cambyses, 431. IX. Gnomes like stars clan Orrery. Inroads of the Sea stopped. Rocks cultivated. Hannibal pas- ses the Alps, 4'.»9. X. Matter circulates. Manures to Vegetables like Chyle to Animals. Plants rising from the Earth. St. Peter delivered frum Prison, 537. Transmigration of mutter, 375. Death and resus- citation of Adonis, 585. Departure of the Gnomes, oil. BOTANIC GARDEN. ECONOMY OF VEGETATION. CANTO II. .TTlND ?i07v the Goddess, with attention sweet, Tarns to the Gnomes that circle round her feet ; Orb within orb approach the marshall'd trains, And pigmy legions darken all the plains ; Thrice shout, with silver tones, the applauding bands, 5 Bow, ere she speaks, and clap their fairy hands. So the tall grass, when noon-tide zephyr blows, Bends its green blades in undulating rows ; Wide o'er the fields the billowy tumult spreads, And rustling harvests bow their golden heads. 10 I. " Gnomes ! your bright forms, presiding at her birth, Clung in fond squadrons round the new-born Earth ; When high in ether, with explosion dire, From the deep craters of his realms of fire, The whirling Sun this ponderous planet hurl'd, tS And gwe the astonish'd void another world. When from its vaporous air, condensed by cold, Descending torrents into oceans roll'd; From the deep craters. 1 14. The existence of solar volcanos is counte- nanced by their analogy to terrestrial and lunar voicanos, and by the spots on the sun's disk, which have been shown by Dr. Wilson to be excavations through its luminous surface, and may be supposed to be the cavities from whence the planets and comets were ejected by explosions. See additional notes, No. XV. on solar volcanos. When from its vaporous air. 1 17. If the nucleus of the earth was thrown em from the sun by an explosion, along with as large a quantity of surround- ing hot vapour as its attraction would occasion to accompany it, the ponder- ous semi-fluid nucleus would take a spherical form, from the attraction of 42 BOTANIC GARDEN. Part L And fierce attraction, with relentless force, Bent the reluctant wanderer to its course. 20 " Where vet the B ill, with diamond ete, adorn* The Spring'.-, fair forehead, and with golden horns ; Where yet the Lion climbs the ethereal plain, And shakes the Summer from his radiant mane; Where Libra lifts her airy arm, and weighs, 25 Poised in her silver balance, nights and davs ; With paler lustres where Aquarius burns, And showers the still snow from his hoarv urns ; Tour ardent troops pursued the flying sphere, Circling the starry girdle of the year ; 30 While sweet vicissitudes of day and clime Mark'd the new annals of enascent Time, II. " Ton trod, with printless step, Earth's tender globe, While Ocean wrap'd it in his azure robe; Beneath his waves her hardening strata spread, 35 Raised her Primeval Islands from his bed, its own parts, which would become an oblate spheriod from its diurnal revo« lurion. As the vapour cooled the water w< uld be precipitated, and an tccan \v<>uld surround the spherical nucleus with a superincumbent atmosphere. The nucleus of solar lava would likewise become harder as it became coi Ur. To understand how the strata of the eartli were afterwards formed tn m ihe sediments of this circumfluent ocean, the reader is referred to an ingenious Treatise on the Theory of the Earth, by Mr. Whitehursr, who was many years a watch-maker and engineer at Derby, but whose ingenuity, integrity, and humanity, were rarely equalled in any station of Life, While Ocean torap'd 1 34. See addkional notes, No. XVI. on the pro- duction of calcareous ear'h. Her hardening strata spread. 1 35. The granite, or moor-stone, orporphpry, constitute the oldest part of the gl be, since the lime-stone, shells, coral(oids a and other sea productions, rest upon them ; and upon these sea productions are found clay, iron, coal, sal", and silice us sand, or grit-stone. 1 hus there seem to be three divisions of the gl 'be distinctly marked: the first I su| pi se to have been the original nucleus of the earth, or lava projected from the sun j 2. over this lie the recrements of animal and vegetable natter pri duced in the ocean ; and, 3 over these the recrements of animal and \ matter produced upon the land. Besides these there are bodies which owe their origm to a combination of those ahead) mentioned, flu >r, alabaster; which seem to have derived their acids eriginall) turn the vegetable kingdom, and their earths bases from sea productions. See addi- tional lores, No. XVI on calcareous earth. Raise*! ber B-imeval Islands. I. 3<">. The nucleus of the earth, still covered with water, received perpetual increase by the immense quantities ut shell* Canto II. ECONOMY OF VEGETATION. 43 Stretch' J her wide lawns, and sunk her winding dells, And deck'd her shores with corals, pearls, and shells. " O'er those blest isles no ice-crown'd mountains tower'd, No lightnings darted, and no tempests lower'd; 40 S :>fc fell the vesper-drops, condensed below, Or bent in air the rain-refracted bow; Sweet breathed the zephyrs, just perceived and lost ; And brineless billows only kiss'd the coast; Round the bright zodiac danced the vernal hours, 45 And Peace, the Cherub, dwelt in mortal bowers ! u So voung Dioxe, nursed beneath the waves, And rock'd bv Nereids in their coral caves, Charm' J the blue sisterhood with playful wiles, Lisp'd her sweet tones, and tried her tender smiles, 50 Then, on her bervl throne, by Tritons borne, Bright rose the Goddess like the Star of morn ; and coralloids either annually produced and relinquished, or left after the dea'h of the animals These wuld gradually , b ; their different degrees of cohesion, be, some of them more and others less, removeable by the influence of solar tides, and gentle tropical breezes, which then must have probably expended from one pi>le to the other ; for it is supposed the moon was not vet produced, and that no storms, or unequal winds, had yet existence. Hence, then, the primeval islands bad their gradual origin, were raised but a few feet above the level of the sea, and were not exposed to the giea ox- sudden varia ions of heat and cold, as is so well explained in Mr. Whiteh,urst's Theory of the Earth, chap. xvi. Whence the paradise of the sacred writers, and the golden age of the profane ones, seems to have had a real existence. As there can be no rainbow when the heavens are covered with clouds, be- cause the sun-beams are then precluded from falling upon the rain-drops op- posite to the eye of the spectator, the rainbow is a mark of gentle or partial showers. Mr. VVhitehurst has endeavoured to show, that the priinii ive islands were only moistened by nocturnal dews, and not by sliowers, as occurs at rh.s day to the Delta of Kgypt; and is thence of opinion that the rainbow had no existence till after the production of mountains and continents As the salt of the sea has b?en gradually accumulating, being washed down into it from the recrements of animal and vegetable bodies, the sea must originally have been as fresh as river water; and as it is not yet satura ed with salt, must become annually more salme. See note on I. 119 of this Canto. So young Diane. 1. 47. There is an ancient gem representing Venus rising out of the ocean, supported by two Tritons. From the formality of the design, it would appear to be of great antiquity, before the introduction of line taste into the world. It is pr >bab!e that this beautiful allegory was originally an hieroglyphic pic lire (before the invention of letters) descriptive of the forma- tion of the earth from the ocean, which seems to have been an opinion of many of the most ancient philosophers. +4 BOTANIC GARDEN. Part I. When with soft fires the milky dawn he leads, And wakes to life and love the laughing meads ;— With rosy fingers, as uncuri'd they hung 55 Round her fair brow, her golden locks she wrung; O'er the smooth surge on silver sandals stood, And look'd enchantment on the dazzled flood. The bright drops rolling from her lifted arms, In slow meanders wander o'er her charms, 60 Seek round her snowv neck their lucid track, Pearl her white shoulders, g. m her ivory back, Round her fine waist and swelling bosom swim, And star with glittering brine each crystal limb. — The immortal form enamour'd Nature hail'd, 65 And Beauty blazed to heaven and earth, unveil'd. III. " Ton! who then, kindling after manv an age, Saw, with new fires, the first volcano rage, O'er smouldering heaps of livid sulphur swell At Earth's firm centre, and distend her shell, 70 The first volcano. 1 68. As the earth, before the existence of earthquakes, was nearly level, and the greatest part of it covered with sea; when the t.rst great tires began deep in the internal pans of it, those parts would become much expanded ; this expansion would be gradualh extended, as the heat in- creased, through the whole terraqueous globe of 7000 miles diameter ; ihe crust would thence, in many places, open into fissures, which, by admitting the sea to How in upon the fire, would produce not only a quantit) of steam beyond calculation, by its expansion, but would also, by its decomposition, produce inflammable air and viial air in quantities beyond conception, sulficient to elleet those violent explosions, the vestiges of which, all over the world, excite our admiration and our study. The difficulty of understanding bow subterraneous fires could exist without the presence of air, has disappeared. since Dr Priestley's discoveries of such great quantities of pure air. wh ch constitute all the acids, and, consequently, exist in all saline bodies, as sea-salt, nitre, lime-stone, and in all calciform ores, as manganese, calainy, ochre, and Other mineral substances. See an ingenious treatise on earthquakes, by Mr. Michel, in the Phil. Trans. In the first tremendous ignitions of the globe, as the continents were heaved up, the vallies, which now hold the sea, were formed by the earth subsiding into the cavities made by the rising mountains, as the s'tani which raised them condensed; which would thence not have an) caverns oJ great main benea li them, as some philosophers have imagined. 1 lie earthquakes of modem da)s are ot verj small extent indeed, compared to those ■■! ancient times, and are ingeniously compared, In M De Luc, to the operations of a mole-htjl, where, li- m a small cavity, are raised, f" m time i" iime, small quantities of lava, or pumice-stone. Monthly Review, June, 1790. Canto II. ECONOMY OF VEGETATION. 4.V Ssuv at each opening cleft the furnace glow, And seas rush headlong on the gulphs below.-— Gnomes ! how you shriek'd, when through the troubled air Roar'd the fierce din of elemental war; When rose the continents, and sunk the main, 75 And Earth's huge sphere, exploding, burst in twain.— Gnomes ! how you gazed, when from her wounded side,. W here now the South-Sea heaves its waste of tide, Rose on swift wheels the Moon's refulgent car, Cir ling the solar orb, a sister star, 80 Dimpled with vales, with shining hills emboss'd, And roll'd round earth her airless realms of frost. " Gnome? ! how you trembled with the dreadful force, When Earth, recoiling, stagger'd from her course; The Moon's refulgent car. 1. 79. See additional notes, No. XV. on solan volcanos. Her airless realms of frost. 1. 82 If the moon had no atmosphere at the time of its elevation from the earth, or if its atmosphere was afterwards stolen from it by the earth's attraction, the water on the moon would rise quickly into vapour, and the cold produced by a certain quantity of this eva- poration, would congeal the remainder of it. Hence it is not probable that the moon is at present inhabited, but, as it seems to have suffered, and to continue to sutfer much by volcanos, a sufficient quantity of air may, in pro- cess of time, be generated to produce an atmosphere, which may prevent its heat from so easily escaping, and its water from so easily evaporating, and thence become fit for -he production of vegetables and animals. That the moon possesses little or no atmosphere, is deduced from the undi- minished lustre of the stars, at the instant when they emerge from behind her disk. That the ocean of the moon is frozen, is confirmed from there being no appearance of lunar tides, which, if they existed, would cover the part of her disk nearest the earth. See note on Canto III. 1. 61. When Earth recoiling. 1. 84. On supposition that the moon was thrown fr m the earth by the explosion of water, or the generation of other vapours of greater power, the remaining part of the globe would recede from its obit in one direction as the moon receded in another, and that in proportion to the respective momentum of each, and would afterwards revolve round their com- mon centre of gravity. If the moon rose from any part of the earth except exactly at the line, or poles, the shock would tend to turn the axis of the earth out of its previous direction. And as a mass of matter rising from deep parts of the globe would have previously acquired less diurnal velocity than the earth's surface, from whence it rose, it would receive, during the time of its rising, additional velo- city from the earth's surface, and would, consequently, so much retard the motion of the earth round its axis. When the earth thus receded, the shock would overturn all its buddings and forests, and the water would rush, with inconceivable violence, over its sur- face, towards the new satellite, from two causes, both by its not at first acquis 46 BOTANIC GARDEN. Part I. When, as her Line in slower circles spun, 85 Aid her shock'd a\is nodded from the sun, With dreadful march the accumulated main Swept her vast wrecks of mountain, vale, and plain; And, whil • new tides th ■ ir shouting floods unite, And hail their Queen, fair regent of the night, 90 Chain'd to one centre, whirl'd the kindred spheres, And mark'd with lunar cycles solar years. IV. " Gnomes! yon then hade dissolving Sheila distil From the loose summits of each shitter'd hill, To each fine pore and dark interstice flow, 95 And fill with liquid chalk the mass below. Whence sparry forms in dusky cavern gleam ^ ith borrow'd light, and twice refract the beam ; While in white beds congealing rocks beneath Court the nice chissel, and desire to breathe. — 100 " Hence wearied Hercules in marble rears His languid limbs, and rests a thousand years ; ing the velocity with which the earth receded, and by the attraction of the, new moon, as it leaves the earth : on these accounts, at tirst there would be but one tide till the moon receded to a greater distance, and the earth nv ving round a common centre of gravity between them, the water on the side far- thest from the moon would acquire a centrifugal force, in respect to this com- mon centre, between itself and the moon. Dissolving Shells distil. 1. 93. The lime-stone rocks have had their origin from shells formed beneath the sea, the sof er strata gradually dissolving, and filling up the interstices of the harder ones ; afterwards, when these accumu- lations of shells were elevated above the warers, the upper strata became dis- solved by the actions of the air and dews, and tilled up the interstices beneath, producing solid rocks of different kinds, from the coarse lime-Stones to the finest marbles. When those lime-stones have been in such a situa'ion that the) could form perfect crystals) they are called spars, some of which possess a '1 uble refraction, as observed by Sir Isaac Newton When thes< are jumbled together, or mixed with some colouring impurities, it is termed marble, if its texture be equable and firm ; if its texture be coarse and porous, yet hard, it is called lime-stone ; if its texture be very loose and porous, "is termed chalk. In some rocks the shells remain almost unchanged, and only covered, or bedded, with lime-stone, which seems to have been dissolved, and t>unk down amongst them. In others the softer shells and bonea are dissolved, and onl) shark's teeth, or harder echini, have preserved their form, envel ped in the chalk, or lime-stone. In some marbles the solution has been ( and no vestiges of shell appear, as In the white kind, caded statuary b) the workmen. See additional notes, No XVI. Ht I 101. Alluding to the celebrated Hercules of Canto II. ECONOMY OF VEGETATION. 47 Still, as he leans, shall young Antinous please With careless grace, and unaffected ease ; O award, with loftier step, Apollo spring, 105 And launch the unerring arrow from the string ; In Beauty's bashful form, the veil unfurl'd, Ideal Venus win the gazing world. Hence on Roubiliac's tomb shall Fame sublime Wave her triumphant wings, and conquer Time; 110 Long with soft touch shall Damer's chissel charm, With grace delight us, and with beauty warm ; Foster's fine form shall hearts unborn engage, And Melbourn's smile enchant another age. V. " Gnomes! yon then taught transuding dews to pass 115 Through time-falPn woods, and root-inwove morass, Age after age ; and with filtration fine Dispart, from earths and sulphurs, the saline. 1. " Hence with diffusive Salt old Ocean steeps His emerald shallows, and his sapphire deeps. 120 Glvco resting after his labours; and to the easy attitude of Antinous; the lofty step of the Apollo of Belvidere ; and the retreating modesty of the Ve- nus de Medici. Many of the designs of Roubiliac, in Westminster Abbey, are uncommonly poencal ; the allegory of Time and Fame contending for the trophy of General Wade, which is here alluded to, is beautifully tcld ; the wings of Fame are still expanded, and her hair still floating in the air ; which not only shows that she has that moment arrived, but also that her force is not yet expended ; at the same time that the old figure of Time, with his dis- ordered wings, is rather leaning backwards, and yielding to her impulse, and must apparently, in another instant, be driven from his attack upon the trophy. Foster's Jineforvz. 1. 113. Alluding to the beautiful statues of Lady Eliza- beth Foster, and of Lady Melbourn, executed by the Hon. Mrs. Damer. Root-imiove morass. I. 116. The great mass of matter which rests upon the lime-stone strata of the earth, or upon the granite, where the lime-stone stra- tum has been removed by earthquakes, or covered by lava, has had its origin from the recrements of vegetables and of air-breathing animals, as the lime- stone had its origin from sea animals. The whole habitable world was origi- nally covered with woods, till mankind formed themselves into societies, and subdued them by fire and by steel. Hence woods, in uncultivated countries, have grown and fallen through many ages, whence morasses of immense ex- tent ; and from these, as the more soluble parts were washed away first, were produced sea-salt, nitre, iron, and variety of acids, which, combining with calcareous matter, were productive of many fossil bodies, as flint, sea-sand, selenke, with the precious stones, and perhaps the diamond. See additional notes. No. XVII. Hence, with diffusive Salt. 1. 119. Salts of various kinds are produced from Part I. I 48 BOTANIC GARDEN. Part L Oft in wide lakes, around their warmer brim, In hollow pyramids the crystals swim ; Or, fused by earth-born fires, in cubic blocks Shoot their white forms, and harden into rocks. " Thus, cavern'd round in Cracow's might}- mines, 125 With < i ' stal w;uls a gorgeous city shines ; Scoop'd in the brim- rock long streets extend Their hoary course, and glittering domes ascend ; Down the bright steeps, emerging into day, Impetuous fountains burst their headlong way, 130 O'er milk-white vales in ivorv channels spread, And wondering, seek their subterraneous bed. the recrements of animal and vegetable bod : es, such as phosphoric, ammo- niacal, marine salt, and others ; these are washed fr^m the earth by rains, and carried diwn our rivers into the sea ; they seem all here to decompose each other, except the marine salr, which has, theref ire, from the beginning of the habi'able world, been perpetually accumulating. There is a town in the immense salt-mines of Cracow, in Poland, with a market-place, a river, a church, and a famous s'atue (here supposed to be of Lot's wife), bv the rmist or dry appearance of which the subterranean inha- bitants are said to know when the weather is fair above ground. The galle- ries in these mines are so numerous and so intricate, that workmen have fre- quently lost their way, their lights having been burnt ou r , and have perished before they could be found. Essas, &c. par M. Macquart. And though the arches of these different stories of galleries are bolJlv executed, yet they ingerous, as they are held together, or supported, by large massesof timber of a foot square; and these vast timbers remain perfectly sound for many centuries, while all other pillars, whe her of brick, cement, or salt, soon dissolve, or moulder away. Ibid, Could the timbers over water-mill wheels or cellars be thus preserved, by occasionally soaking them with brine? These immense masses of rock-salt seem to have been produced by the evapo- ration of sea-water, in the early periods of the world, by subterranean tires. Dr Ilutton's Theory of the Earth. See also Theorie des Soura - par M Struve. Historie de Sciences de Lausanne, torn. ii. This idea of Dr. Hutton's is confirmed bv a fact mentioned in M Macquiirt's Essais sur Mmeralogie, who found a grea' quantity of fossil shells, principal!) and madre-pores, in the salt-m nes of VVialiczka. near Cracow. During the evaporation of the lakes of salt-water, as in artificial salt-works, the salt begins t.> crystallize near the edge, where the water is shallow. ing hollow inverted pyramids, which, when they become of a certain si/.e, subs m about one twent) -eighth to one thirtieth part of i ,.dt. Sec dt> See note on Ocymum, vol. ii. of this work. Canto II. ECONOMY OF VEGETATION. Form'd in pellucid salt, with chissel nice, The pale lamp glimmering through the sculptured ice, With wild reverted eyes fair Lotta stands, And spreads to Heaven, in vain, her glassy hands ; Cold dews condense upon her pearly breast, And the big tear rolls lu:id down her vest. Far gleaming o'er the town transparent fanes Rear their white towers, and wave their golden vanes; Long lines of lustres pour their trembling rays, And the bright vault returns the mingled blaze. 2. " Hence orient Nitre owes its sparkling birth, And with prismatic crystals gems the earth, Her.ce orient Nitre. I. 143 Nitre is found in Bengal naturally crystallized, and is swept by brooms from earths and stones, and thence called sweepings of nitre. It has lately been found, in large quantities, in a natural bason of calcareous earth at Molfetta, in Italy, both in thin stra-a between the calca- reous beds, and in efflorescences of various beautiful leafy and hairy forms. An account of this nitre-bed is given by Mr. Zimmerman, and abridged in Rozier*s Journal de Physique, Fevrier, 1790. This acid appears to be pro- duced in all situations where animal and vegetable matters are completely decomposed, and which are exposed to the action of the air, as on the walls of stables and slaughter-houses ; the cr) stals are prisms furrowed by longitudi- nal grooves. Dr Priestley discovered, that nitrous air or gas, which he obtained by dis- solving metals in nitrous acid, would combine rapidly with vital air, and produce with it a true nitrous acid, forming red clouds during the combina- tion ; the two airs occupy only the space before occupied by one of them, and, at the same time, heat is given out from the new combination. This diminution of the bulk of a mixture of nitrous gas and viral air, Dr. Priest- ley ingeniously used as a test of the purity of the latter ; a discovery of the greatest importance in the analysis of airs. Mr. Cavendish has since demonstrated, that two parts of vital air, or oxy- gene, and one part of phlogistic air, or azote, being Long exposed to electric shocKs, unite, and produce nitrous acid. Phil. Trans, vols. LXXV. and LXXVIII. Azote is one of the most abundant elements in nature, and, combined with calonque, or heat, it forms azotic gas, or phlogistic a r, and composes two thirds of the atmosphere ; and is one of the principal component pans of animal bodies, and, when united to vital air, or oxygene, produces the nitrous acid. Mr. Lavoisier found that 214 parts, by weight, of azote, and 434 parts of oxygene, produced 64 parts of nitrous gas ; ar.d, by the further addi- tion of 36 parts of oxygene, nitrous acid was produced Traite de Chimie. When two airs become united so as to produce an uneiastic liquid, much calo- rique, or heat, is, of necessity, expelled from the new combination, though, perhaps, nitrous acid, and oxygenated marine acid, admit more heat into their combinations than other acids. 50 BOTANIC GARDEN'. Part i. O'er tottering domes in filmv foliage crawls, 145 Or frosts with branching plumes the mouldering walls. As woos Azotic Gas the virgin Air, And veils in crimson clouds the yielding Fair; Indignant Fire the treacherous courtship flies, Waves his light wing, and mingles with the skies. 150 " So Beauty's Goddess, warm with new desire, Left, on her silver wheels, the God of Fire ; Her faithless charms to fiercer Mars resigned, Met with fond lips, with wanton arms intwined. — Indignant Vulcan eyed the parting Fair, 155 And watch'd, with jealous step, the guilty pair; O'er his broad neck a wirv net he flung, Quick as he strode, the tinkling meshes rung ; Fine as the spider's flimsy thread he wove The immortal toil to lime illicit love ; 160 Steel were the knots, and steel the twisted thong, Ring link'd in ring, indissolubly strong ; Oa viewless hooks, along the fretted roof, He hung, unseen, the inextricable woof. — — Quick start the springs, the webs pellucid spread, 165 And lock the embracing Lovers on their bed ; Fierce with loud taunts vindictive Vulcan springs, Tries all the bolts, and tightens all the strings, Shakes, with incessant shouts, the bright abodes. Claps his rude hands, and calls the festive Gods. — 170 — With spreading palms the alarmed Goddess tries To veil her beauties from celestial eves, Writhes her fair limbs, th.> slender ringlets strains, And bids her Loves untie the obdurate chains ; Soft swells her panting bosom, as she turns, 175 And her flush'd cheek with brighter blushes burns. Majestic grief the Queen of Heaven avows, And chaste Minerva hides her helmed brows ; Attendant Nymphs, with bashful eyes askance. Steal of intangled Mars a transient glance; 180 Surrounding Gods the circling nectar quaff, Ga/.e on the Fair, and envy as the} laugh. Canto II. ECONOMY OF VEGETATION. 51 3. " Htnce dusky Iron sleeps in dark abodes, And ferny foliage nestles in the nodes ; Tdl with wide lungs the panting bellows blow, 1SJ And waked by fire the glittering torrents flow ; — Quick whirls the wheel, the ponderous hammer falls, Loud anvils ring amid the trembling walls, Strokes follow strokes, the sparkling ingot shines, Flows the red slag, the lengthening bar refines ; 190 Cold waves, immersed, the glowing mass congeal, And turn to adamant the hissing Steel. Hence dusky Iron. 1. 183- The production of iron from the decomposition cf vegetable bodies, is perpetually presented ,o our v ew ; the waters oozing from all morasses are chalybeate, and deposit their ochre on being exposed to the air, the iron acquiring a caiciform state from its union with ox/gene, or vital air. When thin morasses lie on beds of gravel, the latter are generally stained by the nitration of some of the chalybeate water through them. This formation of iron from vegetable recrements is further evinced by the fern leaves, and other parts of vegetables, so frequently found in the centre of the knobs or nodules of some iron ores. In some of these nodules there is a nucleus of whiter iron-earth, surrounded by many concentric strata of darker and lighter iron-earth alternately. In one, which now lies before me, the nucleus is a prism of a triangular form, with blunted angles, and about half an inch high, and an inch and half broad ; on every side of this are concentric strata of similar iron-earth, alternately- browner and less brown ; each stratum is about a tenth of an inch in thick- ness, and there are ten of them in number. To what known cause can this exactly regular distribution of so many earthy strata of diiierent co- lours, surrounding the nucleus, be ascribed? I dont know that any mine- ralogists have attempted an explanation of this wonderful phenomenon. 1 suspect it is owing to the polarity of the central nucleus. If iron-filings be regularly laid on paper, by means of a small sieve, and a magnet be placed underneath, the tilings will dispose themselves in concentric curves, with vacant intervals between them. Now, it these iron-tilings are con- ceived to be suspended in a fluid, whose specific gravity is similar to their own, and a magnetic bar was introduced as an axis into this fluid, it is easy to foresee that the iron-filings would dispose themselves in.o concen- tric spheres, with intervals of the circumnatant flu.d between them, ex- actly as is seen in these nodules of iron-earth. As all the lavas consist of one fourth of iron, (Kirwan's Mineral ) and almost all other known bodies, whether of animal or vegetable origin, possess more or less of this property, may not the distribution of a great portion of the globe of the earth, into Straia of greater or less regularity, be owing to the polarity of the whole ? And turn to adamant. 1. 192. The Circumstances which render iron more valuable to mankind than any other metal, are, 1 Its property of being rendered hard to so great a degree, and thus constituting such excellent tools. It was the discovery of th.s property of iron, Mr. L. >cke thinks, iliat gave such pre-eminence to the European world over the American one. 2 Its power of being welded ; that is, when two pieces are made very hot, and applied together by hammering, they unite completely, unless any scale of iron intervenes; and, to prevent this it is usual for smiths to dip the very hot bar in sand, a little of which fuses into fluid glass with the scale, and 5* BOTANIC GARDEN. Part I. " Last Michel's hands, with tf)ii< li of potent charm, The polish'd rods with powers magnetic arm; With points directed to the polar stars, 195 In one long line extend the tempered bars; is squeezed out from between the uniting parts by the force of hammering. S. Irs power <>t" acquiring magne'.ism. It is, however, to be wished, that gold or silver were discovered in as great quantity as iron, since these metals, being indestruct bit- by expire to air, water, tire, or any comm. n acids, would supply wholesome vessels for cookery, so much to be desired, and so di.hculi to ob am, and would form the most light and durable coverings for houses, as well as indestructible i.re- grates, ovens, and boiling vessels. See additional notes, No XVIII. oh Steel. Last Michel's bands. 1. 193. The discovery of the magnet seems to have been in very early times; it is mentioned by Plato, Lucretius, Pliny, and Galen, and is said to have taken its name of magnes, from Magnesia, a sea- port of ancient Lybia. As even piece of iron which was made magnetical by the touch of a mag- net became itself a magnet, many attempts were made to improve these artificial magnets, bu _ without much success, till Servingdon Saver] , Lsq. made them of hardened steel bars, which were so powerful, that one of them, weighing three pounds averdupois, would lift another of the same weight. Phil. Trans. After this Dr. Knight made very successful experiments on this subject, ■which, though be kept his method secret, seems to have excited others to turn their atention to magnetism. At th s time the Rev. Mr. Michel in- vented an equally efficacious and more expeditious way of making strong ar- tificial magnets, which he published in the end of the year 1750, in which he explained his method of what he called " the double touch," and which, since Dr Knight's method has been known, appears to be somewhat diiicr- ent from it. This method of rendering bars of hardened steel magnetical, consists in holding vert cally two or more magnetic bars nearly parallel to each other, ■with their opposite poles verj near each other (bui nevertheless separated to a small distance), these are :o be slided over a line of bars, laid horizontally, a few times backward and Forward. See Michel on Magnetism, also a de- tailed account in Chambers' Dictionary. What Mr. Michel proposed by this method was, to include a werj small portion of the horizontal bars intended to be made magnetical, between the joint forces of two or more bars already magnetical, and, by sliding ihem, from end to end, every part of the line of bars became successively included, and thus bars, possessed of a verj small degree of magnetism to begin with, would, in a few times sliding backwards and forwards, make the other ones much more magneiical than themselves, which are then to be taken up and used to touch the former, which arc in succession to be laid down hori- zon' ally in a line. '1 lure is still a ^rea' field remains for future discoveries in magnetism, both in respec to experiment and theory ; the latter consists of vague conjectures, the more probable of which are, perhaps, those of Epinus, as the) assimilate ii to < lectricity. One conjecture 1 shall add, viz. that the polarity of magnetism may Ik >'. rotati i . mo ion If heat, electricity ami magnetism are ■opposed to be huids of difterent gravities, heat being the heaviest of them, Canto II. ECONOMY OF VEGETATION. Then thrice and thrice with steady eye he guides, And o'er the adhesive train the magnet slides ; The obedient Steel with living instinct moves, And veers for ever to the pole it loves. " Hail, adamantine Steel ! magnetic Lord! King of the prow, the plowshare, and the sword ! True to the pole, bv thee the pilot guides His steadv helm amid the struggling tides, Braves with broad sail the immeasurable sea, Cleaves the dark air, and asks no star but thee. — Bv thee the plowshare rends the matted plain, Inhumes in level rows the living grain ; Intrusive forests quit the cultured ground, And Ceres laughs with golden fillets crown'd. — . O'er restless realms when scowling Discord flings Her snakes, and loud the din of battle rings ; Expiring Strength, and vanquish'd Courage feel Thy arm resistless, adamantine Steel! 4. " Hence in fine streams diffusive Acids flow, Or wing'd with fire o'er Earth's fair bosom blow; electricity the next heavy, and magnetism the lightest, it is evident, that by the quick revolution of the earth, the heat will be accumulated most over the line, electricity next beneath this, and that the magnetism will be detruded to the poles and axis of the earth, like the atmospheres of common air and of inflammable gas, as explained in the note on Canto I. 1. 123. Electricity and heat will both of them displace magnetism, and this shows that they may gravitate on each other ; and hence, when too great a quantity of the electric fluid becomes accumulated at the poles by descending snows, or other unknown causes, it may have a tendency to rise towards the tropics by its centrifugal force, and produce the northern lights. See additional notes, No I. Diffusive Art -Is flow. 1 215. The production of marine acid from decompos- ing; vegetable and animal matters, with vi'al air, and of nitrous acid from azote and vital air, the former of which is unred to its basis by means of the exha- lations from vegetable and animal makers, constitute an analogy which in- duces us to beheve '"hat many other acids have either their bases, or are unit- ed to vital air by means of some part of decomposing vegetable and animal matters. The great quantities of flint-sand, whether formed in mountains or in the sea, would appear to derive its acid from the new world, as it is found above the strata of lime-stone and granite which constitute the old world, and, as the earthy basis of flint is probable calcareous, a great part of it seems to be produced by a conjunction of the new and old world. The recrements of M BOTANIC GARDEN. Part I. Transmute to glittering Flints her chalky lands, Or sink on Ocean's bed in count! ss Sands. II :nce Bilvery Selenite her crystal moulds, And soft Asbestus smooths his silky folds; 220 His cubic forms phosphoric Fluor prints, Or rays in spheres his amethystine tints. Soft cobweb clouds transparent Onyx spreads, And playful Agates weave their colour'd threads; Gay pictured Mochoes glow with landscape-dyes, 225 And changeful Opals roll their lucid eyes ; Blue lambent light around the S ipphire plays, Bright Rubies blush, and living Diamonds blaze. " Thus, for attractive earth, inconstant Jove, Mask'd in new shapes, forsook his realms above.— 230 air-breathing animals and vegetables probably afford the acid, and the shells of marine animals the earthy basis, while another part may have derived its calcareous part also from the decomposition of vegetable and animal bodies. The same mode of reasoning seems applicable to the siliceous stones under various names, as amethyst, onyx, agate, muchoe, opal, &.c. which do not seem to have undergone any process from volcanic Hies, and as these stones only differ from Hint by a greater or less admixture of argillaceous and calca- reous earns. The different proportions of which, in each kind of stone, may be seen in Mr Kirwan's valuable Elements of Mineralogy. See addi- tional notes, No. XIX. Living Diamonds blaze. 1 228. Sir Isaac Newton having observed the gnat power of refracting light, which the diamond possesses above all other crystallized or vitreous matter, conjectured that it was an inflammable body in some manner conge. ded. Insomuch that all the light is redected which falls on any of its inter or surfaces at a greater angle of incidents than 24{- degrees ; whereas an artificial gem of glass does not reflect an) light from its hinder surface, unless that surface is inclined in an angle of -11 degrees. Hence the diamond reflects half as much more light as a factitious gem in similar cir- cumstances ; to which mUSI beaddediisgre.it transparency, and the excellent polish it is capable of. The diamond had, nevertheless, been placed at the head of crystals or precious stones by the mineralogis-s, till Bergman ranged it of late in the combustible class of bodies, because, by the focus of Villette's burning mirror, it was evaporated by a heat not much greater than will melt silver, and gave out light. Air 11 epfner, however, thinks the dispersion of the diamond by this great heal should be called a phosphorescent evaporation of it, rather than a combustion; and from its other analogies of crystal* hardness, transparency, and place of its nativity, wishes again to replace it amongsi the precious stones. Observ. sur la Physique, | torn. xxxv. \>. lid. Sec new edition of the Translation of Cronstcdt, b) l)e Costa. Inconstant y t ,vc. I. 229. The purer air, or ether, in the ancient mvtho- represented by Jupiter, and the infen t air b) Juno; and the Conjunction of the:; deities was said to produce the vernal showers, and pro- Canto II. ECONOMY OF VEGETATION. $*■ First her sweet eyes his Eagle-form beguiles, And Hebe feeds him with ambrosial smiles ; Next the changed God a Cygnet's down assumes, And playful Leda smooths his glossy plumes ; Then glides a silver serpent, treacherous guest ! 23$ And fair Olympia folds him in her breast; Now lows a milk-white Bull on Afric's strand, And crops with dancing head the daisied land. — With rosy wreathes Europa's hand adorns His fringed forehead, and his pearly horns ; 240 Light on his back die sportive Damsel boimds, And pleased he moves along the flower}' grounds ; Bears with slow step his beauteous prize aloof, Dips in the lucid flood his ivory hoof; Then wets his velvet knees, and wading laves 24$ His silky sides amid the dimpling waves. While her fond train with beckoning hands deplore, Strain their blue eyes, and shriek along the shore ; Beneath her robe she draws her snowy feet, And, half-reclining on her ermine seat, 250 Round his raised neck her radiant arms she throws, And rests her fair cheek on his curled brows ; Her yellow tresses wave on wanton gales, And bent in air her azure mantle sails. — Onward he moves, applauding Cupids guide, 255: And skim on shooting wing the shining tide ; Emerging Tritons leave their coral caves, Sound their loud conchs, and smooth the circling waves, Surround the timorous Beauty, as she swims, And gaze enamour'd on her silver limbs. 26Q Now Europe's shadowy shores, with loud acclaim, Hail the fair fugitive, and shout her name ; create all things, as is further spoken of in Canto III. 1. 204. It is now di&« covered, that pure air, or oxygene, uniting with variety of bases, forms the various kinds of acids ; as the vitriolic acid from pure air and sulphur ; the nitrous acid from pure air and phlogistic air, or azote ; and carbonic acid (or fixed air), from pure air and charcoal. Some of these affinities were, perhaps, portrayed by the Magi of Egypt, who were probably learned in chemistry, in their hieroglyphic pictures before the invention of letters, by the loves of Jupiter with terrestrial ladies. And thus, physically as well as metaphysically, might be said, •' Jovis omnia plena." Part I. K j6 BOTANIC GARDEN. Part I. Soft echoes wari)le, wispcring forests nod, And conscious Nature owns the present God. Changed from the Bull the rapturous God assumes 26* Immortal youth, with glow celestial hlooms, With L-nient words her virgin fears disarms, And clasps the yielding Beauty in his arms ; Whence Kings and Heroes own illustrious hirth, Guards of" munkind, and demigods on earth. 270 VI. " Gnomes ! as vou pass'd beneath the labouring soil, The guards and guides of Nature's chemic toil, Ton saw, deep-sepulchred in dusky realms, Which Earth's rock-ribbed ponderous vault o'crwhelms, With self-born fires the mass fermenting glow, 275 And flame-wing' d sulphurs quit the earths below. 1. " Hence ductile Clays in wide expansion spread, Soft as the Cygnet's down, their snow-white bed ; With yielding flakes successive forms reveal, And change obedient to the whirling wheel. 280 First China's sons, with early art elate, Form'd the gay tea-pot, and the pictured plate j Saw with illumined brow and dazzled eyes In the red stove vitrescent colours rise ; Speck'd her tall beakers with enamel'd stars, 285 Her monster-josses, and gigantic jars ; Smear'd her huge dragons with metallic hues, With golden purples, and cobaltic blues ; With self -bum Jires . 1.275. After the accumulation of plains and moun- tains on The calcareous rocks, or granite, which had been previou by volcanic rires, a second set of volcanic fires were produced by the fermen- tation of this new mass, which, after the salts, or acids, and iron, had been washed away in part by elutriation, dissipated the sulphurous parts, which uric insoluble in water; win nee argillaceous and siliceous earths were hit in some place;,; in others, bitumen became sublimed to the upper pait ot the stratum, producing coals of various degrees of purity. Hence ductile Clays. 1.277. See additii N >. XX. b illumined bran. 1.283, No colour is distinguishable in the red- hot kiln but the red itself, till tlie workman introduces a small p wood, which, In producing a white flame, renders all the other colours visi- ble in a moment. With golden purple*. 1. 288. See additional notes, No, XXI Canto II. ECONOMY OF VEGETATION. S7 Bade on wide hills her porcelain castles glare, And glazed Pagodas tremble in the air. 290 " Etruria ! next beneath thy magic hands Glides the quick wheel, the plastic clay expands, Nerved with fine touch, thy fingers (as it turns) Mark the nice bounds of vases, ewers, and urns ; -Round each fair form in lines immortal trace 295 Uncopied Beauty, and ideal Grace. " Gnomes ! as you now dissect with hammers fine The granite-rock, the nodul'd flint calcine ; Grind with strong arm, the circling chertz betwixt, Your pure Ka-o-lins and Pe-tun-tses mixt ; 300 O'er each red saggar's burning cave preside, The keen-eyed Fire-Nymphs blazing by your side ; And pleased on Wedgwood ray your partial smile, A new Etruria decks Britannia's isle. — r- Charm'd by your touch, the flint liquescent pours 305 Through finer sieves, and falls in whiter showers ; Charm'd by your touch, the kneaded clay refines, The biscuit hardens, the enamel shines ; Each nicer mould a softer feature drinks, The bold Cameo speaks, the soft Intaglio thinks. 310 Etruria ! next. 1. 291. Etruria may, perhape, vie with China itself in the antiquity of its arts. The times of its greatest splendour were prior to the foundation of Rome, and the reign of one of its best princes, Janus, was the oldest epoch the Romans knew. The earliest historians speak of the Etruscans as being then of high antiquity, most probably a colony from Phoe- nicia, to which a Pelasgian colony acceded, and was united soon after Deuca- lion's flood. The peculiar character of their earthen vases consists in the admi- rable beauty, simplicity, and diversity of forms, which continue the best mo- dels of taste to the artists of the present times ; and in a species of non-vitre- ous encaustic painting, which was reckoned, even in the time of Pliny, among the lost arts of antiquity, but which has lately been recovered by the ingenuity and industry of Mr. Wedgwood. It is supposed that the principal manufac- tories were about Nola, at the foot of Vesuvius, for it is in that neighbour- hood that the greatest quantities of antique vases have been found; and it is said that the general taste of the inhabitants is apparently influenced by them, insomuch that strangers, coming to Naples, are commonly struck with the diversity and elegance even of the most ordinary vases for common uses. See D'Hancarville's preliminary discourses to the magniiicent collection of Etruscan vases, published by Sir William Hamilton. ft BOTANIC GARDEN. Part I- " To call the pearly drops from Pity\ Or stay Despair's disanimating sigh, Whether, Friend of Ait! the gem you mould Rich with new taste, with ancient virtue hold ; Form the poor fetter'd Slave, on hended knee, 31 JT From Britain's sons imploring to he flee ; Or with fair Hope the brightening scenes improve, And cheer the dreary wastes at Sydney-Cove ; Or bid Mortality rejoice and mourn O'er the fine forms on Portland's mystic urn. — 320 '* Here, by fall'n columns and disjoin'd arcades, On mouldering stones, beneath deciduous shades, Sits Humankind in hieroglyphic state, Serious, and pondering on their changeful fate : While with inverted torch, and swimming eyes, 325 Sinks the fair shade of Mortal life, and dies. There the pale Ghost through Death's wide portal bends His timid feet, the dusky steep descends ; With smiles assuasive Love Divi/w invites, Guides on broad wing, with torch uplifted lights ; 330 Immortal Life, her hand extending, courts The lingering form, his tottering step supports ; Leads on to Pluto's realms the dreary wav, And gives him trembling to Elvsian day. Beneath, in sacred robes the Priestess dress'd, 335 The coif close-hooded, and the fluttering vest, With pointing finger guides the initiate youth, Unweaves the many-colour'd veil of Truth, Drives the profane from Mystery's bolted door, And Silence guards the Eleusinian lore. — 340 Form the poor fetter" d Slave. I. 315. Alluding to two cameos of Mr. Wedgwood's manufacture; one of a slave in chains, of which he distributed many hundreds, to excite the humane to attend to, and to assist in the aboli- tion of the detestable traffic in human creatures; and the other a cameo of Hope attended by Peace, and Art, and Labour; which was nude ot clay from Botany-Hay ; to which place he sent many of them, to show the inha- bitants what their materials would do, and to encourage their industry. A print of this latter medallion is prefixed to Mi. StOckdale*B edition of Philips' Expedition to Botany-Bay, with some verses which are inserted at the end of the additional notes. Portland'* vijstic urn. 1. 320. Sec additional notes, No. XXII. «ia? /rem CtyBt.IVUU,/,; } Canto II. ECONOMY OF VEGETATION. 59 " Whether, O Friend of Art ! your gems derive Fine forms from Greece, and fabled Gods revive ; Or bid from modern life the Portrait breathe, And bind round Honour's brow the laurel wreath ; Buovant shall sail, with Fame's historic page, 345 Each fair medallion o'er the wrecks of age ; Nor Time shall mar ; nor Steel, nor Fire, nor Rust Touch the hard polish of the immortal bust. 2. " Hence sable Coal his massy couch extends, And stars of gold the sparkling Pyrite blends ; 350 Hence dull-eyed Naphtha pours his pitchy streams, And Jet uncolour'd drinks the solar beams, Bright Amber shines on his electric throne, And adds ethereal lustres to his own. —Led by the phosphor-light, with daring tread 3-55 Immortal Franklin sought the fiery bed ; Where, nursed in night, incumbent Tempest shrouds His embryon Thunders in circumfluent clouds, Besieged with iron points their airy cell, And pierced the monsters slumbering in the shell. 360 " So, borne on sounding pinions to the West, When Tyrant-Power had built his eagle nest ; Fine forms from Greece. 1. 342- In real stones, or in paste or soft coloured glass, many pieces of exquisite workmanship were produced by the ancients. Basso-relievos of various sizes were made in coarse brown earth of one colour ; but of the improved kind of two or more colours, and of a true por- celain texture, none were made by the ancients, nor attempted I believe by the moderns, before those of Mr. Wedgwood's manufactory. Hence sable Coal. 1. 349. See additional notes, No. XXIII. on coal. Bright Amber shines. 1. 353. Coal has probably all been sublimed more or less from the clay, with which it was at first formed in decomposing mo- rasses ; the petroleum seems to have been separated, and condensed again in superior strata, and a still finer kind of oil, as naphtha, has probably had the same origin. Some of these liquid oils have again lost their more volatile parts, and become cannel-coal, asphaltum, jet, and amber, according to the purity of the original fossil oil. Dr. Priestley has shown, that essential oils, long exposed to the atmosphere, absorb both the vital and phlogistic part of it ; whence, it is probable, their becoming solid may in great measure depend, as well as by the exhalation of their more volatile parts. On distillation with volatile alcali all these fossil oils are shown to contain the acid of amber, which evinces the identity of their origin. If a piece of amber be rubbed, it attracts straws and hairs; whence the discovery of electricity, and whence its name, from electron, the Greek word for amber. Immortal Franilin. 1. 356. See note on Canto 1. 1. 383. t30 BOTANIC GARDEN. Part I. While bom hifl eyry shriek'd the famish'd brood, Clench'd their Bharp claws, and champ' d their beaks for blood, Immortal Franklin watch'd the callow crew, 365 And stabb'd the struggling Vampires ere thev flew. —The patriot-flame with quick contagion ran, Hill lighted hill, and man electrised man ; Her heroes slain, awhile Columbia mourn'd, And, crown'd with laurels, Liberty rcturn'd. 370 " The Warrior, Liberty, with bending sails, Helm'd his bold course to fair Hiberxia's vales; — . Firm as he steps along the shouting lands, Lo! Truth and Virtue range their radiant bands ; Sad Superstition wails her empire torn, 375 Art plies his oar, and Commerce pours her horn. " Long had the Giant-form, on Gallia's plains Inglorious slept, unconscious of his chains ; Round his large limbs were wound a thousand strings Bv the weak hands of Confessors and Kings; 380 O'er his closed eyes a triple veil was bound, And steely rivets lock'd him to the ground; While stem Bastile with iron cage inthralls His folded limbs, and hems in marble walls, — Touch'd by the patriot-flame, he rent, amazed, 385 The flimsy bonds, and round and round him gazed; Starts up from earth, above the admiring throng Lifts his Colossal form, and towers along; High o'er his foes his hundred arms he rears, Plowshares his swords, and pruning-books his spears ; 390 While stern Bastile. I. 383. " We descended with great difficulty into the dungeons, which were made too low tor our standing upright; and wen- so dark, that we were obliged at noon-day to visit them b) the light of ■ can- dle. We saw the hooks of those chains by which the prisoners \\ ere fastened bj their necks to the walls of their cells; many ot* which, being below the level of the water, were in a constant state of humidity, from which issued vapour, which more than once extinguished the candles. Since k ion oi tin building, man) subterraneous cells have been disco- vend under a piece of ground, which seemed onl) a bank of Bolid earth Ik i re the horrid secrets of this prison-house were disclosed. Some skclc- tons were found in these recesses, with irons still fastened to their decayed Letters horn Trance, by li. M. Williams, p. 24. Canto II. ECONOMY OF VEGETATION. Gi Calls to the Good and Brave with voice, that rolls Like heaven's own thunder round the echoing poles ; Gives to the winds his banner broad unfurl'd, And gathers in its shade the living world. VII. " Gnomes! you then taught volcanic airs to force 395 Through bubbling Lavas their resistless course, O'er the broad walls of rifted Granite climb, And pierce the rent roof of incumbent Lime ; And pierce the rent roof 1. 398. The granite rocks and the lime-stone rocks have been cracked to very great depths at the time they were raised up by sub'erranean tires: in these cracks are found most of the metallic ores, except iron, and perhaps manganese ; the former of which is generally found in horizontal strata, and the latter generally near the surface of the earth. Philosophers possessing so convenient a test for the discovery of iron by the magnet, have long since found it in all vegetable and animal matters ; and of late Mr. Scheele has discovered the existence of manganese in vege- table ashes. Scheele, 56 mem. Stock. 1774. Kirwan. Min. 353. Which accounts for the production of it near the surface of the earth, and thence for its calciform appearance, or union with vital air. Bergman has likewise shown, that the lime-stones which become bluish, or dark coloured, when calcined, possess a mixture of manganese, and are thence preferable, as a cement, to other kinds of lime. 2 Bergman, 229. Which impregnation with manga- nese has probably been received from the decomposition of superincumbent vegetable matters. These cracks, or perpendicular caverns, in the granite or lime-stone, pass to unknown depths ; and it is up these channels that I have endeavoured to show, that the steam rises, which becomes afterwards condensed, and pro- duces the warm springs of this island, and other parts of the world. (See note on Fucus, vol. ii). And up these cracks I suppose certain vapours arise, which either alone, or by meeting with something descending into them from above, have produced most of the metals, and several of the materials in which they are bedded. Thus the ponderous earth, Barytes, of Derby- shire, is found in these cracks, and is stratified frequently with lead-ore, and frequently surrounds it. This ponderous earth has been found by Dr. Hoepfner in a granite in Switzerland, and may have thus been sublimed from immense depths by great heat, and have obtained its carbonic or vitri- olic acid from above. Annales de Chimie. There is also reason to conclude, that something from above is necessary to the formation of many of the metals. At Hawkstone, in Shropshire, the seat of Sir Richard Hill, there is an elevated rock of siliceous sand, which is coloured green with copper in many places high in the air ; and I have in my possession a specimen of lead formed in the cavity of an iron nodule, and another of lead amid spar from a crack of a coal-stratum ; all which countenance the modern production of those metals from descending materials. To which should be added, that the highest mountains of granite, which have, therefore, probably never been covered with marine productions, on account of their early elevation, nor with vegetable or animal matters, on account of their great coldness, contain )io metallic ores, whilst the lower ones contain copper and tin in their cracks or veins, both in Saxony, Silesia, and Cornwall. Kirwan's Mineral, p. 374. The transmutation of one metal into another, though hitherto undisco- 02 BOTANIC GARDEN. Part I. Round sparry caves metallic lustres fling, And bear Phlogiston on their tepid wing. 400 u Hence glow, refulgent Tin! thy crystal grains, And tawny Copper shoots her azure veins; Zinc lines his fretted vault widi sable ore, And dull Galena tessellates the floor, On vermil beds in Idria's might}' caves 40f The living Silver rolls its ponderous waves; With gav refractions bright Platina shines, And studs with squander'd stars his dusky mines; Long threads of netted gold, and silvery darts, Inlay the Lazuli, and pierce the Quartz ; — 410 — Whence roof 'd with silver beam'd Peru, of old, And hapless Mexico was paved with gold. " Heavens! on my sight what sanguine colours blaze! Spain's deathless shame! the crimes of modern days! When Avarice, shrouded in Religion's robe, 415 Sail'd to the West, and slaughter'd half the globe ; While Superstition, stalking by his side, Mock'd the loud groan, and lap'd the bloody tide ; For sacred truths announced her frenzied dreams, And tum'd to night the sun's meridian beams. — 420 Hear, oh Britannia! potent Queen of isles, On whom fair Art, and meek Religion smiles, Now Afric's coasts thy craftier sons invade, And Theft and Murder take the garb of Trade ! — The Slave, in chains, on supplicating knee, 425 Spreads his wide arms, and lifts his eyes to thee ; vered by the alchymists, does not appear impossible ; such tninsmutatioiu have been supposed to exist in nature ; thus lapis calaminaris may have been produced from the destruction of lead-ore, as it is generally found on the top of the veins of lead, where it has been calcined, or united with air, and because masses of lead-ore are often found entirely enclosed in it. So silvei i:. found mixed in almost all lead-ores, and sometimes in separate filaments within the cavities of lead-ore, as I am informed by Mr. Michel, and i», thence probably a partial transmutation of the kail to silver; the rapid piv- grej "i modern chemistry having shown the analogy between metallic cnl cca and acids, may lead to the power of transmuting their l. mud) io be wished Canto II. ECONOMY OF VEGETATION. 63 With hunger pale, with wounds and toil oppress'd, * Are we not Brethren ? sorrow choaks the rest ; — Air ! bear to heaven upon thy azure flood Their innocent cries I— 'Earth ! cover not their blood ! 430 VIII. " When Heaven's dread justice smites in crimes o'ergrown The blood-nursed Tyrant on his purple throne, Gnomes', your bold forms unnumber'd arms outstretch, And urge the vengeance o'er the guilty wretch. — Thus when Cambyses led his barbarous hosts 435 From Persia's rocks to Egypt's trembling coasts, Defiled each hallowed fane, and sacred wood, And, drunk with fury, swell'd the Nile with blood j Waved his proud banner o'er the Theban states, And pour'd destruction through her hundred gates; 440 In dread divisions march'd the marshal'd bands, And swarming armies blacken'd all the lands, By Memphis these to Ethiop's sultry plains, And those to Hammon's sand-encircled fanes.— Slow as they pass'd the indignant temples frown'd, 445 Low curses muttering from the vaulted ground ; Long aisles of Cypress waved their deepen'd glooms, And quivering spectres grinn'd amid the tombs j Prophetic whispers breathed from Sphinx's tongue, And Memnon's lyre with hollow murmurs rung ; 450 Burst from each pyramid expiring groans, And darker shadows stretch'd their lengthen'd cones. Thus when Cambyses. 1. 435. Cambyses marched one army from Thebes, after having overturned the temples, ravaged the country, and deluged it with blood, to subdue Ethiopia: tnis army almost perished by famine, inso- much, that they repeatedly slew every tenth man to supply the remainder •with food. He sent another army to plunder the temple of Jupiter Amraon, which perished, overwhelmed with sand. Expiring groans. 1. 451. Mr. Savery, or Mr. Volney, in his travels through Egypt, has given a curious description of one of the pyramids, with the operose method of closing them, and immuring the body (as they supposed) for six thousand years; and has endeavoured from thence to show, that when a monarch died, several of his favourite courtiers were enclosed alive with che mummy in these great masses of stone-work, and had food and water conveyed to them, as long as they lived, proper apertures being left for this purpose, and for the admission of air, and for the exclusion of any thing Offensive. Part I. L m BOTANIC GARDEN'. Part 1, Day utter day their deathful rout they steer, Lust in the van, and Rapine in the rear. u Gnomes/ as they march'd, you hid the gather'd fruits, The bladed grass, sweet grains, and mealy roots ; 456 Scared the tired quails, that journey'd o T er their heads, Retain'd the locusts in their earthy beds ; Bade on vour sands no night-born dews distil, Stav'd with vindictive hands the scanty rill. — i 460 Loud o'er the camp the fiend of famine shrieks, Ctlls all her brood, and champs her hundred beaks ; O'er ten square leagues her pennons broad expand, And twilight swims upon the shuddering sand ; Perch'd on her crest the Griffin Discord clings, 465 And Giant Murder rides between her wings ; Blood from each clotted hair, and horny quill, And showers of tears in blended streams distil ; High poised in air her spiry neck she bends, Rolls her keen eve, her dragon claws extends, 470 Darts from above, and tears at each fell swoop With iron fangs the decimated troop. " Now o'er their heads the whizzing whirlwinds breathe, And the live desert pants and heaves beneath j Tinged by the crimson sun, vast columns rise 475 Of eddying sands, and war amid the skies^ In red arcades the billowv plain surround, And whirling turrets stalk along the ground. And whirling turrets. 1. 478. " At one o'clock we alighted among some acacia trees, at Waadi el Halboub, having gone twenty-one miles. W e W at here at once surprised and terrified by a sight surely one of the most magni- ficent in the world. In that vast expanse of desert, from VV. to N. W. of us, we saw a number of prodigious pillars of sand, at different distances, at times moving with great celerity, at others stalking on with a majestic slow- ness; at intervals we thought they were coming in a very few minutes to overwhelm us; and small quantities of sand did actually more than once reach us. Again they would retreat so as to be almost out of sight, their tops reaching to the very clouds. There the tops often separated from the bodies; and these, once disjoined, dispersed in the air, and did not appear more. Sometimes thej were broken in the middle, as if struck with large cannon shot. About noon they began to advance with considerable swiftness upon ns, the wind being very strong ar north. Eleven of them ranged along side of us about the distance of three miles. The greatest diameter of the largest Canto II. ECONOMY OF VEGETATION. 65 »— Long ranks in vain their shining blades extend. To Demon-Gods their knees unhallow'd bend, 480 Wheel in wide circle, form in hollow square, And now they front, and now they fly the war, Pierce the deaf tempest with lamenting cries, Press their parch'd lips, and close their blood-shot eyes. — Gnomes I o'er the waste you led vour myriad powers, 485 Climb'd on the whirls, and aim'd the flinty showers! — Onward resistless rolls the infuriate surge, Clouds follow clouds, and mountains mountains urge ; Wave over wave the driving desert swims, Bursts o'er their heads, inhumes their struggling limbs; 490 Man mounts on man, on camels camels rush, Hosts march o'er hosts, and nations nations crush,— Wheeling in air the winged islands fall, And one great earthy ocean covers all ! — Then ceased the storm, — which I can give no name, though surely one ingredient in it was fear, with a considerable deal of wonder and astonishment. It was in vain to think of flying ; the swiftest horse, or fastest sailing ship, could be of no use to carry iis out of this danger ; and the full persuasion of this rivetted me as if to the spot where I stood. " The same appearance of moving pillars of sand presented themselves to us this day in form and disposition like those we had seen at Waadi el Hal- boub, only they seemed to be more in number and less in size. They came several times in a direction close upon us; that is, I believe, within less than two miles. They began immediately after sun-rise like a thick wood, and almost darkened the sun. His rays shining through them for near an hour, gave them an appearance of pillars of fire. Our people now became despe- rate; the Greeks shrieked out, and said it was the day of judgment : Ismae! pronounced it to be hell; and the Turcorories, that the world was on fire." Bruce's Travels, vol. iv. p. 553 — 555. From this account it would appear, that the eddies of wind were owing to the long range of broken rocks, which bounded one side of the sandy desert, and bent the currents of air, which struck against their sides; and were thus like the eddies in a stream of water which falls against oblique obstacles. This explanation is probably the true one, as these whirlwinds were not at- tended with rain or lightning like the tornadoes of the West-Indies. 66 BOTANIC GARDEN. Part I. Who glide unseen, on printless slippers Ixjrnr*, IS . ith ', n .'. ] grass, and nodding corn; O l.n your tiny limbs, when noon-tide warms, V. ; i re shado vy cowslips stretch their golden arms,— S i ma] k'd on orreries in lucid signs, 505 Su 1 ! inrith bright points the mimi-j zodiac shines ; B rn< on fine wires amid the pictured skies With ivory orbs the planets set and rise ; Round the dwarf earth the pearly moon is roll'd, And the sun twinkling whirls his rays of gold. — 510 Call -.our bright m> riads, march your mailed hosts, With spears and helmets glittering round the coasts. Thick as the hairs, which rear the Lion's mane, Or fringe the Boar, that bays the hunter-train; Watch, where proud Surges break their treacherous mounds, And swetp resistless oYr the cultured grounds ; 516 Such as en \hile, impelled o'er Belgia's plain, Roll'd her rich ruins to the insatiate Main; With piles and piers the ruffian Waves engage, And bid indignant Ocean stay his rage. 52© " Where, girt with clouds, the rifted Mountain yawns, And chills with length of shade the gelid lawns, Climb the rude steeps, the granite cliffs surround, Pierce with steel points, with wooden wedges wound ; Somark'd on orreries. 1. 505. The first orrery was constructed by a Mi Rowley, a mathematician born at Lichfield, and so named from his patron, the Earl of Orrery. Johnson's Dictionary. The granite cliffs. 1 523. On long exposure to air, the granites or porpho- ries of this country exhibit a ferruginous crust ; the iron being calcined by the air, first becomes visible, and is then washed away from the external surface, which becomes while or grey,' and thus, in time, seems to decompose. The marbles seem to decompose by losing their carbonic acid, as the outside, which has been ly the volcanic steams !•• r's ["ravel through Italy, p. 166. See additional notes, No. XXIV. toound. 1 524. It is usual, in separating huge mill-stones from the adiceoue sand-rocks in some pans of Derbyshire, to bore her., oota] Canto II. ECONOMY OF VEGETATION. 67 Break into clays the soft volcanic slags, 525 Or melt with acid airs the marble crags ; Crown the green summits with adventurous flocks, And charm ivith novel flowers the wondering Rocks. — Bo tvhen proud Rome the Afric Warrior braved, And high on Alps his crimson banner waved ; 530 While Rocks on Rocks th-ir beeding brows oppose With piny forests, and unfathem'd snows ; Onward he march'jd, to Latium's velvet ground, With fires and acids burst the obdurate bound, Wide o'er the weeping Vales destruction hurFd, S3S And shook the rising empire of the world. X. " Go gentle Gnomes ! resume your vernal toil, Seek my chill tribes, which sleep beneath the soil ; On grey-moss banks, green meads, or furrow'd lands, Spread the dark mould, white lime, and crumbling sands ; Each bursting bud with healthier juices feed, 541 Emerging scion, or awaken'd seed. So, in descending streams, the silver Chyle Streaks with white clouds the golden floods of Bile ; Through each nice valve the mingling currents glide, 545 Join their fine rills, and swell the sanguine tide ; Each countless cell, and viewless fibre seek, Nerve the strong arm, and tinge the blushing cheek. " Oh, watch, where bosom'd in the teeming earth, Green swells the germ, impatient for its birth; 550 holes under them in a circle, and fill these with pegs made of dry wood, which gradually swell, by the moisture of the earth, and, in a day or two, lift up the mill-stone without breaking it. With fires and acids. 1. 534. Hannibal was said to erode-his way over the Alps by fire and vinegar. The latter is supposed to allude to the vinegar and water which was the beverage of his army. In respect to the former it is not improbable, but where wood was to be had in great abundance, that fires made round lime-stone precipices would calcine them to a considerable depth; the night-dews, or mountain-mists would penetrate these calcined parts, and pulverize them by the force of the steam which the generated heat would pro- duce, the winds would disperse this lime-powder, and thus, by repeated fires, a precipice of lime-stone might be destroyed, and a passage opened. It should be added, that according to Ferber's observations, these Alps consist of lime- stone. Letters from Italy. 68 BOTANIC GARDEN. Part I. Guard from rapacious worms its tender shoots, And drive the mining beetle from its roots ; With ceaseless efforts rend the obdurate clay, And give my vegetable babes to day ! — Thus when an Angel-form, in light array'd, 555 Like Howard pierced the prison's noisome shade; Where, chain'd to earth, with eyes to heaven upturn'd, The kneeling Saint in holy anguish mourn'd ; — Ray'd from his lucid vest, and halo'd brow, Qe'r the dark roof celestial lustres glow, 560 * Peter, arise!' with cheering voice he calls, And sounds seraphic echo round the walls ; Locks, bolts, and chains his potent touch obey, And pleased he leads the exulting Sage to day. XL " You! whose fine fingers fill the organic cells 565 With virgin earth, of woods, and bones, and shells ; JMould widi retractile glue their spongy beds, And stretch and strengthen all their fibre threads. — Late when the mass obeys its changeful doom, And sinks to earth, its cradle and its tomb, 5/0 Gnomes! with nice eye the slow solution watch, With fostering hand the parting atoms catch, Join in new forms, combine with life and sense, And guide and guard the transmigrating Ens. Mould with retractile glue. 1. 567. The constituent parts of animal fibrer arc believed to be earth and gluten. These do not separate except by long putrefaction or by fire. The earth then effervesces with acids, and can only be converted into glass by the greatest force of fire. The gluten has con- tinued united with the earth of the bones above 2000 years in Egyptian mum- mies ; but, by long exposure to air or moisture, it dissolves, and leaves only the earth. Hence, bones long buried, when exposed to the air, absorb mois- ture, and crumble into powder. Phil. Trans. No. 475. The retractibility or elasticity of the animal fibre depends on the gluten ; and of these fibres arc composed the membranes, muscles, and bones. Haller. Phvsiol. torn. i. p. 2. For the chemical decomposition of animal and vegetable bodies, see the ingenious work of Lavoisier, Traite de Chimie, torn. i. p. 132, who resolves all their component parts into oxygene, hydrogene, carbone, and azote; the three former of which belong principally to vegetable, and the last to animal matter. The transmigrating Ens. 1.574. The perpetual circulation of matter, in the growth and dis;,oluiion of vegetable and animal bodies, seems to have given Pythagoras his idea ol 01 transmigration of spirit^ Canto II. ECONOMY OF VEGETATION. 69 " So when on Lebanon's sequester'd hight 575. The fair Adoxis left the realms of light, Bow'd his bright locks, and, fated from his birth To change eternal, mingled with the earth ; — With darker horror shook the conscious wood, Groan'd the sad gales, and rivers blush'd with blood ; 580 On cypress boughs the Loves their quivers hung, Their arrows scatter'd, and their bows unstrung ; And Beauty's Goddess, bending o'er his bier, Breathed the soft sigh, and pour'd the tender tear. — which was afterwards dressed out, or ridiculed, in a variety of amusing fables. Other philosophers have supposed, that there are two different materials or essences, which fill the universe. One of these, which has the power of commencing or producing motion, is called spirit ; the other, which has the power of receiving and of communicating motion, but not of beginning it, is called matter. The former of these is supposed to be diffused through all space, filling up the interstices of the suns and planets, and constituting the gravitations of the sidereal bodies, the attractions of chemistry, with the spirit of vegetation, and of animation. The latter occupies comparatively but small space, constituting the solid parts of the sun and planets, and their at- mospheres. Hence these philosophers have supposed, that both matter and spirit are equally immortal and unperishable ; and that, on the dissolution of vegetable or animal organization, the matter returns to the general mass of matter, and the spirit to the general mass of spirit, to enter again into new combinations, according to the original idea of Pythagoras. The small apparent quantity of matter that exists in the universe, compar- ed to that of spirit, and the short time in which the recrements of animal or vegetable bodies become again vivified in the forms of vegetable mucor or microscopic insects, seems to have given rise to another curious fable of anti- quity ; that Jupiter threw down a large handful of souls upon the earth, and left them to scramble for the few bodies which were to be had. Adonis. 1. 576. The very ancient story of the beautiful Adonis passing one half of the year with Venus, and the other with Proserpine, alternately, has had variety of interpretations. Some have supposed that it allegorized the summer and winter solstice ; but this seems too obvious a fact to have needed an hierogl)phic emblem. Others have believed it to represent the corn, which was supposed to sleep in the earth during the winter months, and to rise out of it in summer. This does not accord with the climate of Egypt, where the harvest soon follows the seed-time. It seems more probably to have been a story explaining some hieroglyphic figures representing the decomposition and resuscitation of animal matter; a sublime and interesting subject, and which seems to have given origin to the doctrine of transmigration, which had probably its birth also from the hieroglyphic treasures of Egypt. It is remarkable that the cypress groves, in the ancient Greek writers, as in Theocritus, were dedicated to Venus, and afterwards became funeral emblems. Which was probably occasioned by the Cypress being an accompaniment of Venus in the annual processions, in which she was supposed to lament over the funeral of Adonis ; a ceremony which obtained over all the eastern world from great antiquity, and is sup- posed to be referred to by Ezekiel, who accuses the idolatrous woman of weeping for Thammus. TO BOTANIC GARDEN. Paet I. Admiring Proserpine through dusky glades 58J Led the fair phantom to Elysian shaded, Clad with now form, with finer sense combined, And lit with purer flame the ethereal mind. — Erewhfle, emerging from infernal night, The bright Assurgent rises into light, 590 Leaves the drear chambers of the insatiate tomb, And shines and charms with renovated bloom. — Wliile wondering Loves the bursting grave surround, And edge with meeting wings the yawning ground, Stretch their fair necks, and leaning o'er the brink, 595 View the pale regions of the dead, and shrink ; Long with broad eyes ecstatic Beauty stands, Heaves her white bosom, spreads her waxen hands ; Then with loud shriek the panting Youth alarms, * My Life ! my Love !' and springs into his arms." 600 The Goddess ceased, — the delegated throng O'er the wide plains delighted rush along ; In duskv squadrons, and in shining groups, Hosts follow hosts, and troops succeed to troops ; Scarce bears the bending grass the moving freight, 605 And nodding florets bow beneath their weight. So when light clouds on airy pinions sail, Flit the soft shadows o'er the waving vale ; Shade follows shade, as laughing Zephyrs drive, And all die chequer'd landscape seems alive. 610 Zephyrs drive. I. 609. These lines were originally written thus, Shade follows shade, by laughing Zephjrs drove, And all the chequer'd landscape seems ro move; but were altered on account of the supposed false grammar in using the word drove for driven, according to the opinion of Dr. Lowth : at the same time it may be observed, 1. That iliis is, in many cases, only an ellipsis of the letter n at the end of the word, as froze for frozen, wove for woven, spoke for spo- ken, and that then the participle accidentally becomes similar to the past tense : 2. That the language seem s gradually tending to omit the letter n in otha kind ol words, for the sake of euphony ; as housen is become houses; eynej eyes; thine, thy, Ike. and, in common conversation, the words I org Frequently used for forgotten, spoken, froien, ridden ... It tli it an) confusion would follow the indiscriminate ■,.inH.- word i'oi the past tense and the participle passive, since the . 'i tin preceding noun or pronoun, al them: and, lastly, rhime-noetry must lose the use of many elegant words cense- THE ECONOMY OF VEGETATION, CANTO III, Part L M ARGUMENT OF THE THIRD CANTO. Address to the Nymphs. I. Steam rises from the ocean, floats in clouds, descends in rain and dew, or is condensed on hills, produces springs and rivers, and returns to the sea. So the blood circulates through the body and returns to the heart, 11. II. 1. Tides, 57. 2 Echinus, naucilus, pinna, cancer. Grotto of a mermaid, 65. 3. Oil stills the waves. Coral rocks. Ship-worm, or Teredo. Maelstrome, a whirlpool on the coast of Norway, 85. Ill Rivers from beneath the snows on the Alps The' Tiber, 103 IV. Overflowing of the Nile from African Monsoons, 129. V. 1. Giesar, a boiling fountain in Iceland, destroyed by inundation, and consequent earthquake, 145. 2- Warm medicinal springs. Buxton. Duke and Duchess of Devonshire, 157. VI. Combination of vital air and inflammable gas produces water. Which is another source of springs and rivers. Allegorical loves of Jupiter and Juno productive of vernal showers, 201. VII. Aquatic Taste. Distant murmur of the sea by night. Sea-horse. Nereid singing, 261. VIII. The Nymphs of the river Der- went lament the death of Mrs. French, 297. IX. Inland navigation. Monument for Mr. Brindley, 341. X. Pumps explained. Child suck- ing. Mothers exhorted to nurse their children. Cherub sleeping, 365. XI. Engines for extinguishing fire. Story of two lovers perishing in the flames, 397. XII. Charities of Miss Jones, 447. XIII. Marshes drained. Hercules conquers Achelous. The horn of plenty, 483. XIV. Showers. Dews. Floating lands with water. Lacteal system in animals Cara- van drinking, 529. Departure of the Nymphs like water-spiders ; like northern nations skaiting on the ice, 569. BOTANIC GARDEN. ECONOMY OF VEGETATION CANTO III. x\.GAIN the Goddess speaks! — glad Echo swells The tuneful tones along her shadowy dells, Her wrinkling founts with soft vibration shakes, Curls her deep wells, and rimples all her lakes, Thrills each wide stream, Britannia's isle that laves, 5 Her headlong cataracts, and circumfluent waves. — Thick as the dews, which deck the morning flowers, Or rain-drops twinkling in the sun-bright showers. Fair Nymphs, emerging in pellucid bands, Rise, as she turns, and whiten all the lands. 10 I. " Tour buoyant troops on dimpling ocean tread v Wafting the moist air from his oozy bed, Aquatic Nymphs! — you lead with viewless march The winged Vapours up the aerial arch, On each broad cloud a thousand sails expand, 15 \nd steer the shadowy treasure o'er the land ; The ringed Vapours. 1. 14. See additional notes, No. XXV. on evapora- ::on. On each broad cloud. 1. 15. The clouds consist of condensed vapour, the particles of which are too small separately to overcome the tenacity of the air, and which, therefore, do not descend. They are in such small spheres as to repel each other ; that is, they are applied to each other by such very small surfaces, that the attraction of the particles of each drop to its own centre, is greater than its attraction to the surface of the drop in its vicinity ; every one has observed with what difficulty small spherules of quicksilver can be made to unite, owing to the same cause ; and it is common to see, on riding through shallow water on a clear day, numbers of very small spheres of water, as they are thrown from the horse's feet, run along the surface for ijuny yards before they again unite with it. In many cases these spherules 74 BOTANIC GARDEN. Part I. Through vernal skies the gathering drops diffuse, Plunge in soft rains, or sink in silver dews. — Tour lucid bands condense with fingers chill The blue mist hovering round the gelid hill ; 20 of water, which compose clouds, are kept from uniting by a surplus of elec- tric fluid, and fall, in violent showers, as soon as that is withdrawn from them, as in thunder storms. See note on Canto I. 1. 554. If, in this stare, a cloud becomes frozen, it is torn to pieces in its descent, by the friction of the air, and falls in white Hakes of snow. Or these flah.es are rounded by being rubbed together by the winds, and by having their angles thawed off by the warmer air beneath as they descend; and part of the water produced by these angles, thus dissolved, is absorbed into the body of the hail-stone, as may be seen by holding a lump of snow over a candle, and there becomes frozen into ice, by the quantity of cold which the hail- etone possesses beneath the freezing point, or which, is produced by its quick evaporation in falling; and thus hail-stones are often found of greater or less density, according as they consist of a greater portion of snow or ice. If hail-stones consisted of the large drops of showers froaen in their descent, they would consist of pure transparent ice As hail is only produced in summer, and is always attended with storms, some philosophers have believed that the sudden departure of electricity from a cloud may effect something yet unknown in this phenomenon ; but it may happen in summer independent of electricity, because aqueous vapour is then raised higher in the atmosphere, whence it has further to fall, and there is warmer air below for it to fall through. Or sink in silver dews 1. 18. During the coldness of the night the moisture before dissolved in the air is gradually precipitated, and, as it subsides, ad- heres to the bodies it falls upon. Where the attraction of the body to the particles of water is greater than the attractions of those particles to each other, it becomes spread upon their surface, or slides down them in actual contact, as on the broad parts of the blades of moist grass. Where the at- traction of the surface to the water is less than the attraction of the particles of water to each other, the dew stands iu drops, as on the points and edges of grass or gorse, where the surface presented to the drop being small, it at- tracts it so little as but just to support it without much changing its globu- lar form. Where there is no attraction between the vegetable surface and the dew drops, as on cabbage leaves, the drop does not come into contact with the leaf, but hangs over it repelled, and retains its natural form, com- posed of the attraction and pressure of its own parts, and thence looks like quicksilver, reflecting light from both its surfaces. Nor is this owing to any oiliness of the leaf, but simply to the polish of its surface, as a light needle may be laid on water in the same manner without touching it ; for as the attractive powers of polished surfaces are greater when in actual contact, so the repulsive power is greater before contact. The blue mist. 1. 20. Mists are clouds resting on the ground ; they gene- rally come on at the beginning of night, and either I'll the mots: vallies, or hang on the summits of hills, according to the decree of Hi dissolved, and the eduction of heat from tliem. The air over riven, during li of the day, suspends much moisture ; and, as the cban face oi rivers occasions them to cool sooner than the land, ai the approach '. mists are most frequently seen to begin over rivers, and to spread themselves over moist grounds, and till the vullic ; , \ tS. on the Canto III. ECONOMY OF VEGETATION. 75 In clay-form'd beds the trickling streams collect, Strain through white sands, through pebbly veins direct ; Or point in rifted rocks their dubious way, And in each bubbling fountain rise to day. " Nymphs.' you then guide, attendant from their source, The associate rills along their sinuous course; 26 Float in bright squadrons by the willowy brink, Or circling slow in limpid eddies sink; Gall from her crystal cave the Naiad-Nymph, Who hides her fine form in the passing lymph, 30 And, as below she braids her hyaline hair, Eyes her soft smiles reflected in the air ; Or sport in groups with River-Boys, that lave Their silken limbs amid the dashing wave ; Pluck the pale primrose bending from its edge, 35 Or tittering dance amid the whispering sedge. — " Onward you pass, the pine-capt hills divide, Or feed the golden harvests on their side ; The wide-ribb'd arch with hurrying torrents fill, Shove the slow barge, or whirl the foaming mill. 40 tops of mountains are more properly clouds, condensed by the coldness of their situation. On ascending up trie side of a hill from a misty valley, I have observed a beautiful coloured halo round the moon, when a certain thickness of mist was over me, which ceased to be visible as soon as I emerged out of it ; and ■well remember admiring, with other spectators, the shadow of the three spires of the cathedral church at Lichiield, the moon rising behind it, appa- rently broken off, and lying distinctly over our heads, as if horizontally on the surface of the mist, which arose about as high as the roof of the church. There are some curious remarks on shadows, or reflections seen on the sur- face of mists from high mountains, in Ulloa's Voyages. The dry mist of summer 1783. was probably occasioned by volcanic eruption, as mentioned in note on Chunda, vol. ii. and, therefore, more like the atmosphere of smoke, which hangs, on still days, over great cities. There is a dry mist, or rather a diminished transparence of the air, which, according to Mr. Saussure, accompanies fair weather, while great transpa- rence of air indicates rain. Thus when large rivers, two miles broad, such as at Liverpool, appear narrow, it is said to prognosticate rain, and when wide, fair whether. This want of transparence of the air, in dry weather, may be owing to new combinations or decompositions of the vapours dissolved in it, but wants further investigation. Essais sur L'llygrometrie, p. 357. Round the gelid bill. ib. See additional notes, No. XXVI. on the origin Of springs. 76 BOTANIC GARDEN. Part I. Or lead with beckoning hand the sparkling train Of refluent water to its parent main, And pleased revisit in their sea-moss vales Blue Nereid-forms array'd in shining scaK ■;, Shapes, v, hose broad oar the torpid wave impels, 45 '\nd Tritons bellowing through their twisted shells. u So from the heart the sanguine Stream distils O'er Beauty's radiant shrine in vermil rills, Feeds each fine nerve, each slender hair pervades, The skin's bright snow with living purple shades, 50 Each dimpling cheek with warmer blushes dyes Laughs on the lips, and lightens in the eyes. — Erewhile absorb'd, the vagrant globules swim From each fair feature, and proportion'd limb, jcin'd in one trunk widi deeper tint return 55 To the warm concave of the vital urn. II. 1. " Aquatic maids! ijou sway the mighty realms Of scale and shell, which Ocean overwhelms; As Night's pale Queen her rising orb reveals, And climbs the zenith with refulgent wheels, 60 Carr'd on the foam your glimmering legion rides, Your little tridents heave the dashing tides, Carr'd on tie foam. 1. 61. The phenomena of the tides have been well in vestigated, and satisfactorily explained, by Sir Isaac Newton and Dr. Halley, from the reciprocal gravitations of the earth, moon, and sun. As the earth and moon move round a centre of motion near the earth's surface, at the same time that they are proceeding in their annual orbit round the sun, it follows, that the water on the side of the earth nearest this centre of motion, between the earth and moon, will be more attracted by the moon, and the waters on the opposite side of the earth will be less attracted by the moon, :han the central parts of the earth. Add to this, that the centrifugal force of rhe water on the side of the earth furthest from the centre of the motion round which the earth and moon move (which, as was said before, is Deal the surface of the earth), is greater than that on the opposite side of the earth. From both these causes it is easy to comprehend, that the water will rise on •wo sides of the earth, viz. on that neatest to the moon, and its Opposite side, and that it will be flattened, in consequence, at the quadratures, and thus produce two tides in every lunar day, which consists of about twent| four hours and forty-eight minutes. Thes< tidei will be also affected by the solar attraction when it coincide! with the lunar one. or opposes it, as at new and full moon, and will also be much influenced by the opposing shores in every part of the earth. Now, as the moon, in moving round the centre of gravity betv ■ Canto III. ECONOMY OF VEGETATION. 77 Urge on the sounding shores their crystal course, Restrain their fury, or direct their force. 2. " Nymphs ! you adorn, in glossy volutes roll'd, 6S The gaudy couch, with azure, green, and gold. and the earth, describes a much larger orbit than the earth describes round the same centre, it follows, that the centrifugal motion on the side of the. moon opposite to the earth must be much greater than the centrifugal motion of the side of the earth opposite to the moon round the same centre. And, secondly, as the attraction of the earth exerted on the moon's surface next to the earth is much greater than the attraction of the moon exerted on the earth's surface, the tides on the lunar sea (if such there be) should be much greater than those of our ocean. Add to this, that as the same face of the moon always is turned to the earth, the lunar tides must be permanent, and if the solid parts of the moon be spherical, must always cover the phasis next to us. But as there are evidently hills, and vales, and volcanos, on this side of the moon, the consequence is, that the moon has no ocean, or that it is frozen. The gaudy couch. 1. 66. The spiral form of many shells seems to have af- forded a more frugal manner of covering the long tail of the fish with calca- reous armour; since a single thin partition between the adjoining circles of the fish was sufficient to defend both surfaces, and thus much cretaceous mat- ter is saved ; and it is probable, that from this spiral form they are better enabled to feel the vibrations of the element in which they exist. See note on Canto IV. 1. 162. This cretaceous matter is formed by a mucous secre- tion from the skin of the fish, as is seen in crab-fish, and others which an- nually cast their shells, and is at first a mucous covering (like that of a hen's egg, when it is laid a day or two too soon), and which gradually hardens. This may also be seen in common shell snails; if a part of their shell be broken, it becomes repaired in a similar manner with mucus, which, by de- grees, hardens into shell. It is probable the calculi, or stones found in other animals, may have a similar origin, as they are formed on mucous membranes, as those of the kidney and bladder, chalk-stones in the gout, and gall-stones ; and are pro- bably owing to the inflammation of the membrane where they are produced, and vary according to the degree of inflammation of the membrane which forms them, and the kind of mucus which it naturally produces. Thus the shelly matter of different shell-fish differs, from the coarser kinds, which form the shells of crabs, to the finer kinds, which produce the mother-pearl. The beautiful colours of some shells originate from the thinness of the la- minx of which they consist, rather than to any colouring matter, as is seen in mother-pearl, which reflects different colours according to the obliquity of the light which falls on it. The beautiful prismatic colours seen on the La- bradore stone, are owing to a similar cause, viz. the thinness of the lamins of which it consists, and has probably been formed from mother-pearl shells. It is curious that some of the most common fossil shells are not now known in their recent state, as the cornua ammonis ; and, on the contrary, many shells which are very plentiful in their recent state, as limpets, sea-ears, vo- lutes, cowries, are very rarely found fossil. Da Costa's Conchology, p. 163. Were all the ammonise destroyed when the continents were raised ? Or do some genera of animals perish by the increasing power of their enemies ? Or do they still reside at inaccessible depths in the sea >. Or do some animals :hange their forms gradually, and become new genera ? 78 BOTANIC GARDEN. Part I. You round Echinus ray his arrowy mail, Give the- keel'd Nautilus his oar and sail ; Firm to his rock with silver cords suspend The anchor' d Pinna, and his Cancer-friend ; 7*0 With worm-like beard his toothless lips array, And teach the unwieldy Sturgeon to betray. — Ambush'd in weeds, or sepulchred in sands, In dread repose he waits the seal}- bands, Waves in red spires the living lures, and draws 75 The unwary plunderers to his circling jaws, Eyes with grim joy the twinkling shoals beset, And clasps the quick inextricable net. You chase the warrior Shark, and cumbcrous Whale, And guard the Mermaid in her briny vale ; 80 Feed the live petals of her insect-flowers, Her shell-wrack gardens, and her sea-fan bowers ; With ores and gems adorn her coral cell, And drop a pearl in every gaping shell. 3. " Your myriad trains o'er stagnant oceans tow, 85 Harness'd with gossamer, the loitering prow; Echinus. Nautilus. 1. 6", 68. See additional notes, No. XXVII. Pinna. Cancer. 1. 70. See additional notes, No. XXVII. With luorm-like beard. 1. 71. See additional notes, No. XXVIII. Feed the live petals. 1. 81. There is a sea-insect described by Mr. Huges, whose claws, or tentacles, being disposed in regular circles, and tinged with variety of bright lively colours, represent the petals of some most elegantly fringed and radiated flowers, as the carnation, marigold, and anemone. Philos. Trans. Abridg. vol. ix. p. 110. The Abbe Dicquemarre has further elucidated the history of the actinia, and observed their manner of taking their prey by enclosing it in these beautiful rays like a net. Phil. Trans, vol Ixiii. lxv. and Ixvii. And drop a pearl. 1. 84. Many are the opinions, both of ancient and mo. dern writers, concerning the production of pearls. Mr. Reaumur thinks they are formed like the hard concretions in many land animals, as stones of the bladder, gall-stones, and bezoar, and hence concludes them to be a disease of the fish; but there seems to be a stricter analog? between these and the calcareous productions found in crab-fish, called crab's eyes, which are formed near the stomach of the animal, and constitute a reservoir of cal- careous matter against the renovation of the shell, at which time they are re-dissolved, and deposited for that purpose. As the internal pan of thr Shell of the pearl, oyster, or muscle, consists of mother-pearl, which is a simi- lar material to tin? pearl, and as the animal has annually occasion to enlarge his shell, there is reason to suspect the loose pearls are similar reser ■ Canto III. ECONOMY OF VEGETATION. 79 Or with fine films, suspended o'er the deep, Of oil effusive lull the waves to sleep. Tou stay the flying bark, conceal'd beneath, Where living rocks of worm-built coral breathe j 90 Meet fell Teredo, as he mines the keel With beaked head, and break his lips of steel ; Turn the broad helm, the fluttering canvass urge From Maelstrome's fierce innavigable surge. — 'Mid the lorn isles of Norway's stormy main, 9$ As sweeps o'er many a league his eddying train, Vast watery walls in rapid circles spin, And deep-ingulph'd the Demon dwells within; Springs o'er the fear-froze crew with harpy-claws, Down his deep den the whirling vessel draws ; 100 Churns with his bloody mouth the dread repast, The booming waters murmuring o'er the mast. III. " Where with chill frown enormous Alps alarms A thousand realms, horizon'd in his arms ; While cloudless suns meridian glories shed 105 From skies of silver round his hoary head, Tall rocks of ice refract the colour'd rays, And Frost sits throned amid the lambent blaze ; Nymphs ! your thin forms pervade his glittering piles, His roofs of crystal, and his glassy aisles ; 1 10 Where in cold caves imprison'd Naiads sleep, Or chain'd on mossy couches wake and weep ; Or with fine films. 1. 87. See additional notes, No. XXIX. Where living rocks. 1. 90. The immense and dangerous rocks built by the swarms of coral insects, which rise almost perpendicularly in the southern ocean, like walls, are described in Cook's Voyages; a point of one of these rocks broke off, and stuck in the hole which it had made in the bottom of one of his ships, which would otherwise have perished by the admission of water. The numerous lime-stone rocks, which consist of a congeries of the cells of these animals, and which constitute a great part of the solid earth, show their prodigious multiplication in all ages of the world. Specimens of these rocks are to be seen in the lime-works at Linsel, near Newport in Shropshire, in Coal-brook Dale, and in many parts of the Peak of Derby- shire. The insect has been well described by M. Peyssonnel, Ellis, and othere- Phil. Trans, vol. xlvii. 1. lii. and lvii. Meet fell Teredo. 1. 91. See additional notes, No. XXX. Turn the broad helm. 1. 93. See additional note,s, No, XXXI, Part I. N ao BOTANIC GARDEN. Part L Where round {I lignant Waters bend Through rifted ice, in ivory veins descend, Seek through unfathom'd snows their devious track, lid Heave the vast spars, the ribbed granites track, Rush into day, in foamy torrents shine, And swell the imperial Danube or the Rhine. — — Or feed the murmuring Tiber, as he i His realms inglorious with diminish'd wa 120 Hears his lorn Forum sound with Eunuch-strains, Sees dancing slaves insult his martial plains ; Parts with chill stream the dim religious bower, Time-moulder'd bastion, and dismantled tower ; Where round dark crags. 1. 113. See additional notes, No. XXXII. Heave the vast spars. 1. 116. Water, in descending down elevated situa- tions, if the outlet for it below is not sufficient for its emission, acts with a force equal to the height of the column, as is seen in an experimental ma- chine calljd the philosophical bellows, in which a few pints of water ire made to raise many hundred pounds. To this cause is to be ascribed many large promontories of ice being occasionally thrown down from the glaciers; rocks have likewise been thrown from the sides of mountains by the same «ause, and large portions of earth have been removed many hundred yards from their situations at the foot of mountains. On inspecting the locomotion of about thirty acres of earth, with a small house, near Bilder's Bridge, in Shropshire, about twenty years ago, from the foot of a mountain towards tht river, I well remember it bore all the marks of having been thus lifted up, pushed away, and, as it were, crumpled into ridges, by a column of water contained in the mountain. From water being thus confined in high columns, between the strata of mountainous countries, it has often happened, when wells or perforations have been made into the earth, that springs have arisen much above the sur- face of the new well. When the new bridge was building at Dublin, Mr. G. Semple found a spring in the bed of the river where he meant to lay the foundation of a pier, which, by fixing iron pipes into it, he raised many feet. Treatise on Building in Water, by G. Semple. From having observed a valley north-west of St. Alkmond's well, near Derby, at the head of which that spring of water once probably existed, and by its current formed the valley (but which, in after times, found its way out in its present situa tion), I suspect that St. Alkmond's well might, by building round it, be raised high enough to supply many streets in Derby with spring-water, which are now only supplied with river-water. See an account of U spring of water. Phil. Trans, vol. lxxv. p. 1. In making a well at Sheerness the water rose 300 feet above its source .n the well. Phil. Trans, vol. lxxiv. And at Hartford, in Connecticut, there is a well which was dug seventy feet deep before water w then, in boring an anger-hole through a rock, the water ItM so fast as ro make it difficult to keep it dry by pumps, till they could blow the hole larger by gun-powder, which was no sooner accomplished than it filled, id has been a brook for near a century. Travels through America. - J /',/'//// \ /////// < / ' y ' y/> ' / Canto III. ECONOMY OF VEGETATION. By alter'd fanes and nameless villas glides, And classic domes, that tremble on his sides ; Sighs o'er each broken urn, and yawning tomb, And mourns the fall of Liberty and Rome. IV. " Sailing in air, when dark Monsoon inshrouds His tropic mountains in a night of clouds ; Or drawn by whirlwinds from the Line returns, And showers o'er Afric all his thousand urns ; High o'er his head the beams of Sirius glow, And, Dog of Nile, Anubis, barks below. Nymphs I you from cliff to cliff attendant guide,, In headlong cataracts, the impetuous tide ; Or lead o'er wastes of Abyssinian sands The bright expanse to Egypt's showerless lands. Dark Monsoon inshrouds. 1. 129. When from any peculiar situations of iand, in respest to sea, the tropic becomes more heated, when the sun is vertical over it, than the line, the periodical winds, called monsoons, arc produced, and these are attended by rainy seasons ; for as the air at the tro- pic is now more heated than at the line, it ascends by decrease of its specific gravity, and floods of air rush in both from the south-west and north-east, and these being one warmer than the other, the rain is precipitated by their mixture, as observed by Dr. Hutton. See additional notes, No. XXV. All late travellers have ascribed the rise of the Nile to the monsoons which de- luge Nubia and Abyssinia with rain. The whirling of the ascending air was even seen by Mr. Bruce in Abyssinia : he says, " Every morning a small cloud began to whirl round, and presently after the whole heavens became covered with clouds." By this vortex of ascending air the N. E. winds and the S. W. winds, which flow in to supply the place of the ascending column, be- came mixed more rapidly, and deposited their rain in greater abundance. Mr. Volney observes, that the time of the rising of the Nile commences about the 19th of June ; and that Abyssinia and the adjacent parts of Africa are deluged with rain in May, June, and July, and produce a mass of water • which is three months in draining off. The Abbe La Pluche observes, that as Sirius, or the dog-star, rose at the time of the commencement of the flood, its rising was watched by the astronomers, and notice given of the approach of inundation, by hanging the figure of Anubis, which was that of a man with a dog's head, upon all their temples. Histoire de Ciel. Egypt's showerless lands. I. 138. There seem to be two situations which /nay be conceived to be exempted from rain falling upon them ; one where the constant trade-winds meet beneath the line, for here two regions of warm air are mixed together, and thence do not seem to have any cause to precipi- tate their vapour ; and the other is, where the winds are brought from colder climates and become warmer by their contact with the earth of a warmer one. Thus Lower Egypt is a flat country, warmed by the sun more than the Higher lands on one side of it, and than the Mediterranean on the other, and hence the winds which blow over it acquire greater warmth, whichevet way they come, than they possessed before, and in consequence have a ten 82 UOTANIC GARDEN. Part I. — Her long canals the sacred waters fill, And edge with silv.r eveiy peopled hill ; 140 Gigantic Sphinx in circling waves admire, And Mf.mnon bending o'er his broken lyre; O'er furrow'd glebes and green savannas sweep, And towns and temples laugh amid the deep. V. 1. " High in the frozen North where Heccla glows, And melts in torrents his coeval snows ; 146 O'er isles and oceans sheds a sanguine light, Or shoots red stars amid the ebon night ; When, at his base intomb'd, with bellowing sound Fell Giesar roar'd, and, struggling, shook the ground; 150 Pour'd from red nostrils, with her scalding breath, A boiling deluge o'er the blasted heath ; And, wide in air, in misty volumes hurl'd Contagious atoms o'er the alarmed world ; Nymph* ! your bold myriads broke the infernal spell, 155 And crush'd the Sorceress in her flinty cell. 2. " Where with soft fires in unextinguish'd urns, Cauldron'd in rock, innocuous Lava burns ; On the bright lake your gelid hands distil In pearly showers the parsimonious rill ; 160 dency to acquire and not to part with their vapour, like the north-east winds of this country. There is said to be a narrow spot upon the coast of Peru, where rain seldom occurs ; at the same time, according to Ulloa, on the mountainous regions of the Andes, beyond, there is almost perpetual rain. For the wind blows uniformly upon this hot part of the coast of Peru, but no cause of devaporation occurs till it begins to ascend the mountainous Andes, and then its own expansion produces cold sufficient to condense its vapour. Fell Giesar roar'd. 1. 150. The boiling column of water at Giesar in Ice- land, was nineteen feet in dinmeter, and sometimes roie to the height of ninety-two feet. On cooling, it deposited a siliceous matter, or chalcedony, forming a bason round its base. The heat of this water before it rose out of the earth could not be ascertained, as water loses all its hut above 313 (as soon as it is at liberty to expand) by the exhalation of a part ; but the rlinty bason which is deposited from it shows that water, with great degrees of heat, will dissolve siliceous matter. Van Troil's Letters on Iceland Since the above account, in the year 1780, this part of Iceland has been dcttroyed b) an earthquake, or covered with lava, which was probably effected bj the force of aqueous steam, a greater quantit) of water falling on the bubterra- . icons fires than could escape by the ancient oudets, and generating an in- creased quantity of vapour. For the dispersion of contagious vapours from volcanos, see an account of the Harmauan, in the notes on Chunda, vol. ii Canto III. ECONOMY OF VEGETATION. And, as aloft the curling vapours rise Through the cleft roof, ambitious for the skies, In vaulted hills condense the tepid steams, And pour to Health the medicated streams. — So in green vales amid her mountains bleak Buxtonia smiles, the Goddess-Nymph of Peak ; Deep in warm waves, and pebblv paths she dwells, And calls Hygeia to her sainted wells. u Hither in sportive bands bright Devon leads Graces and Loves from Chatsworth's flowery meads. Charm'd round the Nymph, they climb the rifted rocks. And steep in mountain-mist their golden locks ; On venturous step her sparry caves explore, And light with radiant eyes her realms of ore. — Oft by her bubbling founts, and shadowy domes, In gay undress the fairy legion roams, Their dripping palms in playful malice fill, Or taste with ruby lip the sparkling rill ; Crowd round her baths, and, bending o'er the side, Unclasp'd their sandals, and their zones untied, Dip with gay fear the shuddering foot undress'd, And quick retract it to the fringed vest ; Or cleave with brandish'd arms the lucid stream, And sob, their blue eyes twinkling in the steam. Buxtonia smiles. 1. 166. Some arguments are mentioned in the note on Fucus, vol. ii. to show that the warm springs of this country do not arise from the decomposition of pyrites near the surface of the earth, but that they are produced by steam rising up the fissures of the mountains from great depths, owing to water falling on subterraneous fires, and that this steam is condensed between the strata of the incumbent mountains, and collected into springs. For further proofs on this subject the reader is referred to a lette? from Dr. Darwin, in Mr. Pilkinton's View of Derbyshire, vol. i. p. 256. And sob, their blue eyes. 1. 184. The bath at Buxton being of 82 degrees of heat, is called a warm bath, and is so compared with common spring-water, which possesses but 48 degrees of heat, but is nevertheless a cold bath compared to the heat of the body, which is 98. On going into this bath there is there- fore always a chill perceived at the first immersion ; but after having been in i* a minute, the chill ceases, and a sensation of warmth succeeds, though the body continues to be immersed in the water. The cause of this curious phe- nomenon is to be looked for in the laws of animal sensation, and not from any properties of heat. When a person goes from clear day-light into an obscure room, for a while it appears gloomy ; which gloom, however, in a little time ceases, and the deficiency of light becomes no longer perceived. This is not 84 BOTANIC GARDEN. Part I. — High o'er the chequer'd vault with transient glow 185 Bright lustres dart, as dash the waves below ; And Echo's sweet responsive voice prolongs The dulcet tumult of their silver tongues — O'er their flush'd cheeks uncurling tresses flow, And dew-drops glitter on their necks of snow; 190 Round each fair Nymph her dropping mantle clings, And Loves emerging shake their showery wingB. u Here oft her Lord surveys the rude domain, Fair arts of Greece triumphant in his train ; Lo! as he steps, the column'd pile ascends, 195 The blue roof closes, or the crescent bends ; New woods aspiring clothe their hills with green, Smooth slope the lawns, the grey rock peeps between ; Relenting Nature gives her hand to Taste, And Health and Beauty crown the laughing waste. 200 VI. " Nymphs ! your bright squadrons watch with chemk eyes The cold-elastic vapours, as they rise ; With playful force arrest them as they pass, And to pure Air betroth the Jlcvnvig Gas. solely owing to the enlargement of the iris of the eye, since that is performed in an instant, but to this law of sensation, that when a less stimulus is applied (within certain bounds) the sensibility increases. Thus, at going into a bath as much colder than the body as that of Bu.\ton, the diminution of heat on the skin is at first perceived ; but in about a minute the sensibility to heat increases, and the nerves of the skin are equally excited by the lessened sti- mulus. The sensation of warmth at emerging from a cold bath, and the paiu called the hot-ach, after the hands have been immersed in snow, depend on the same principle, viz. the increased sensibility of the skin after having been previously exposed to a stimulus less than usual. Here oft her Lord. I. 193. Alluding to the magnificent and beautiful cres- cent, and superb stables, lately erected at Buxton, for the accommodation of the company, by the Duke of Devonshire; and to the plantations with which he has decorated the surrounding mountains. And to pure air. 1.204. Until very lately water was esteemed a simple clement ; nor are all the most celebrated chemists of Europe yet converts to the new opinion of its decomposition. Mr Lavoisier, and others of the French school, have most ingeniously endeavoured to show, that water con. sists of pure air, called by them oxygene, and of inflammable air, called hy- drogene, with as much of the matter of heat, or calorique, as is necessary to pre lerve them in the form of gas. Gas is distinguished from steam by its preserving its claoti* i.\ under the pressure of the atmosphere, and in tlur Canto III. ECONOMY OF VEGETATION. 85 Round their translucent forms at once they fling 205 Their rapturous arms, with silver bosoms cling ; In fleecy clouds their fluttering wings extend, Or from the skies in lucid showers descend ; Whence rills and rivers owe their secret birth, And Ocean's hundred arms infold the earth. 210 " So, robed by Beauty's Queen, with softer charms Saturnia woo'd the Thunderer to her arms; O'er her fair limbs a veil of light she spread, And bound a starry diadem on her head ; Long braids of pearl her golden tresses graced, 21o And the charm'd Cestus sparkled round her waist. —Raised o'er the woof, by Beauty's hand inwrought, Breathes the soft Sigh, and glows the enamour'd Thought: Vows on light wings succeed, and quiver'd Wiles, Assuasive Accents, and seductive Smiles* 220 —Slow rolls the Cyprian car in purple pride, And, steer'd by Love, ascends admiring Ide; Climbs the green slopes, the nodding woods pervades, Burns round the rocks, or gleams amid the shades.-— Glad Zephyr leads the van, and waves above 22-5 The barbed darts, and blazing torch of Love ; Reverts his smiling face, and pausing flings Soft showers of roses from aurelian wings. greatest degrees of cold yet known. The history of the progress of thia great discovery is detailed in the Memoirs of the Royal Academy for 1781, and the experimental proofs of it are delivered in Lavoisier's Elements of Chemistry. The results of which are, that water consists of eighty-five parts, by weight, of oxygene, and fifteen parts, by weight, of hydrogene, with a sufficient quantity of calorique. Not only numerous chemical pheno- mena, but many atmospherical and vegetable facts receive clear and beautiful elucidation from this important analysis. In the atmosphere, inflammable air is probably perpetually uniting with vital air, and producing moisture, which descends in dews and showers ; while the growth of vegetables, by the assistance of light, is perpetually again decomposing the water they im- bibe from the earth, and while they retain the inflammable air for the forma- tion of oils, wax, honey, resin, &c. they give up the vital air to replenish the atmosphere. And, iiteer'd by Love. 1. 222. The younger Love, or Cupid, the son of Venus, owes his existence and his attributes to much later times than the Eros, or Divine Love, mentioned in Canto I. since the former is no where mentioned by Homer, though so many apt opportunities of introducing him occur in the works of that immortal bard, Bacon, 8b BOTANIC GARDEN. Part I. Delighted Fawns, in wreaths of flowers array'd, With tiptoe Wood-I3o\ a beat the chequer'd glade; 230 Alarmed Naiads, rising into air, Lift o'er their silver urns their leafy hair; Each to her oak die bashful Dryads shrink, And azure eyes are seen at every- chink. — Love culls a flaming shaft of broadest wing, -235 And rests the fork upon the quivering string ; Points his arch eye aloft, with fingers strong Draws to his curled ear the silken thong ; Loud twangs the steel, the golden arrow flies, Trails a long line of lustre through the skies ; 240 " 'Tis done!" he shouts, " the mighty Monarch feels!" And with loud laughter shakes the silver wheels ; Bends o'er the car, and whirling, as it moves, His loosen'd bowstring, drives the rising doves. — Pierced on his throne the starting Thunderer turns, 245 Melts with soft sighs, with kindling rapture bums ; Clasps her fair hand, and eyes in fond amaze The bright Intruder with enamour'd gaze. " And leaves my Goddess, like a blooming bride, " The fanes of Argos for the rocks of Ide ? 250 " Her gorgeous palaces, and amaranth bowers, " For clifF-top'd mountains, and aerial towers? n He said ; and, leading from her ivory seat The blushing beauty to his lone retreat, Curtain'd with night the couch imperial shrouds, 25S And rests the crimson cushions upon clouds. — Earth feels the grateful influence from above. Sighs the soft Air, and Ocean murmurs love; Ethereal Warmth expands his brooding wing. And in still showers descends the genial Spring. 260 And in still thewcrt. 1.260. The allegorical interpretation of the - I ient mythology, which supposes Jupiter to represent the superior part of the atmosphere OI ether, and Juno t lie interior air, and that the conjunction of these two produces vernal showers, as alluded to in Virgil analogous to the present important discovery of the production of wate: from pure air, or oxygene, and inflammable air, or hydrogene, (wl its greater levin , probably resides over the former) that one should b< to believe, that the ven ancient chemists of Egypt had discovered i Canto III. ECONOMY OF VEGETATION. 87 VII. " Nymphs of aquatic Taste! whose placid smile Breathes sweet enchantment o'er Britannia's isle ; Whose sportive touch in showers resplendent flings Her lucid cataracts, and her bubbling springs ; Through peopled vales the liquid silver guides, 26* And swells in bright expanse her freighted tides. You with nice ear, in tiptoe trains, pervade Dim walks of morn or evening's silent shade j Join the lone Nightingale, her woods among, And roll your rills symphonious to her song; 270 Through fount-full dells, and wave-worn valleys move, And tune their echoing waterfalls to love ; Or catch, attentive to the distant roar, The pausing murmurs of the dashing shore ; Or as aloud she pours her liquid strain, 275 Pursue the Nereid on the twilight main. — Her playful Sea-horse woos her soft commands, Turns his quick ears, his webbed claws expands, His watery way with waving volutes wins, Or listening librates on unmoving fins. 280 The Nymph emerging mounts her scaly seat, Hangs o'er his glossy sides her silver feet, With snow-white hands her arching veil detains, Gives to his slimy lips the slacken'd reins, Lifts to the star of Eve her eye serene, 285 And chaunts the birth of Beauty's radiant Queen.-— O'er her fair brow her pearly comb unfurls Her beryl locks, and parts the waving curls, Each tangled braid with glistening teeth unbinds, And with the floating treasure musks the winds. — . 290 position of water, and thus represented it in their hieroglyphic figures before the invention of letters. In the passage of Virgil, Jupiter is called ether, and descends in prolific showers on the bosom of Juno, whence the spring succeeds, and all nature ~ejoices. Turn pater omnipotens foecundis imbribus iEther Conjugis in gremium lxtK descendit, et omnes Magnus alit, magno commixtus corpore, foetus. Virg. Georg. Lib. II. 1. 335. Her playful Sea-horse. 1. 277. Described from an antique gem. Part I. O 88 BOTANIC GARDI.N. Part h I'hrill'd l)v tin- dulcet accents, as she sings, The rippling wave in widening circles rings; Night's shadow v forms along the margin gleam With pointed ears, or dance upon the stream ; The Moon tr insported stays her hright career, 295 And maddening Stars shoot headlong from the sphere. VIII. " Ntpnp/is ! whose fair eyes with vivid lustres glow For human weal, and melt at human woe ; Late as you floated on your silver shells, Sorrowing and slow by Derwent's willowy dells ; Where by tall groves his foamy flood he steers Through ponderous arches o'er impetuous wears, Bv Derby's shadowy towers reflective sweeps, And gothic grandeur chills his dusky deeps ; Ton pearl'd with Pity's drops his velvet sides, 305 Sigh'd in his gales, and murmur'd in his tides, Waved o'er his fringed brink a deeper gloom, And bow'd his alders o'er Milcena's tomb. " Oft with sweet voice she led her infant-train, Printing with graceful step his spangled plain, Explored his twinkling swarms, that swim or fly, And mark'd his florets with botanic eye. — " Sweet bud of Spring! how frail thy transient bloom, " Fine film," she cried, " of Nature's fairest loom! " Soon Beauty fades upon its damask throne !"— —Unconscious of the worm, that mined her own !— — Pale are those lips, where soft caresses hung, Wan the warm cheek, and mute the tender tongue, Cold rests that feeling heart on DerWENT's shore, And those love-lighted eye-balls roll no more! " Here her sad Consort, stealing through the gloom Of murmuring cloysters, ga/.es on her tomb ; Hangs in mute anguish o'er the scutcheon'd hearse. Or graves with trembling style the votive verse. (A; , ; , men on o Mrs. French, a lad) who, to nuiu> other elegant accomplishments, added a yvoficiencj in botain and m timU hi Canto III. ECONOMY OF VEGETATION. " Sexton! oh, lay beneath this sacred shrine, " When Time's cold hand shall close my aching eyes, " Oh, gently lay this wearied earth of mine, " Where wrap'd in night my loved Milcena lies. " So shall with purer joy my spirit move " When the last trumpet thrills the caves of Death, " Catch the first whispers of my waking love, " And drink with holy kiss her kindling breath. " The spotless Fair, with blush ethereal warm, u Shall hail with sweeter smile returning day, " Rise from her marble bed a brighter form, " And win on buoyant step her airy way. " Shall bend approved, where beckoning hosts invite, " On clouds of silver, her adoring knee, " Approach with Seraphim the throne of light, " — And Beauty plead with angel-tongue for me I" IX. " Tour virgin trains on Brindley's cradle smiled, And nursed with fairy love the unletter'd child, Spread round his pillow all your secret spells, Pierced all your springs, and open'd all your wells.— As now on grass, with glossy folds reveal'd, Glides the bright serpent, now in flowers conceal'd; Far shine the scales, that gild his sinuous back, And lucid undulations mark his track ; So with strong arm immortal Brindley leads His long canals, and parts the velvet meads '; Winding in lucid lines, the watery mass Mines the firm rock, or loads the deep morass, With rising locks a thousand hills alarms, Flings o'er a thousand streams its silver arms, On Brindley's cradle smiled. 1. 341. The life of Mr, Brindley, whose great abilities in the construction of canal navigation were called forth by the pa- tronage of the Duke of Bridgewater, may be read in Dr. Kippis's Biographia Britannica : the excellence of his genius is visible in every part of this island. He died at Turnhurst, in Staffordshire, in 1772, and ought to have a rhonSj pent in the cathedral church at Lichfield. 90 BOTANIC GARDEN. Part I. Feeds the long vale, the nodding woodland laves, 35S And Plenty, Arts and Commerce freight the waves. — Nymphs ! who erewhile round Brindley's early bier On snow-white bosoms shower'd the incessant tear, Adorn his tomb ! — oh, raise the marble bust, Proclaim his honours, and protect his dust ! 360 With urns inverted, round the sacred shrine Their ozier wreaths let weeping Naiads twine ; While on the top Mechanic Genius stands, Counts the fleet waves, and balances the lands. X. " Nymphs ! you first taught to pierce the secret caves Of humid earth, and lift her ponderous waves ; 366 Bade with quick stroke the sliding piston bear The viewless columns of incumbent air ;— Press'd by the incumbent air the floods below, Through opening valves in foaming torrents flow, 370 Foot after foot with lessen'd impulse move, And rising seek the vacancy above.— So when the Mother, bending o'er his charms, Clasps her fair nurseling in delighted arms ; Throws the thin 'kerchief from her neck of snow, 375 And half unveils the pearly orbs below ; With sparkling eye the blameless Plunderer owns Her soft embraces, and endearing tones, Seeks the salubrious fount with opening lips, Spreads his inquiring hands, and smiles, and sips. 380 Lift her ponderous waves. 1. 366. The invention of the pump is of very an- ceint date, being ascribed to one Ctesebes, an Athenian, whence it was called by the Latins machina Ctesebiana ; but it was long before it was known that the ascent of the piston lifted the superincumbent column of the atmosphere, and that then the pressure of the surrounding air, on the surface of the well below, forced the water up into the vacuum, and that, on that account, in the common lifting pump the water would rise only about thirty-rive feet, as the weight of such a column of water was, in general, an equipoise to the surrounding atmosphere. The foamy appearance of water, when the pressure of the air over it is diminished, is owing to the expulsion and escape of the air previously dissolved by it, or existing in its pores. — When a child first sucks, it only presses or champs the teat, as observed by the great Har- vey, but afterwards it learns to make an incipient vacuum in its mouth, and acts, by removing the pressure of the atmosphere from the nipple, like a pump. Canto III. ECONOMY OF VEGETATION. 91 " Connubial Fair '. whom no fond transport warms To lull your infant in maternal arms ; Who, bless'd in vain with tumid bosoms, hear His tender wailings with unfeeling ear ; The soothing kiss and milky rill deny 385 To the sweet pouting lip, and glistening eye !— - Ah ! what avails the cradle's damask roof, The eider bolster, and embroider'd woof ! — Oft hears the gilded couch unpity'd plains, And many a tear the tassel'd cushion stains ! 390 No voice so sweet attunes his cares to rest, So soft no pillow as his Mother's breast !— • — Thus charm'd to sweet repose, when twilight hours Shed their soft influence on celestial bowers, The Cherub, Innocence, with smile divine 395 Shuts his white wings, and sleeps on Beauty's shrine. XI. " From dome to dome when flames infuriate climb, Sweep the long street, invest the tower sublime ; Gild the tall vanes amid the astonish'd night, And reddening heaven returns the sanguine light ; 400 While with vast strides and bristling hair aloof Pale Danger glides along the falling roof; And Giant Terror, howling in amaze, Moves his dark limbs across the lurid blaze. Nymphs! you first taught the gelid wave to rise, 405 Hurl'd in resplendent arches to the skies ; Ab t what avails. 1. 387. From an elegant little poem of Mr. Jerning- ham's, entitled II Latte, exhorting ladies to nurse their own children. Hurl'd in resplendent arches. 1. 486. The addition of an air-cell to ma- chines for raising water to extinguish fire was first introduced by Mr. News- ham, of London, and is. now applied to similar engines for washing wall- trees in gardens, and to all kinds of forcing pumps, and might be applied, with advantage, to lifting pumps, where the water is brought from a great distance horizontally. Another kind of machine was invented by one Greyl, in which a vessel of water was every way dispersed by the explosion of gun- powder lodged in the centre of it, and lighted by an adapted match ; from this idea Mr. Godfrey proposed a water-bomb of similar construction. Dr. Hales, to prevent the spreading of fire, proposed to cover the floors and stairs of the adjoining houses with earth : Mr. Hartley proposed to prevent houses from taking fire, by covering the cieling with thin iron plates ; and Lord Mahon, by a bed of coarse mortar, or plaster, between the cieling and floor above it. May not this age of chemical science discover some method of in- 82 BOTANIC GARDEN. Part I. In iron cells condensed the airy spring, And imp'd the torrent with unfailing wing; — On the fierce (lames the shower impetuous falls, And sudden darkness shrouds the shattered walls ; 410 Steam, smoke, and dust, in blended volumes roll, And Night and Silence repossess the Pole. — " Where were ye, Nymphs! in those disastrous hours, Which wrap'd in flames Augusta's sinking towers \ Why did ye linger in your wells and groves, 415 When sad Woodmason mourn' d her infant loves ? When thy fair Daughters with unheeded screams, Ill-fated Molesworth ! call'd the loitering streams ! — The trembling Nymph, on bloodless fingers hung, Eyes from the tottering wall the distant throng, 420 With ceaseless shrieks her sleeping friends alarms, Drops with singed hair into her lover's arms. — The illumined Mother seeks with footsteps fleet, Where hangs the safe balconv o'er the street ; Wrap'd in her sheet her youngest hope suspends, t - 1 - And panting lowers it to her tiptoe friends ; Again she hurries on Affection's wings, And now a third, and now a fourth, she brings ; Safe all her babes, she smooths her horrent brow, And bursts through bickering flames, unscorch'd, below. 430 So, by her Son arraign'd, with feet unshod O'er burning bars indignant Emma trod. " E'en on the day when Youth with Beauty wed, The flames surprised them in their nuptial bed ; — Seen at the opening sash with bosom bare, 1 1 ! With wringing bands, and dark dishevel'd hair, The blushing Bride, with wild disorder'd charms, Round her fond lover a\ incls her ivory arms; jecting or soaking timber with lime-water, and afterwards with vitriolic acid, and thus till its pores w ith alabaster ! or of penetrating it with siliceotj bj processes similar to those of Bergman and A chard \ See CroB fd edit. vol. i p Woodtru - 1.416,418. The histories of these unfortunate familiea m ial Register, or in the GenUemai Canto III. ECONOMY OF VEGETATION. 93 Beat, as they clasp, their throbbing hearts with fear, And many a kiss is mix'd with many a tear : — 440 Ah me! in vain the labouring engines pour Round their pale limbs the ineffectual shower !— — Then crash' d the floor, while shrinking crowds retire, And Love and Virtue sunk amid the fire ! — With piercing screams afflicted strangers mourn, 445 And their white ashes mingle in their urn. XII. " Pellucid Forms ! whose crvstal bosoms show The shine of welfare, or the shade of woe; Who with soft lips salute returning Spring, And hail the Zephyr quivering on his wing ; 450 Or watch, untired, the wintery clouds, and share With streaming eyes my vegetable care ; Go, shove the dim mist from the mountain's brow, Chase the white fog, Which floods the vale below ; Melt the thick snows, that linger on the lands, 455 And catch the hail-stones in your little hands ; Guard the cov blossom from the pelting shower, And dash the rimy spangles from the bower ; From each chill leaf the silvery drops repel, And close the timorous floret's golden bell. 460 " So should young Sympathy, in female form, Climb the tall rock, spectatress of the storm ; Life's sinking wrecks with secret sighs deplore, And bleed for others' Avoes, herself on shore ; Shove the dim mist. 1. 453. See note on 1. 20 of this Canto. Catch the hail-stones. I. 456. See note on 1. 15 of this Canto. From each chill leuf. 1. 459. The upper side of the leaf is the organ of ve- getable respiration, as explained in the additional notes, No. XXXVII. hence the leaf is liable to injury from much moisture on this surface, and is destroyed by being smeared with oil, in these respects resembling the lungs of animals, or the spiracula of insects. To prevent these injuries, some leaves repel the dew-drops from their upper surfaces, as those of cabbages ; other vegecables close the upper surfaces of their leaves together in the night, or in wet wea- ther, as the sensitive plant ; others only hang their leaves downwards, so as to shoot the wet from them, as kidney-beans, and many trees. See note on 1. 18 of this Canto. Golden bell. 1. 460. There are muscles placed about the foot-stalks of the leaves or leaflets of many plants, for the purpose of closing their upper sur- ■faceo together, or of bending them down so as to shoot off the showers or 94 BOTANIC GAKDEN. Part I. To friendless Virtue, gasping on the strand, 465 Pear her warm heart, her virgin arms expand, Charm with kind looks, with tender accents cheer, And pour the sweet consolatory tear; Griefs cureless wounds with lenient balms assuage, Or prop with firmer staff the steps of Age ; 470 The lifted arm of mute Despair arrest, And snatch the dagger pointed at his breast ; Or lull to slumber Envy's haggard mien, And rob her quiver'd shafts with hand unseen. — Sound, Nymphs of Helicon ! the trump of Fame, 475 And teach Hibernian echoes Jones's name ; Bind round her polish'd brow the civic bay, And drag the fair Philanthropist to day.— So from secluded springs, and secret caves, Her Liffy pours his bright meandering waves, 480 Cools the parch'd vale, the sultry mead divides, And towns and temples star his shadowy sides. dew-drops, as mentioned in the preceding note. The claws of the petals, or of the divisions of the calyx of many flowers, are furnished in a similar manner with muscles, which are exerted to open or close the corol and calyx of the flower, as in tragopogon, anemone. This action of opening and closing the leaves or flowers does not appear to be produced simply by irrita- tion on the muscles themselves, but by the connection of those muscles with a sensitive sensorium, or brain, existing in each individual bud or flower. 1st. Because many flowers close from the defect of stimulus, not by the ex- cess of it, as by darkness, which is the absence of the stimulus of light ; or by cold, which is the absence of the stimulus of heat. Now, the defect of heat, or the absence of food, or of drink, affects our sensations, which had been previously accustomed to a greater quantity of them ; but a muscle can- not be said to be stimulated into action by a defect of stimulus. 2d. Because the muscles around the foot-stalks of the subdivisions of the leaves of the sensitive plant are exerted when any injury is offered to the other extremity of the leaf, and some of the stamens of the flowers of the class Syngenesis, contract themselves when others are irritated. See note on Chondrilla, vol. ii. of this work. From this circumstance, the contraction of the muscles of vegetables seem6 to depend on a disagreeable sensation in some distant part, and not on the irritation of the muscles themselves. Thus, when a particle of dust stimu- lates the ball of the eye, the eye-lids are instantly closed, and when too much light pains the retina, the muscles of the iris contract its aperture, and thic not by any connection or consent of the nerves of those parts, but as an ef- fort to prevent or to remove a disagreeable sensation, which evinces that vegetables are endued with sensation, or that each bud has a common senso- liiini, and is furnished with a brain, or a central place where its v.. catuuu ted. Jones's name. 1. 476. A young lady who devote--, a great .iity. -CastoIII. ECONOMY OF VEGETATION. 95 XIII. " Call your light legions, tread the swampy heath, Pierce with sharp spades the tremulous peat beneath ; With colters bright the rushy sward bisect, 485 And in new veins the gushing rills direct: — So flowers shall rise in purple light arrav'd, And blossom'd orchards stretch their silver shade ; Admiring glebes their amber ears unfold, And Labour sleep amid the waving gold* 4-90 " Thus when young Hercules, with firm disdain, Braved the soft smiles of Pleasure's harlot train ; To valiant toils his forceful limbs assign'd, And gave to Virtue all his mighty mind; Fierce Achelous rush'd from mountain-caves, 495 O'er sad Etolia pour'd his wasteful waves, O'er lowing vales and bleating pastures roll'd* Swept her red vineyards, and her glebes of gold, Mined all her towns, uptore her rooted woods, And Famine danced upon the shining floods. 50Q The youthful Hero seized his curled crest, And dash'd with lifted club the watery Pest; With waving arm the billowy tumult quell'd, And to his course the bellowing Fiend repell'd. " Then to a Snake the finny Demon turn'd, 505 His lengthen'd form with scales of silver burn'd ; Lash'd with resistless sweep his dragon-train, And shot meandering o'er the affrighted plain. The Hero-God, with giant fingers clasp'd Firm round his neck, the hissing monster grasp'd ; 510 With starting eyes, wide throat, and gaping teeth, Curl his redundant folds, and writhe in death. Fierce Achelous. 1. 495. The river Achelous deluged Etolia, by one of its branches or arms, which, in the ancient languages, are called horns, and produced famine throughout a great tract of country : this was represented in hieroglyphic emblems, by the winding course of a serpent, and the roar- ing of a bull with large horns. Hercules, or the emblem of strength,, strangled the serpent, and tore oif one horn from the bull ; that is, he stop- ped, and turned the course of one arm of the river, and restored plenty to the country. Whence the ancient emblem of the horn of plenty. Diet, par M. Danet. Part I. P 96 BOTANIC GARDEN. Part I. M And now a Hull, amid the flying throng Tin- gristly Demon foam'd, and roar'd along; With silver hoofs the flowery meadows spurn'd, 515 RolPd his red eye, his threatening antlers turn'd ; Drngg'd down to earth the Warrior's \ ictor-hands, Press'd his deep dewlap on the imprinted sands ; Then with quick bound his bended knee he fix'd High on his neck, the branching horns betwixt, 520 Strain'd his strong arms, his sinewy shoulders bent, And from his curled brow the twisted terror rent. — Pleased Fawns and Nymphs with dancing step applaud, And hang their chaplets round the resting God ; Link their soft hands, and rear, with pausing toil, 525 The golden trophy on the furrow'd soil ; Fill with ripe fruits, with wreathed flowers adom, And give to Plenty her prolific horn. XIV. " On Spring's fair lip, cerulean Slaters! pour From airy urns the sun-illumined shower, 530 Feed with the dulcet drops my tender broods, Mellifluous flowers, and aromatic buds ; Hang from each bending grass and horrent thorn The tremulous pearl, that glitters to the morn ; Or where cold dews their secret channels lave, 535- And Earth's dark chambers hide the stagnant wave, Oh pierce, ye Nymphs! her marble veins, and lead Her gushing fountains to the thirsty mead ; Wide o'er the shining vales, and trickling hills Spread the bright treasure in a thousand rills. j'40 Dragg'd dawn to earth. 1. 517. Described from an antique gem. Spread the bright treasure. 1. 540. The practice of flooding lands, long in use in China, has been but lately introduced into this country. Besides the supplying water to the herbage in drier seasons, it seems to defend it from frost in the early part of the year, and thus doubly advances the vegetation. The waters which rise from springs passing through marie or lime-stone, are replete with calcareous earth, ami when thrown over morasses, they deposit this earth, and incrust or consolidate the morass. This kind of earth is de- posited in gnat quantity from the springs at Matlock bath, and supplies the soft porous lime-stone of which the houses ami walls are there constructed; and has formed the whole bank, for near a mile, on that side of the Derwenj on which the) Maud. The water of many springs contain-, much azotic gas, or phlogistic air, acsides carbonic gas, or fixed air, as that of Bu.\ton and Bath; this being Canto III. ECONOMY OF VEGETATION, So shall my peopled realms of Leaf and Flower Exult, inebriate with the genial shower; Dip their long tresses from the mossy brink, With tufted roots the glassy currents drink ; Shade your cool mansions from meridian beams, And view their waving honours in your streams. " Thus where the veins their confluent branches bend, And milky eddies with the purple blend ; The Chyle's white trunk, diverging from its source, Seeks through the vital mass its shining course ; O'er each red cell, and tissued membrane spreads, In living net-work, all its branching threads ; Maze within maze its tortuous path pursues, Winds into glands, inextricable clues; Steals through the stomach's velvet sides, and sips The silver surges with a thousand lips ; Fills each fine pore, pervades each slender hair, And drinks salubrious dew-drops from the air. " Thus when to kneel in Mecca's awful gloom. Or press with pious kiss Medina's tomb, League after league, through many a lingering day, Steer the swart Caravans their sultry way; O'er sandy wastes on gasping camels toil, Or print with pilgrim-steps the burning soil ; If from lone rocks a sparkling rill descend, O'er the green brink the kneeling nations bend, Bathe the parch'd lip, and cool the feverish tongue, And the clear lake reflects the mingled throng," set at liberty, may more readily contribute to the production of nitre by means of the putrescent matters which it is exposed to by being spread upon the surface of the land, in the same manner as frequently turning over heaps of manure facilitates the nitrous process, by imprisoning atmospheric air in the interstices of the putrescent materials. Water, arising by land-floods, brings along with it much of the most soluble parts of the manure from the higher lands to the lower ones. River-water, in its clear state, and those springs which are called soft, are less beneficial for the purpose of watering lands, as they contain less earthy or saline matter ; and water from dissolv- ing snow, from its slow solution, brings but little earth along with it, as may be seen by the comparative clearness of the water of snow-Hoods. 93 BOTANIC GARDEN. Part I. The Goddess paused, — the listening bands awhile Still seem to hear, and dwell upon her smile ; 570 Then with soft murmur sweep in lucid trains Down the green slopes, and o'er the pebbly plains, To each bright stream on silver sandals glide, Reflective fountain, and tumultuous tide. So shoot the Spider-broods at breezy dawn, sVS Their glittering net-work o'er the autumnal lawn , From blade to blade connect with cordage fine The unbending grass, and live along the line ; Or bathe unwet their oily forms, and dwell With feet repulsive on the dimpling well. 580 So when the North congeals his watery mass, Piles high his snows, and floors his seas with glass ; While many a Month, unknown to warmer rajs, Marks its slow chronicle by lunar davs ; Stout youths and ruddy damsels, sportive train, 53i Leave the white soil, and rush upon the main ; From isle to isle the moon-bright squadrons stray, And win in easy curves their graceful way ; On step alternate borne, with balance nice, Hang o'er the gliding steel, and hiss along the ice. 590 THE ECONOMY OF VEGETATION. CANTO IV. ARGUMENT FOURTH CANTO Address to the Sylphs. I. Trade winds. Monsoons. N. E. and S. W. ■winds. Land and sea breezes. Irregular winds, 9. II. Production of vital air from oxygene and light. The marriage of Cupid and Psyche, 25. III. 1. Syroc. Simoom. Tornado, 63. 2. Fog. Contagion. Story of Thyrsis and Aegle. Love and Death, 79. IV. 1. Barome- ter. Air-pump, 127- 2. Air-balloon of Mongolfier. Death of Rozier. Icarus, 143. V. Discoveries of Dr. Priestley. Evolutions and combi- nations of pure air. Rape of Proserpine, 177. VI. Sea-balloons, or houses constructed to move under the sea. Death of Mr. Day ; of Mr. Spalding; of Captain Pierce and his Daughters, 207. VII. Sylphs of music. Cecilia singing. Cupid, with a lyre, riding upon a lion, 245. VIII. Destruction of Senacherib's army by a pestilential wind. Shadow of Death, 275. IX. 1. Wish to possess the secret of changing the course of the winds, 317. 2. Monster devouring air subdued by Mr. Kir- wan, 333 X. 1. Seeds suspended in their pods. Stars discovered by Mr. Herschel. Destruction and resuscitation of all things, 363. 2. Seeds within seeds, and bulbs within bulbs. Picture on the retina of the eye. Concentric strata of the earth. The great seed, 393. 3. The root, pith, lobes, plume, calyx, coral, sap, blood, leaves respire and absorb light. The Crocodile in its egg, 421. XI. Opening of the flower. The petals, style, anthers, prolific dust, honey-cup. Transmutation of the cilk-worm, 453. XII. 1. Leaf-buds changed into flower-buds by wound- ing the bark, or strangulating a part of the branch. Cintra, 477. 2. Ingrafting. Aaron's rod pullulates, 507. XIII. 1. Insects on trees. Humming-bird alarmed by the spider-like appearance of Cvprepedia, 521. 2. Diseases of vegetables. Scratch on unnealed glass, 541. XIV. 1. Tender flowers. Amaryllis, fritillary, ciythrina, mimosa, cerca, 553 "2. Vines. Oranges. Diana's trees. Kcw garden. The royal family, 571. XV. Offering to Hygeia, 617. Departure of the Goddess, 659 BOTANIC GARDEN. ECONOMY OF VEGETATION, CANTO IV. x\.S when at noon in Hybla's fragrant bowers Cacalia opens all her honey 'd flowers; Contending swarms on bending branches cling, And nations hover on aurelian wing ; So round the Goddess, ere she speaks, on high $ Impatient Sylphs in gaudy circlets fly ; Quivering in air their painted plumes expand, And colour'd shadows dance upon the land. I. " Sylphs ! your light troops the tropic Winds confine, And guide their streaming arrows to the Line ; 10 While in warm floods ecliptic Breezes rise, And sink with wings benumb'd in colder skies. Tou bid Monsoons on Indian seas reside, And veer, as moves the sun, their airy tide ; While southern Gales o'er western oceans roll, 15 And Eurus steals his ice-winds from the Pole. Cacalia opens. 1. 2. The importance of the nectarium, or honey-gland, in the vegetable economy, is seen from the very complicated apparatus which nature has formed in some flowers, for the preservation of their honey from insects, as in the aconites or monkshoods ; in other plants, instead of a great apparatus for its protection, a greater secretion of it is produced, that thence a part may be spared to the depredation of insects. The cacalia suaveolens produces so much honey, that, on some days, it may be smelt at a great dis- tance from the plant. I remember once counting on one of these plants, besides bees of various kinds without number, above two hundred painted but'erflies, which gave it the beautiful appearance of being covered with ad- ditional flowers. The tropic Winds. 1, 9. See additional notes, No. XXXIII. Kg BOTANIC GARDEN Part I four playful trains, on sultry islands born, Turn on fantastic toe at eve and morn ; With soft susurranr voice alternate sweep Earth's green pavilions and encircling deep. Or in itinerant cohorts, borne sublime On tides of ether, float from clime to clime; O'er waving Autumn bend your airv ring, Or waft the fragrant bosom of the Spring. II. " When Morn, escorted by the dancing Hours, 26 O'er the bright plains her dewy lustre showers; Till from her sable chariot Eve serene Drops the dark curtain o'er the brilliant scene ; You form with chemic hands the airy surge, .Mix with broad vans, with shadowy tridents urge. 30 Sylphs .' from each sun-bright leaf, that twinkling shakes O'er Earth's green lap, or shoots amid her lakes, Your pla\-ful bands with simpering lips invite, And wed the enamour'd Oxygen e to Light. — Round their white necks with fingers interwove, 35 Cling the fond Pair with unabating love ; The enamour'd Oxygene. 1. 34. The common air of the atmosphere ap- pears, by the analysis of Dr. Priestley, and other philosophers, to consist of about three parts of an elastic fluid, unfit for respiration or combustion, called azote by the French school, and about one fourth of pure vital air, fit for the support of animal life and of combustion, called oxygene. The princi- pal source of the azote is probably from the decomposition of all vegetable and animal matters, by putrefaction and combustion : the principal source of vital air, or oxygene, is, perhaps, from the decomposition of water in the organs of vegetables, by means of the sun's light. The difficulty of injecting vegetable vessels seems to show, that their perspirative pores are much less than those of animals, and that the water which constitutes their perspiration is so divided at the time of its exclusion, that, by means of the sun's light, it becomes decomposed; the inflammable air, or hydrogene, which is one of its constituent parts, being retained to form the oil, resin, wax, honey, &c. of the vegetable economy ; and the other part, which, united with light or heat, becomes vital air, or oxygene gas, rises into the atmosphere, and re- plenishes it with the food of life. Dr. Priestley 1ms evinced, by very ingenious experiments, that the blood gives out phlogiston, and receives vital air, or oxygene gas, b) the lungs. And Dr. Crawford has shown, that the blood acquires heat from this vital ail in - ;piration There is, however, still a something more subfile than heat, which must be obtained in respiration from the vital air; a something which life cannot exist a few minutes without, which seem, necessary to the .. v. ell as to the animal world, and which, as no • can confin srpctuallv to l>e renewed Canto J I 401. andaddii onal — . No. XXXIV. Canto IV. ECONOMY OF VEGETATION. 103 Hand link'd in hand on buoyant step they rise, And soar and glisten in unclouded skies. Whence in bright floods the Vital Air expands, And with concentric spheres involves the lands ; 40 Pervades the swarming seas, and heaving earths, Where teeming Nature broods her mvriad births ; Fills the fine lungs of all that breathe or bud, Warms the new heart, and dyes the gushing blood ; With Life's first spark inspires the organic frame, 45 And, as it wastes, renews the subtile flame. " So pure, so soft, with sweet attraction shone Fair Psyche, kneeling at the ethereal throne ; Won with coy smiles the admiring court of Jove, And warm'd the bosom of unconquer'd Love.—" 50 Beneath a moving shade of fruits and flowers Onward they march to Hymen's sacred bowers ; With lifted torch he lights the festive train, Sublime, and leads them in his golden chain ; Joins the fond pair, indulgent to their vows, 55 And hides with mystic veil their blushing brows. Round their fair forms their mingling arms they fling, Meet with warm lip, and clasp with rustling wing.— — Hence plastic Nature, as Oblivion whelms Her fading forms, repeoples all her realms ; 60 Soft Joys disport on purple plumes unfurl'd, And Love and Beauty rule the willing world. III. 1. " Sylphs ! your bold myriads on the withering heath Stay the fell Syroc's suffocative breath ; Arrest Simoom in his realms of sand, 65 The poison'd javelin balanced in his hand ; — > Fair Psyche. 1. 48. Described from an ancient gem, on a fine onyx, in possession of the Duke of Marlborough, of which there is a beautiful print in Bryant's Mythol. vol. ii. p. 392. And from another ancient gem of Cupid and Psyche embracing, of which there is a print in Spence's Polymetis, p. 82. Repeoples all her realms. 1. 60. Qux mare navigerum et terras firagiferentes Concelebras ; per te quoniam genus omne animantum Concipitur, visitque exortum lumina solis. Lucret. Arrest Simoom. 1. 65. " At eleven o'clock, while we were, with great Part I. Q lOt BOTANIC GARDE.V Pa*I I Fierce on blue streams he rides the tainted air, Points his keen eve, and waves his whistling hair: While, as he turns, the undulating soil Rolls in red waves, and billowy deserts boil. 70 You seize Tornado by his locks of mist, Burst hi* dense clouds, his wheeling spires untwist; Wide o'er the West, when borne on headlong g Dark as meridian night, the Monster sails, Howls high in air, and shakes his curled brow, 78 Lashing with serpent -train the waves below, pleasure, contemplating the rugged tops of Chiggre, where we expected to olace ourselves with plenty of good water, Idris cried out, with a loud voice, ■ Fall upon your faces, for here is the simoom !' I saw from the S. E. a haze >:ome in colour like the purple part of a rainbow, but not so compressed or thick; it did not occupy twenty yards in breadth, and was about twelve feet high from the ground. It was a kind of a blush upon the air, and it moved very rapidly, for I scarce could turn to fall upon the ground, with my head to the northward, when I felt the heat of its current plainly upon my face. We all lay flat upon the ground, as if dead, till Idris told us it ivas blown over. The meteor, or purple haze which I saw, was indeed passed, but the light air that still blew, was of heat to threaten suffocation. For my part, I found distinctly in my breast, that I hud imbibed a part of it ; nor was I free of an asthmatic sensation till I had been some months in Italy." Druce's Travels, vol. iv. p. 557. It is difficult to account for the narrow track of this pestilential wind, which is 3aid not to exceed twenty yards, and for its small elevation of twelve feet. A whirlwind will pass forwards, and throw down an avenue of trees, by its quick revolution, as it passes ; but nothing like a whirlwind is described as happening in these narrow streams of air, and whirlwinds as- cend to greater heights There seems but one known manner in which this channel of air could be effected, and that is by electricity. The volcanic origin of these winds is mentioned in the note on Chunda, in vol. ii. of this work : it must here be added, that Professor Vairo, at Na- ples, found, that during the eruption of Vesuvius, perpendicular iron bars were electric ; and others have observed suffocating damps to attend these eruptions. Ferber's Travels in Italy, p. 133. And, lastly, that a current of air attends the passage of electric matter, as is seen in presenting an elec- trized point to the. flame of a candle. In Mr. Bruce's account of this si- moom, it was in its course over a quite dry desert of sand (and which was, in consequence, unable to conduct an electric stream ir.to the earth beneath it), to some moist rocks at but a few miles distance, and thence would ap- pear to be a stream of electricity from a volcano, attended with noxious air : and as the bodies of Mr. Bruce and his attendants were insulated on the -and, they would not be sensihle of their increased electricity, as it passed ovef them ; to which it may be added, that a sulphurous or suffocating sen- ad in accompany flashes of lightning, and even strong sparks of artificial electricity. In the above account of the simoom, a great redness in the hi i Baid to be a certain sign of its approach, which ma\ be occasioned rom a distant volcano in these extensive and irope netrable deserts of band. Sec note on 1. 292 of this Canto, I. See additional notes, No. XX XIII CantoIV. ECONOMY OF VEGETATION, 105 Whirls his black arm, the forked lightning flings, And showers a deluge from his demon-wings. 2. " Sylphs! with light shafts you pierce the drowsy Fog, That lingering slumbers on the sedge-wove bog, 80 With webbed feet o'er midnight meadows creeps, Or flings his haiiy limbs on stagnant deeps. You meet Contagion issuing from afar, And dash the baleful conqueror from his car ; When Guest of Death ! from charnel vaults he steals., 85 And bathes in human gore his armed wheels- " Thus when the Plague, upborne on Belgian air, Look'd through the mist, and shook his clotted hair ; O'er shrinking nations steer'd malignant clouds, And rain'd destruction on the gasping crowds. 9.0 The beauteous tEgle felt the venom'd dart, Slow roll'd her eye, and feebly throbb'd her heart ; Each fervid sigh seem'd shorter than the last, And starting Friendship shunn'd her as she pass'cL — With weak unsteady step the fainting Maid 9$ Seeks the cold garden's solitary shade, Sinks on the pillowy moss her drooping head, And prints with lifeless limbs her leafy bed. — On wings of Love her plighted Swain pursues, Shades her from winds, and shelters her from clews, 100 Extends on tapering poles the canvass roof, Spreads o'er the straw-wove mat the flaxen woof, Sweet buds and blossoms on her bolster strows, And binds his 'kerchief round her aching brows j On stagnant deeps. 1. 82. All contagious miasmata originate either from animal bodies, as those of the small-pox, or from putrid morasses; these latter produce agues in the colder climates, and malignant fevers in the warmer ones. The volcanic vapours which cause epidemic Coughs are to be ranked amongst poisons, rather than amongst the miasmata, which produce contagious diseases. The beauteous JEgie. 1. 91. When the plague raged in Holland, in 1636, a young girl was seized with it, had three carbuncles, and was removed to a garden, where her lover, who was betrothed to her, attended her as a nurse, and slept with her as his wife. He remained uninfected, and she recovered, and was married to him. The storv is related by Vine. Fabricius, in th* Misc. Cur. Ann. II. Obs. 188. loG BOTANIC GARDEN. Pari I. Sooths with soft kiss, with tender accents charms, 105 Anil clasps the- bright infection in his arms. — With pale and languid smiles the grateful Fair Applauds his virtues, and rewards his care; Mourns with wet cheek her fair companions fled On timorous step, or numbered with the dead; 1 10 Calls to her bosom all its scatter'd rays, And pours on Tiiyrsis die collected blaze; Braves the chill night, caressing and caress'd, And folds her Hero-lover to her breast. — Less bold, Leander, at the dusky hour 115 Eyed, as he swam, the far love -lighted tower ; Breasted with struggling arms the tossing wave, And sunk benighted in the watery grave. Less bold Tobias claim'd the nuptial bed Where seven fond Lovers by a Fiend had bled ; 120 And drove, instructed by his Angel-Guide, The enamour'd Demon from the fatal bride. — — Sylphs ! while your winnowing pinions fann'd the air, And shed gay visions o'er the sleeping pair ; Love round their couch effused his rosy breath, 125 And with his keener arrows conquer'd Death. IV. 1. " You charnVd, indulgent Sylphs i their learned toil. And crown'd with fame your Torricell and Boyle ; Torricell and Boyle. 1. 128. The pressure of the atmosphere was discovered by Torricelli, a disciple of Galileo, who had previously found that the air had weight. Dr. Hook, and M. du Hamel, ascribe the invention of the air- pump to Mr. Boyle, who, however, confesses he had some hints concerning its construction from de Guerick. The vacancy at the summit of the haro- ineter is termed the Torricellian vacumn, find the exhausted receiver of an air-pump, the Boylean vacuum, in honour of these two philosophers. The mist and descending dew which appear at first exhausting the receiver of an air-pump, are explained in the Phil. Trans, vol l.wviii. from produced by the expansion of air. For a thermometer placed in tlu sinks some degrees; and in a very little time, as soon as a sullicient quantity of heal can be acquired from the surrounding bodies, the dew becomes again taken up. See additional note:, No. VII. Mr. Saussure observed, en plac- jrometer in a receiver of an air-pump, that thought on beginning ■ it, tin.- air became misty, and parted with its moisture. \ei tlu hair of Ins hygrometer contracted, and the instrument pointed to greater dr> - i. unexpected occurrence is explained b \nnalesde Chimie, torn, v.) to depend on the want of the usual pressure of the atnos- aqucous particles into the pores of the hair ; and Mr. Saus- Canto IV. ECONOMY OF VEGETATION. 10 Taught with sweet smiles, responsive to their prayer. The spring and pressure of the viewless air. 13< — How up exhausted tubes bright currents flow Of liquid silver from the lake below, Weigh the long column of the incumbent skies, And with the changeful moment fall and rise. — How, as in brazen pumps the pistons move, 13 The membrane-valve sustains the weight above ; Stroke follows stroke, the gelid vapour falls, And misty dew-drops dim the crystal walls ; Rare and more rare expands the fluid thin, And Silence dwells with Vacancy within.— 14 So in the mighty Void with grim delight Primeval Silence reign'd with ancient Night. 2. " Sylphs ! your soft voices, whispering from the skies, Bade from low earth the bold Mongolfier rise ; Outstretch'd his buoyant ball with airy spring, 14 And bore the Sage on levity of wing ; — Where were ye, Sylphs ! when on the ethereal main Young Rosiere launch'd, and call'd your aid in vain ? Fair mounts the light balloon, by Zephyr driven, Parts the thin clouds, and sails along the heaven ; 15 sure supposes, that his vesicular vapour requires more time to be re-dissolved than is necessary to dry the hair of his thermometer. Essais sur 1'Hygrom. p. 226. But I suspect there is a less hypothetical way of understanding it : when a colder body is brought into warm and moist air (as a bottle of spring- water, for instance), a steam is quickly collected on its surface : the contrary occurs when a warmer body is brought into cold and damp air ; it continues free from dew so long as it continues warm ; for it warms the atmosphere around it, and renders it capable of receiving, instead of parting with mois- ture. The moment the air becomes rarefied in the receiver of the air-pump, it becomes colder, as appears by the thermometer, and deposits its vapour ; but the hair of Mr. Saussure's hygrometer is now warmer than the air in which it is immersed, and, in consequence, becomes dryer than before, by warming the air which immediately surrounds it, a part of its moisture eva- porating along with its heat. Toung Rosiere tauneb'd. 1. 148. M. Pilatre du R.osicre, with a M. Romain. rose in a balloon from Boulogne, in June, 1785, and after having been about a mile high for about half an hour, the balloon took fire, and the two adven- turers were dashed to pieces on their fall to the ground. M. Rosiere was a philosopher of great talents and activity, joined with such urbanity and ele- gance of manners, as conciliated the affections of his acquaintance, and ren- dered his misfc-rume universally lamented. Annual Register for 1784 and 1785, p. 329. i08 BOTANIC GARDEN. Part I Higher and yet higher the expanding bubble flies, Lights with quick flush, and bursts amid the skies.— lit ;u Hong he rushes through the affrighted Air With limbs distorted, and dishevel' d hair, Whirls round and round, the flying crowd alarms, 15o And Death receives him in his sable arms ! — Betrothed Beauty, bending o'er his bier, Breathes the loud sob, and sheds the incessant tear ; Pursues the sad procession, as it moves Through winding avenues and waving groves ; 16G Hears the slow dirge amid the echoing aisles, And mingles with her sighs discordant smiles. Then with quick step advancing through the gloom, " I come !" she cries, and leaps into his tomb. " Oh, stay ! I follow thee to realms above ! — 1 6 j " Oh, wait a moment for thy dving love ! — ■ " Thus, thus I clasp thee to my bursting heart ! — u Close o'er us, holy Earth ! — We will not part !" — So erst with melting wax and loosen'd strings Sunk hapless Icarus on unfaithful wings ; 170 His scatter'd plumage danced upon the wave, And sorrowing Mermaids deck'd his watery grave ; O'er his pale corse their pearly sea-flowers shed, And strew'd with crimson moss his marble bed ; Struck in their coral towers the pausing bell, :7a And wide in ocean toll'd his echoing knell. Betrothed Beauty. 1. 157. Miss Susan Dyer was engaged, in a. few days, to many M. Rosiere, who had promised to quit such dangerous experiment;, in future : — she was spectatress of this sud accident, lingered some months, and died from excess of grief. The Rev. Mr. Collier, Senior Fellow of Tri- nity College, in Cambridge, was well acquainted with this amiable young lady, and suggested the introduction of her melancholy history in this place. And Viide in ocean. 1. 176. Denser bodies propagate vibration or sound better than rarer ones ; if two stones be struck together under the water, they may be heard a mile or two by any one whose head is immersed at that dis- tance, according to an experiment of Dr. Franklin. If the car be applied to one end of a long beam of timber, the stroke of a pin at the other end be- comes sensible; if a poker be suspended in the middle of a garter, each end of wh'u-h r. pressed .i",:t',nst the ear, the least percussions on the poker give great Bounds. And, 1 am informed, by laying the ear on the ground, the tread of a horse may he discerned at a great distance in the night. The organs of hearing belonging to fish, are for this reason much less complicated than of quadrupeds, a;, the fluid they are immersed insomuch better con- izations. And, it is probable, that some shellifish which hs*Q Canto IV. ECONOMY OF VEGETATION. 105 V. " Sylphs ! you, retiring to sequester'd bowers, Where oft your Priestley woos your air}' powers, On noiseless step or quivering pinion glide, As sits the Sage with Science by his side ; 1 80 To his charm'd eye in gay undress appear, Or pour your secrets on his raptured ear. How nitrous Gas, from iron ingots driven, Drinks with red lips the purest breath of heaven ; How, while Conferva, from its tender hair, 1 85 Gives in bright bubbles empp-ean air, twisted shells, like the cochlea, and semicircular canals of the ears of men: and quadrupeds, may have no appropriated organ for perceiving the vibrations of the element they live in, but may, by their spiral form, be, in a manner all ear. Where oft your Priestley . 1. 178. The fame of Dr. Priestley is known in e^lry part of the earth where science has penetrated. His various discove- ries respecting the analysis of the atmosphere, and the production of variety of new airs or gasses, can only be clearly understood by reading his Experi- ments on Airs, (3 vols, octavo. Johnson. Lond.) The following are amongst his many discoveries. 1. The discovery of nitrous and dephlogisticated airs. 2. The exhibition of the acids and alkalies in the form of air. 3. Ascer- taining the purity of respirable air by nitrous air. 4. The restoration of vitiated air by vegetation. 5. The influence of light to enable vegetables to yield pure air. 6. The conversion, by means of light, of animal and veget- able substances, that would otherwise become putrid and offensive, into nou- rishment of vegetables. 7. The use of respiration by the blood parting with phlogiston and imbibing dephlogisticated air. The experiments here alluded to are, 1. Concerning the production ol nitrous gas from dissolving iron, and many other metals in nitrous acid 5 which, though first discovered by Dr. Hales (Static. Ess. vol. i. p. 224), was fully investigated, and applied to the important purpose of distinguishing the purity of atmospheric air by Dr. Priestley. When about two measures of common air, and one of nitrous gas, are mixed together, a red effervescence takes place, and the two airs occupy about one fourth less space than was previously occupied by the common air alone. 2. Concerning the green substance which grows at the bottom of reser- voirs of water, which Dr. Priestley discovered to yield much pure air when the sun shone on it. His method of collecting this air is by placing over the green substance, which he believes to be a vegetable of the genus conferva,, an inverted bell-glass previously filled with water, which subsides as the air arises : it has since been found that all vegetabks give up pure air from their leaves, when the sun shines upon them, but not in the night, which may be owing to the sleep of the plant. 3. The third refers to the great quantity of pure air contained in the calces of metals. The calces were long known to weigh much more than the metallic bodies before calcination, insomuch that 100 pounds of lead will pro- duce 112 pounds of minium ; the ore of manganese, which is always found near the surface of the earth, is replete with pure air, which is now used for Hie purpose of bleaching. Other metals, when exposed to the atmosphere,, attract the pure air from it, and become calces by its combination, as zinc \ead , iron ; and increase in weight in proportion to the air whirh they imbibe. no BOTANIC GARDEN. Part I. The crystal floods phlogistic ores calcine, And the pure Ether marries with die Mini . " So in Sicilians ever-blooming shade, When playful Proserpine from Ceres stray 'd, 190 Led with unwary step her virgin trains OVr Etna's steeps, and Enna's golden plains ; Pluck'd with fair hand the silver-blossonTd bower, And purpled mead, — herself a fairer flower ; Sudden, unseen amid the twilight glade, 195 Rush'd gloomy Dis, and seized the trembling maid. — Her starting damsels sprung from mossy seats, DrOpp'd from their gauzy laps the gather'd sweets, Clung round the struggling Nymph, with piercing cries, Pursued the chariot, and invok'd the skies ; — 200 Pleased as he grasps her in his iron arms, Frights with soft sighs, with tender words alarms, The wheels descending roll'd in smoky rings, Infernal Cupids flappM their demon wings ; Earth with deep yawn received the Fair, amazed, 205 And far in Night celestial Beauty blazed. VI. " Led by the Sage, lo ! Britain's sons shall guide Huge Sea-Balloo7is beneath the tossing tide ; When playful Proserpine. 1. 190. The fable of Proserpine's being seized by Pluto as she was gathering flowers, is explained by Lord Bacon to signify the combination or marriage of ethereal spirit with earthly materials. Bacon's Works, vol. v. p. 470. edit. 4to. Lond. 1778. This allusion is still more curi- ously exact, from the late discovery of pure air being given up from vegeta- bles, and that then, in its unmixed state, it more readily combines with me- tallic or inflammable bodies. From these fables, which were probably taken from ancient hieroglyphics, there is frequently reason to believe, that the Egyptians possessed much chemical knowledge, which, for want of alpha- betical writing, perished with their philosophers. Led by the Sage. 1. 207. Dr. Priestley's discovery of the production of pine air from such variety of substances will probably soon be applied to the improvement of the diving-bell, as the substances which contain vital air in immense quantities are of little value, as manganese and minion* See additional notes, No. XXXIII. In every hundred weight of minium ombined about twelve pounds of pure air; now, as sixty pounds of about a cubic Lout, and as air is eight hundred times lij ht of minium wiU produce eight hundred cubic feet of air, or about six thousand gallons. Now, as this is at least tin as armosphi ri< air, a pallon of it may be suppo cd ■ e minutes Canto IV. ECONOMY OF VEGETATION. Ill The diving castles, roof'd with spheric glass, Ribb'd with strong oak, and barr'd with bolts of brass, 210 Buov'd with pure air shall endless tracts pursue, And Priestley's hand the vital flood renew.— Then shall Britannia rule the wealthy realms, Which Ocean's wide insatiate wave o'erwhelms j Confine in netted bowers his scaly flocks, 215 Part his blue plains, and people all his i-ocks. Deep, in warm waves beneath the Line that roll, Beneath the shadowy ice-isles of the Pole, Onward, through bright meandering vales, afar, Obedient Sharks shall trail her sceptred car, 220 With harness'd necks the pearly flood disturb, Stretch the silk reign, and champ the silver curb ; Pleased round her triumph wondering Tritons plav, And Sea-maids hail her on the watery way. — Oft shall she weep beneath the crystal waves 225 O'er shipwreck'd lovers weltering in their graves ; Mingling in death the Brave and Good behold With slaves to glory, and with slaves to gold ; Shrined in the deep shall Day and Spalding mourn. Each in his treacherous bell, sepulchral urn ! — 230 minium, by vitriolic acid, without the application of some heat ; this is, how- ever, very likely soon to be discovered, and will then enable adventurers to journey beneath the ocean in large inverted ships, or diving balloons. Mr. Boyle relates, that Cornelius Drebelle contrived not only a vessel to be rowed under water, but also a liquor to be carried in that vessel which would supply the want of fresh air. The vessel was made by order of James I. and carried twelve rowers besides passengers. It was tried in the river Thames, and one of the persons who was in that submarine voyage told the particulars of the experiments to a person who related them to Mr. Boyle. Annual Register for 1774, p. 248. Day and Spalding mourn. 1. 229. Mr. Day perished in a diving-bell, or diving-boat, of his own construction, at Plymouth, in June, 1774, in which he was to have continued, for a wager, twelve hours, one hundred feet deep in water, and probably perished from his not possessing all the hydrostatic knowledge that was necessary. See note on Ulva, vol. ii. of this work. See Annual Register for 1774, p. 245. Mr Spalding was professionally ingenious in the art of constructing and managing the diving-bell, and had practised the business many years with success. He went down, accompanied by one of his young men, twice, to view the wreck of the Imperial East-Indiaman, at the Kish bank, in Ireland. On descending the third time, in June, 1783, they remained about an hour under water, and had two barrels of air sent down to them ; but, on the sig- nals from below not being again repeated, after a certain time, thev were Part I. R BOTANIC GARDEN. Pari I Oft o'er thy lovely daughters, hapless Pierce ! Her sighs shall breathe, her sorrows clew their hearse.— With brow upturn'd to Heaven, ' We xvill not part /' He cried, and clasp'd them to his aching heart. — -— Dash'd in dread conflict on the rocky grounds, 23J Crash the shock'd masts, the staggering wreck rebounds ; Through gaping seams the rushing deluge swims, Chills their pale bosoms, bathe3 their shuddering limbr., Climbs their white shoulders, buoys their streaming hair, And the last sea-shriek bellows in the air. — 240 Each with loud sobs her tender sire caress'd, And gasping strain'd him closer to her breast !— — Stretch' d on one bier they sleep beneath the brine, And their white bones with ivory arms intwine ! VII. " Sylphs of. nice ear! with beating wings you guide The fine vibrations of the aerial tide ; 24& Join in sweet cadences the measured words, Or stretch and modulate the trembling cords. You strung to melody the Grecian lyre, Breathed the rapt song, and fann'd the thought of fire, 250 Or brought in combinations, deep and clear, Immortal harmony to Handel's ear. — Tou with soft breath attune the vernal gale, When breezy evening broods the listening vale ; Or wake the loud tumultuous sounds, that dwell ■■'■>■' In Echo's many-toned diumal shell. Tou melt in dulcet chords, when Zephvr rings The Eolian Harp, and mingle all its strings ; drawn up by their assistants, and both found dead in the bell. Annual Re* gister for 1783, p. 206. These two unhappy events may, for a time, cheek the ardour of adventurers in traversing the bottom of the ocean; but, it is probable, in another half century it may be safer to travel under the ocean than over it, since Dr. Priestley's discovery of procuring pure air in auch great abundance from the calces of inetals. Uapless Pierct .' 1.231. The Halsewell, East-Indiaman, outward bound; was wrecked oil' Seacomb, in the isle of Purbec, on the 6th of Januan , 17S6, when Capt. Pierce, the commander, with two young ladies, his daughters, and the greatest p;irt of the crew and passengers, perished in the sea. Some of the officers, and about seventy seamen, escaped with great difficult) on the rocks; but C ipt. Fierce, finding it was impossible to save the lives of tAJ young ladies, rolu:cd to quit the ship, and perished with their. Ca>jtoIV. ECONOMY OF VEGETATION. Ill Or trill in air the soft symphonious chime, When rapt Cecilia lifts her eye sublime, 260 Swell, as she breathes, her bosom's rising snow, O'er her white teeth in tuneful accents flow ; Through her fair lips, on whispering pinions move, And form the tender sighs that kindle love ! *' So playful Love on Ida's flowery sides 265 With ribbon-rein the indignant Lion guides; Pleased on his brinded back the lyre he rings, And shakes delirious rapture from the strings ; Slow as the pausing Monarch stalks along, Sheaths his retractile claws, and drinks the song ; 270 Soft Nymphs on timid step the triumph view, And listening Fawns with beating hoofs pursue ; With pointed ears the alarmed forest starts, And Love and Music soften savage hearts. VIII. " Sylphs ! your bold hosts, when Heaven with justice dread 2/5 Calls the red tempest round the guilty head, Fierce at his nod assume vindictive forms, And launch from airy cars the vollied storms. — < From Ashur's vales when proud Senacherib trod, Pour'd his swoln heart, defied the living God, 280 Urged with incessant shouts his glittering powers, And Judah shook through all her massy towers ; Round her sad altars press'd the prostrate crowd, Hosts beat their breasts, and suppliant chieftains bow'd ; Loud shrieks of matrons thrill'd the troubled air, 285 And trembling virgins rent their scatter'd hair ; High in the midst the kneeling King adored, Spread the blaspheming scroll before the Lord, Raised his pale hands, and breathed his pausing sighs, And fix'd on Heaven his dim imploring eyes, — .290 *' Oh ! Mighty God ! amidst thy Seraph-throng ■ c Who sit'st sublime, the Judge of Right and Wrong ; Indignant Lion guides. 1.266. Described from an ancient gem, expressive ftf the comhintd power of love and music, in the Museum Florerrt. 114 BOTANIC GARDEN. Part 1. " Thine the wide earth, bright sun, and starry zone, " That twinkling journey round thy golden throne ; " Thine is the crystal source of life and light, 295 " And thine the realms of Death's eternal night. u Oh ! hind thine ear, thv gracious eye incline, a Lo! Ashur's King blasphemes thy holy shrine, " Insults our offerings, and derides our vows, — *' Oh ! strike the diadem from his impious brows, 300 " Tear from his murderous hand the bloody rod, " And teach the trembling nations, Thou art God !" —Sylphs / in what dread array with pennons broad Onward ye floated o'er the ethereal road, Call'd each dank steam the reeking marsh exhales, 30* Contagious vapours, and volcanic gales, Gave the soft South with poisonous breath to blow, And roll'd the dreadful whirlwind on the foe ! Hark ! o'er the camp the venom'd tempest sings, Man falls on Man, on buckler buckler rings ; 310 Groan answers groan, to anguish anguish yields, And Death's loud accents shake the tented fields ! — High rears the Fiend his grinning jaws, and wide Spans the pale nations with colossal stride, Waves his broad falchion with uplifted hand, 315 And his vast shadow darkens all the land. Volcanic gales . 1. 306. The pestilential winds of the east are described by various authors under various denominations, as harmattan, samiel, samium, syrocca, kamsin, seravansum. M. de Beauchamp describes a remarkable south wind in the deserts about Bagdad, called seravansum, or poison wind ; it burns the face, impedes respiration, strips the trees of their leaves, and is said to pass on in a straight line, and often kills people in six hours. P. Cotte sur la Meteorol. Analytical Review for February, 1"90. M. Volney says, the hot wind, or ramsin, seems to blow at the season when the sands of the deserts are the hottest ; the air is then filled with an extremely subtle dust. Vol. i. p. 61. These winds blow in all directions from the deserts; in Egypt the most violent proceed from the S. S. W. at Mecca, from the E. at Surat, from the N. at Bassora, from the N. W. at Bagdad, from the W. and in Syria, from the S. E. On the south of Syria, he adds, where the Jordan flows, is a country of volcanoes; and it is observed, that the earthquakes in Syria happen alter their rainy season, which is also conformable to a similar observation made In Dr. Shaw, in Barbary. Travels in Egypt, vol. i. p. oU3. These winds seem all to he of volcanic origin, as before mentioned, with this difl'erence, that the simoom is attended with a .stream of electric matter; they seem to be in consequence of earthquakes caused by the monsoon Hoods, which fall on volcanic fires in Syria, at the same time that they inundate the Nile. Canto IV. ECONOMY OF VEGETATION. 115 IX. 1. " Ethereal Cohorts ! Essences of Air ! Make the green children of the Spring your care ! Oh, Sylphs ! disclose in this inquiring age One golden secret to some favour'd sage ; 320 Grant the charm'd talisman, the chain that binds, Or guides the changeful pinions of the winds ! — No more shall hoary Boreas, issuing forth Wirh Eurus, lead the tempests of the North; Rime the pale Dawn, or veil'd in flaky showers 325 Chill the sweet bosoms of the smiling Hours. By whispering Auster waked shall Zephyr rise, Meet with soft kiss, and mingle in the skies, Fan the gay floret, bend the yellow ear, And rock the uncurtain'd cradle of the year ; 330 Autumn and Spring in lively union blend, And from the skies the golden Age descend. 2. " Castled on ice, beneath the circling Bear, A vast Camelion drinks and vomits air ; O'er twelve degrees his ribs gigantic bend, oS5 And many a league his gasping jaws extend ; Half-fish, beneath, his scaly volutes spread, And vegetable plumage crests his head ; Huge fields of air his wrinkled skin receives, From panting gills, wide lungs, and waving leaves ; 340 Then with dread throes subsides his bloated form, His shriek the thunder, and his sigh the storm. One golden secret. 1. 320.- The suddenness of the change of the wind from N. E. to S. W. seems to show that it depends on some minute chemical cause, which, if it was discovered, might probably, like other chemical causes, be governed by human agency, such as blowing up rocks by gun-powder, or extracting the lightning from the clouds. If this could be accomplished, it would be the most happy discovery that ever has happened to these northern latitudes, since in this country the N. E. winds bring frost, and the S. W. ones are attended with warmth and moisture : if the inferior currents of air could be kept perpetually from the S. W. supplied by new productions of air at the line, or by superior currents flowing in a contrary direction, the vege- tation of this country would be doubled, as in the moist vallies of Africa, which know no frost; the number of its inhabitants would be increased, and their lives prolonged ; as great abundance of the aged and infirm of mankind, as well as many birds and animals, are destroyed by severe continued frosts in this climate. A vast Camelion. 1. 334. See additional notes, No. XXXIII. on the de- struction and re-production of the atmosphere. lib BOTANIC GARDEX. Part I. Oft high in heaven the hissing Demon wins His towering course, upborne on winnowing fins ; Steers with expanded eye and gaping mouth, 345 His mass enormous to the affrighted South ; Spreads o'er the shuddering Line his shadowy limbs. And Frost and Famine follow as he swims. — Sylphs ! round his cloud-built couch your bands array, And mould the Monster to your gentle sway ; S50 Charm with soft tones, with tender touches check, Bend to your golden yoke his willing neck, With silver curb his yielding teeth restrain, And give to Kirwan's hand the silken reign. — Pleased shall the Sage, the dragon-wings between, 35S Bend o'er discordant climes his eve serene, With Lapland breezes cool Arabian vales, And call to Hindostan antarctic gales, Adorn with wreathed ears Kampschatca's brows, And scatter roses on Zealandic snows, 360 Earth's wondering Zones die genial seasons share. And nations hail him * Monarch of the Air.' X. 1. " SylpJis ! as you hover on ethereal wing, Brood the green children of parturient Spring ! — Where in their bursting cells my Embryons rest, 365 I charge you guard the vegetable nest ; Count with nice eye the mvriad Seeds, that swell Each vaulted womb of husk, or pod, or shell ; To Kiribati's band. I. 354. Mr. Kirwan has published a valuable treatise on the temperature of climates, as a step towards investigating the theory of the winds, and has since written some ingenious paper6 on this subject, in the Transactions of the Royal Irish Society. The myriad Seeds. 1. "67. Nature would seem to have been wonderfully prodigal in the seeds of vegetables, and the spawn of Bab ; almost any one plant, if all its seeds should grow to maturity, would, in a few years, alone people the terrestrial globe. Mr. Ray asserts that 101J seeds of tobacco vc ghed only one grain, and that from one tobacco plant the seeds thus cal- culated amounted to 360,000. The seeds of the ferns are by him supposed to exceed a million on a leaf. As the works of nature are governed by ge- nernl laws, this exuberant re-production prevents the accidental extinction cf the species, at the same time that they serve for food for the higher order! of animation. Every teed possesses a reservoir of nutriment designed for the growth of Canto IV. ECONOMY OF VEGETATION. 117 Feed with sweet juices, clothe with downy hair, Or hang, inshrined, their little orbs in air. -370 " So, late descry'd by Herschel's piercing sight, Hang the bright squadrons of the twinkling Night ; Ten thousand marshal'd stars, a silver zone, Effuse their blended lustres round her throne ; Suns call to suns, in lucid clouds conspire, 3Z5- And light exterior skies with golden fire j Resisdess rolls the illimitable sphere, And one great circle forms the unmeasured year. —Roll on, ye Stars ! exult in youthful prime, Mark with bright curves the printless steps of Time ; 380 Near and more near your beamy cars approach, And lessening orbs on lessening orbs encroach ;— Flowers of the sky! ye too to age must yield, Frail as your silken sisters of the field ! Star after star from Heaven's high arch shall rush, ,383 Suns sink on suns, and systems systems crush, Headlong, extinct, to one dark centre fall, And Death, and Night, and Chaos mingle all ! — Till o'er the wreck, emerging from the storm, Immortal Nature lifts her changeful form, 09Q Mounts from her funeral pyre on wings of flame, And soars and shines, another and the same. the future plant; this consists of starch, mucilage, or oil, within the coat o£ the seed, or of sugar and sub-acid pulp in the fruit, which belongs to it. For the preservation of the immature seed, nature has used many ingeni- ous methods; some are wrapped in down, as the seeds of the rose, bean, and cotton-plant ; others are suspended in a large air-vessel, as those of the blad» der-sena, staphylaea, and pea. And light exterior. 1. 376. I suspect this line is from Dwight's Conquest: of Canaan, a poem written by a very young man, and which contains much fine versification. Near and more near. I. 381. From the vacant spaces in some parts of the heavens, and the correspondent clusters of stars in their vicinity, Mr. Her- chel concludes that the nebulae, or constellations of fixed stars, are approach- ing each other, and must finally coalesce in one mass. Phil. Trans, vol. lxxv. Till o'er the wreck. 1. 389. The story of the phoenix rising from its own ashes, with a twinkling star upon its head, seems to have been an ancient hieroglyphic emblem of the destruction and resuscitation of all things. There is a figure of the great Platonic year, with a phoenix on his hand; on tJic reverse of a medal of Adrian. Spence's Polym. p. 189, 118 BOTANIC GARDEN. Part I. 2. " Lo ! on each Seed within its slender rind Life's golden threads in endless circles wind ; Maze within maze the lucid webs are roll'd, 395 And, as they burst, the living flame unfold. The pulpv acorn, ere it swells, contains The Oak's vast branches in its milky veins ; Each ravel'd bud, fine film, and fibre-line Traced with nice pencil on the small design. 400 The young Narcissus, in its bulb compress'd, Cradles a second nestling on its breast ; In whose fine arms a younger embryon lies, Folds its thin leaves, and shuts its floret-eyes ; Grain within grain successive harvests dwell, 403 And boundless forests slumber in a shell. — So yon grey precipice, and ivy'd towers, Long winding meads, and intermingled bowers, Green files of poplars, o'er the lake that bow, And glimmering wheel, which rolls and foams below, 410 In one bright point with nice distinction lie Plann'd on the moving tablet of the eye. — So, fold on fold, Earth's wavy plains extend, And, sphere in sphere, its hidden strata bend ;— Maze within maze. 1.395. The elegant appearance, on dissection, of the young tulip in the bulb, was first observed by Mariotte, and is mentioned in the note on Tulipa, in vol. ii. and was afterwards noticed by Uu Hamel. Acad- Scien. Lewenhoeck assures us, that in the bud of a currant-tree he could not only discover the ligneous part, but even the berries themselves, appear- ing like small grapes. Chamb. Diet. art. Bud. Mr. Baker says he dissected a seed of trembling grass in which a perfect plant appeared, with its root sending forth two branches, from each of which several leaves, or blades of grass, proceeded. Microsc. vol. i. p. 252. Mr. Bonnet saw four genera- tions of successive plants in the bulb of a hyacinth. Bonnet Corps Organ, vol. i. p. 103. Mailer's Physiol, vol. i. p. 91. In the terminal bud of a horse-chesnut the new flower may be seen by the naked eye, covered with a mucilaginous down, and the same in the bulb of a narcissus, as I this morn- ing observed in several of them sent me by Miss , for that purpose. Sept 16. Mr. Ferber speaks of the pleasure he received in observing in the buds of hepaiica and pedicularis hirsuta, yet lying hid in the earth, and in the germs of the shrub daphne mezereon, and at the base of osmunda lunaria, a perfect plant of the future year, discernible in all its parts a \e;ir before it comes forth; and in the seals of nymphea nelumbo, the leaves of the plant weu- seen o distim tly that the author found out by them what plant the seeds be- longed to. The same ol the seeds of the tulip-trcc, or liriodendron tulrpire- rum. Anuen. A< id vol •■ ; . C^vToIV. ECONOMY OF VEGETATION. 119 Incumbent Spring her beamy plumes expands 415 O'er restless oceans, and impatient lands, With genial lustres warms the mighty ball, And the great Seed evolves, disclosing all; Lift, buds or breathes from Indus to the Poles, And the vast surface kindles as it rolls ! 420 3. " Come, ye svft Sylphs ! who sport on Latian land, Come, sweet-lip'd Zephvr, and Favonius bland ! Teach the fine Seed, instinct with life, to shoot On Earth's cold bosom its descending root ; With Pith elastic stretch its rising stem, 425 Part the twin Lobes, expand the throbbing Gem ; Clasp in your airy arms the aspiring Plume, Fan with your balmy breath its kindling bloom, Each widening scale and bursting film unfold, Swell the green cup, and tint the flower with gold ; 430 And the great Seed. 1. 418. Alluding to the it^oroi wov, or first great egg of the ancient philosophy; it had a serpent wrapped round it, emblematical of divine wisdom ; an image of it was afterwards preserved, and worshipped in the temple of Dioscuri, and supposed to represent the egg of Leda. See a print of it in Bryant's Mythology. It was said to have been broken by the horns of the celestial bull ; that is, it was hatched by the warmth of the spring. See note on Canto I. 1. 413. And the vast surface. 1. 420. L 'Organization, le sentiment, le movement spontane - , la vie, n'existent qu'a. la surface de la terre, et dans le lieux ex- poses a. la lumiere. Traite de Chymie par M. Lavoisier, torn. i. p. 202. Teach the fine Seed. 1. 423. The seeds, in their natural state, fall on the surface of the earth, and, having absorbed some moisture, the root shoots itself downwards into the earth, and the plume rises in air. Thus each en- deavouring to seek its proper pabulum, directed by a vegetable irritability similar to that of the lacteal system, and to the lungs in animals. The pith seems to push up or elongate the bud by its elasticity, like the pith in the callow quills of birds. This medulla Linnseus believes to consist of a bundle of fibres, which, diverging, breaks through the bark, yet gela- tinous, producing the buds. The lobes are reservoirs of prepared nutriment for the young seed, which is absorbed by its placental vessels, and converted into sugar, till it has pene- trated with its roots far enough into the earth to extract sufficient moisture, and has acquired leaves to convert it into nourishment. In some plants these lobes rise from the earth, and supply the place of leaves, as in kidney-beans s cucumbers; and hence seem to serve both as a placenta to the foetus, and lungs to the young plant. During the process of germination, the starch of the seed is converted into sugar, as is seen in the process of malting barley for the purpose of brewing; and is, on this account, very similar to the di- gestion of food in the stomachs of animals, which converts all their aliment into a chyle, which consists of mucilage, oil, and sugar. The placentation of buds will be spoken of bsreafttr. Part I. S 120 BOTANIC GARDEN. Par* L- While in bright veins the silver}- Sap ascends, And refluent blood in milky eddies bends ; While, spread in air, the leaves respiring play, Or drink the golden quintessence of day. — So from bis shell on Delta's showerless isle 435 Bursts into life the Monster of the Nile ; First in translucent lymph with cobweb-threads The Brain's fine floating tissue swells, and spreads ; Nerve after nerve the glistening spine descends, The red Heart dances, the Aorta bends ; 440 Through each new gland the purple current glides, New Veins meandering drink the refluent tides; Edge over edge expands the hardening scale, And sheaths his slimy skin in silver mail. — Erewhile, emerging from the brooding sand, 44S With Tvger-paw he prints the brineless strand, High on the flood widi speckled bosom swims, Kelm'd with broad tail, and oar'd with giant limbs ; Rolls his fierce eve-balls, clasps his iron claws, And champs with gnashing teeth his massy jaws ; 450 Old Nilus sighs along his cane-crown'd shores, And swarthy Memphis trembles and adores. XI. " Come, ye soft Sylphs ! who fan the Paphian groves, And bear on sportive wings the callow Loves ; Call widi sweet whisper, in each gale diat blows, 4J5 The slumbering Snow-drop from her long repose ; Charm the pale Primrose from her clay-cold bed, Unveil the bashful Violet's tremulous head ; The silvery Sap. 1. 431. See additional notes, No. XXXV. And refluent blood. 1. 432. See additional notes, No. XXXVI. The leaves respiring play. 1.433. See additional notes, No. XXXVII. Or drink the golden. 1.434. Linnscus, having observed the great influence of light on vegetation, imagined that the leaves of plants inhaled electric matter from the light with their upper surface. (System of Vegetables trans- lated, p. 8). The effect of light on plants occasions the actions of the vegetable muscles of their leaf-stalks, which turn the upper side of the leaf to the light, and which i pen their calyxes and corols, according to the experiments of Abbe /ho exposed variety of plants, in a cavern, to different quantities of light Hist, de L'Academie Royal. Ann. 1783. The sleep or vigilance of plants seems owing lu the presence or absence of this stimulus. See note jn Mimosa, fart II. Canto IV. ECONOMY OF VEGETATION. 121 While from her bud the playful Tulip breaks, And young Carnations peep with blushing cheeks ; 460 Bid the closed Corol from nocturnal cold Curtain'd with silk the virgin Stigma fold, Shake into viewless air the morning dews, And wave in light its iridescent hues. So shall from high the bursting Anther trust 466" To the mild breezes the prolific dust ; Or bow his waxen head with graceful pride, Watch the first blushes of his waking bride. Give to her hand the honey'd cup, or sip Celestial nectar from her sweeter lip ; 470 Hang in soft raptures o'er the yielding Fair, Love out his hour, and leave his life in air. So in his silken sepulchre the Worm, Warm'd with new life, unfolds his larva-form ; Erewhile aloft in wanton circles moves, 475 And woos on Hymen-wings his velvet loves. XII. 1. " If prouder branches with exuberance rude Point their green germs, their barren shoots protrude ; Honey'd cup. 1. 469. The nectary, or honey-gland, supplies food to the vegetable males and females, which, like moths and butterflies, live on the honey thus produced for them, till they have propagated their species, and deposited their eggs, and then die ; as explained in additional note, No. XXXIX. The tops of the stamens, or anthers, are covered with wax, to protect the prolific dust from the injury of showers and dews, to which it is impervious. Love out his hour. 1. 472. The vegetable passion of love is agreeably seen in the flower of the parnassia, in which the males alternately approach and recede from the female ; and in the flower of nigella, or devil in the bush, in which the tall females bend down to their dwarf husbands. But I was this morning surprised to observe, amongst Sir Brooke Boothby's valuable collection of plants at Ashboum, the manifest adultery of several females of the plant Collinsonia, who had bent themselves into contact with the males of other flowers of the same plant in their vicinity, neglectful of their own. Sept. 16, See additional notes, No. XXXVIII. Unfolds his larva-form. 1. 474. The flower bursts forth from its larva, the herb, naked and perfect like a butterfly from its chrysalis; winged with its corol ; wing-sheathed by its calyx ; consisting alone of the organs of repro- duction. The males, or stamens, have their anthers replete with a prolific powder, containing the vivifying fovilla ; in the females, or pistils, exists the ovary, terminated by the tubular stigma. When the anthers burst and shed their bags of dust, the male fovilla is received by the prolific lymph of the Stigma, and produces the seed or egg, which is nourished in the ovary. Sys- ttm of VagetaWes, translated from Linnseus by the Lichfield Society, p. 10. 122 LNIC GARDEN. Pa, Wound them, yt Sylphs.' with little knives, or hind A win ringlet round the swelling rind ; -ISO Bisect with chissel fine the root below, Or bend to earth the inhospitable bough. Wound them, ye Sylphs. 1. 479. Mr. Whitmill advised to bind some of the most vigorous shoots with strong wire, and even some of the large roots; and Mr. Warner cuts what he calls a wild worm about the body of the tree, or scores the bark quite to the wood, like a screw, -with a sharp kni! ley on Gardening, vol. ii. p. 155. Mr. Fitzgerald produced Howers and £i uit on wall-trees by cutting off a part of the bark. Phil 1 rans. Ann. 1 Buffon produced the same effect by a straight bandage put round a branch, Act. Paris, Ann. 1~38; and concludes that an ingraf'ed branch bears better from its vessels being compressed by the callus. A complete cylinder of the bark, about an inch in height, was cut off from the branch of a pear-tree, against a wall, in Mr. Howard's garden, at Lichfield, about five years ago; the circumcised part is new not abo\e half The diameter of the branch above and below it, yet this branch ha of fruit every year since, when the other branches of the tree bore onlj spar- ingly. I lately observed that the leaves of this wounded branch were smaller and paler, and the fruit less in size, and ripened sooner than on the other parts of the tree. Another branch has the bark taken off not quite all round, with much the same effect. The theory of this curious vegetable fact has been esteemed difficult, but receives great light from the foregoing account of the individuality of buds. A flower-bud dies, when it lias perfected its seed, like an annual plant, and hence requires no place on the bark for new roots to pass downwards; but, on the contrary, leaf-buds, as they advance into shoots, form new buds in the axilla of every leaf, which new buds require new roots to pass down the bark, and thus thicken as well as elongate the branch : now, if a wire or string be tied round the bark, many of tliese new roots cannot descend, and thence more of the buds will be converted into Hower-buds. It is customary to debark oak-trees in the spring, which are intended to be filled in the ensuing autumn, because the bark comes off easier at this season, and the sap-wood, or alburnum, is believed to become harder and more durable, if the tree remains till the end of summer. '1 he trees, thus stripped of their bark, put forth shoots as usual, with acorns, on the Oth, 7th, and 8th joint, like vines; but in the branches 1 examined, the joints of the debarked trees were much shorter than those of other oak tins ; •.:.. were more numerous ; and ho new buds were produced above the joints which bore acorns. From hence it appears that the branches of deba>kid oak-trees produce fewer leaf-buds, and more flower-buds ; which last circumstance, I suppose, must depend on their being sooner or later debarked in the vernal months. And, secondly, that the new buds of debarked oak-lra to obtain moisture from the alburnum, after the season of tii< ascent oi s.-.p bles ceases; which, in this unnatural state . .1 tree, may act as capillary tubes, like the alburnum of the small d f a pear-tree above-mentioned ; or ma) continue to acl a as happens to the animal embryon in casi inues a month or two in the womb beyond its usual time, of aces have been recorded, the pla perhapi , th< double ulliee both of nutrition and respiration. Mr. Hitt, in his tre.iti.-~e on fruit-trees, . igorous bianch of a wall-tree be bent to the horizon, or beneath it. Canto IV. ECONOMY OF VEGETATION. 123 So shall each Germ with new prolific power Delay the leaf-bud, and expand the flower ; Closed in the Style the tender Pith shall end, 485 The lengthening Wood in circling Stamens bend ; The smoother Rind its soft embroidery spread In vaulted Petals o'er the gorgeous bed ; The wrinkled bark, in filmv mazes roll'd, Form the green Calyx, fold including fold ; 490 Each widening Bracte expand its foliage hard, And hem the bright pavilion, Floral Guard, — So the cold rill from Cintra's steepy sides, Headlong, abrupt, in barren channels glides ; Round the rent cliffs the bark -bound Suber spreads, 495 And lazy monks recline on corky beds ; Till, led by art, the wondering water moves Through vine-hung avenues, and citron groves ; it loses its vigour, and becomes a bearing branch. The theory of this I sup- pose to depend on the difficulty with which the leaf-shoots can protrude the roots necessar) for their new progeny of buds upwards, along the bended branch, to the earrh, contrary to their natural habits or powers, whence more flower-shoots are produced, which do not require new roots to pass along the bark of the bended branch, but which let their offspring, the seeds, fall upon the earth, and seek roots for themselves. With new prolific paver. 1. 483. About Midsummer the new buds are formed. but it is believed by some of the Linnxan school, that these buds may, in their early state, be either converted into flower-buds or leaf-buds, according to the vigour of the vegetating branch. Thus, if the upper part of a branch be cut away, the buds near the extremity of the remaining stem, having a greater proportional supply of nutriment, or possessing a greater facility of shooting their roots, or absorbent vessels, down the bark, will become leaf-buds, which might otherwise have been flower-buds, and the contrary ; as explained in note on 1. 479 of this Canto. Closed in the Style. 1. 485. " I conceive the medulla of a plant to consist of a bundle of nervous fibres, and that the propelling vital power separates their uppermost extremities. These, diverging, penetrate the bark, which is now gelatinous, and become multiplied in the new germ, or leaf-bud. The ascend- ing vessels of the bark being thus divided by the nervous fibres, which per- forate it, and the ascent of its fluids being thus impeded, the bark is extended into a leaf. But the flower is produced when the protrusion of the medulla is greater than the retention of the including cortical part ; whence the sub- stance of the bark is expanded in the calyx ; that of the rind (or interior bark), in the corol ; that of the wood, in the stamens ; that of the medulla, in the pistil. Vegetation thus terminates in the production of new life, the ultimate medullary and cortical fibres being collected in the seeds." Linnan Systema Veget. p. 6. edit. 14. Cintra. 1. 493. A village on the side of the rock of Lisbon: around the summit are abundance of cork trees, and some excavations, which a few monks inhabit, and sleep on beds or benches of cork ; near the village Mr Beckford has an elegant seat. 1*4 BOTANIC GARDEX. Part I. Green slopes the velvet round its silver source, And flowers, and fruits, and foliage mark its course. 500 At breezv eve, along the irriguous plain The fair Beckfordia leads her virgin train ; Seeks the cool grot, the shadowy rocks among, And tunes the mountain-echoes to her song ; Or prints with graceful steps the margin green, SOS And brighter glories gild the enchanted scene. 2. " Where cruder juices swell the leafy vein, Stint the young germ, the tender blossom stain j On each lopp'd shoot a foster scion bind, Pith press'd to pith, and lind applied to rind ; 510 So shall die trunk with loftier crest ascend, And wide in air its happier arms extend ; Nurse the new buds, admire the leaves unknown, And blushing bend with fruitage not its own. " Thus when in holy triumph Aaron trod, 515 And ofFcr'd on the shrine his mystic rod ; First a new bark its silken tissue weaves, New buds emerging widen into leaves ; Fair fruits protrude, enascent flowers expand, And blush and tremble round the living wand. 520 Nurse the nea buds. 1. 513. Mr. Fairchild budded a passion-tree, whote leaves were spotted with yellow, into one which bears long fruit. The buds did not take ; nevertheless, in a fortnight, yellow spots began to show them- selves about three feet above the inoculation, and in a short time after* .irds yellow 6pots appeared on a shoot which came out of the ground from another part of the plant. Bradley, vol. ii. p. 129. These facts are the more curious, since, from experiments of ingrafting red currants on black (ib. vol. ii.) the fruit does not acquire any change of flavour, and, by many other experiments, neither colour, nor any other change, is produced in the fruit ingrafted on other stocks. There is an apple described in Bradley's work, which is said to have one sideoi it u Bweei fruit, which boils soft, and the other side a sow fruit, which boils hard, which Mr. Bradley, so 1 mg ago as the year 1721, ingeniously as- cribes to the farina of one of these apples impregnating the otter, which m the more probable if we consider that each division of an apple irate womb, and may, therefore, have a separate impregnation, like in <-nc iitur The same is Kaid to have occurred ir. i and lemons, t a erent colours, Canto IV. ECONOMY OF VEGETATION. 12* XIII. 1. " Sylphs ! on each Oak-bud wound the wormy galls With pigmy spears, or crush the venom'd balls ; Fright the green Locust from his foamy bed, Unweave the Caterpillar's gluey thread ; Chase the fierce Earwig, scare the bloated Toad, 525 Arrest the Snail upon his slimy road ; Arm with sharp thorns the Sweet-briar's tender wood. And dash the Cynips from her damask bud ; Steep in ambrosial dews the Woodbine's bells, And drive the Night-moth from her honey 'd cells, 530 So where the Humming-bird in Chili's bowers On murmuring pinions robs the pendent flowers ; Seeks, where fine pores their dulcet balm distil, And sucks the treasure with proboscis-bill j Fair Cyprepedia, with successful guile, 535 Knits her smooth brow, extinguishes her smile i A Spider's bloated paunch and jointed arms Hide her fine form, and mask her blushing charms 5 In ambush sly the mimic warrior lies, And on quick wing the panting plunderer flies. 54G- Their dulcet balm distil. 1. 533. See additional notes, No. XXXIX. Fair Cyprepedia. 1. 535. The cyprepedium from South-America is supposed to be of larger size, and brighter colours, than that from North- America, from which this print is taken ; it has a large globular nectary, about the size of a pigeon's egg, of a fleshy colour, and an incision, or depression, on its upper part, much resembling the body of the large American spider : this globular nectary is attached to divergent slender petals, not unlike the legs of the same animal. This spider is called bv^Linnxus arenea avicularia, with a convex orbicular thorax, the centre transversely excavated ; he adds, that it catches small birds as well as insects, and has the venomous bite of a serpent. System. Natur. torn. i. p. 1034. M. Lonvilliers de Poincy, (Histoire Nat. des Antilles, Cap. xiv. art. III.) calls it Phalange, and describes the body to be the size of a pigeon's egg, with a hollow on its back like a navel, and men- tions its catching the humming-bird in its strong nets. The similitude of this flower to this great spider seems to be a vegetable contrivance to prevent the humming-bird from plundering its honey. About Matlock, in Derbyshire, the fly-ophris is produced, the nectary of which so much resembles the small wall-bee, perhaps the apis ichneumonea, that it may be easily mistaken for it at a small distance. It is probable that by this means it may often escape being plundered. See note on Lonicera in the next poem, and on Epidendrum. A bird of our own country, called a willow-wren (motacilla), runs up the 3tem of the crown-imperial (frittillaria coronalis), and sips the pendulous drops within its petals. This species of motacilla is called by Ray regulus aon crisutiis- White's Hist, of Selborne. BOTANIC (.ARDEN. 2. u Shield dr* young Harvest from devouring Might, Smut's chirk poison, and the Mildew white ; Deep-rooted Mould, and Ergons horn uncouth, And break the- C.mkcTs desolating tooth. First in one point the festering wound confined 345 Mines unperceived heneath the shrivel'd rind ; Then climbs the hranche.s with increasing strength, Spreads as they spread, and Lengthens with their length. — Thus the slight wound, engraved on glass unneaTd, Runs in white lines along the lucid field ; 550 Crack follows crack, to laws elastic just, And the frail fabric shivers into dust. Shield the yoitng Harvest. 1. 541. Linnrtus enumerates but four diseases of plants; Erysyphe, the white mncor, or mould, with sessile tawny heads, with which the leaves are sprinkled, as is frequent on the hop, humulus, maple, acer, Sec. Rubigo, the ferrugineous powder sprinkled under the leaves, frequent in lady's mantle, alchemilla, &c. Clavus, when the seeds grow out into larger horns, black without, as in rye. This is called Ergot by the French writers. Ustulago, when the fruit, instead of seed, produces a black powder, as in barley, oats, &c. To which, perhaps, the honey-dew ought to have been added, and the canker ; in the former of which the nourishing fluid of the plant seems to be exuded by a retrograde motion of the cutaneous lymphatics, as in the sweating sickness of the last century. The latter is a phagedenic tilcer of the bark, very destructive to young apple-trees, and which, in cherry- trees, is attended with a deposition of gum-arabic, which often terminates in the death of the tree. Ergot's born. 1. 543. There is a disease frequently affects the rye in France, and sometimes in England in moist seasons, which is called Ergot, or horn- seed ; the grain becomes considerably elongated, and is either straight or crooked, containing black meal along with the white, and appears to be pierced by insects, which were probably the cause of the disease. Mr. du Hanu! ascribes it to this cause, and compares it to galls on oak-leaves. By the use of this bad grain amongst the poor, diseases have been produced, attended with great debility, and mortification of the extremities, both in France and England. Diet. Raison. arc. Siegle. Phil. Trans. On glass unneal'd. 1. 549. The glass-makers occasionally make what they call proofs, which are cooled hastily ; whereas the other glass vessels are re- moved from wanner ovens to cooler ones, and suffered to cool h . grees, which is called annealing, or nealing them. If an unnealed glass be scratched by even a grain of sand falling into it, it will seem to consider i f it for some time, or even a day, anil will then crack into a thousand pieces. The same happens to a smooth-surfaced lead-ore in Derbyshire ; the work- men having cleared a large face of it, scratch it with picks, and, in a few hours, man) tons of it crack to pieces, and fall with a k.nd ct > Whitehurst's Theor) of the Earth. ropped into cold wa er, called Prince Rupert's drops, explode, when . more suddenly nuked, b cause. Are the internal [*' ic btxliei ( rt/Mrtrta ( ortt//tt/c ftffron Canto IV. ECONOMY OF VEGETATION. 127 XIV. 1. " Sylphs! if with morn destructive Eurus springs, Oh! clasp the Harebel with your velvet wings; S reen with thick leaves the Jasmine as it blows, 555 And shake die white rime from the shuddering Rose - r Whilst Amarvllis turns with graceful ease Her blushing beauties, and eludes the bre. Sylphs ! if at noon the Fritillary droops, With drops nectareous hang her nodding cups ; 560 Thin clouds of gossamer in air display, And hide the vale's chaste Lily from the ray; Whilst Erythrina o'er her tender flower Bends all her leaves, and braves the sultry hour ; — Shield, when cold Hesper sheds his dewy light, 565 Mimosa's soft sensations from the night ; Fold her thin foliage, close her timid flowers, And with ambrosial slumbers guard her bowers ; O'er each warm wall while Cerea flings her arms, And wastes on night's dull eye a blaze of charms. 570 2. " Round her tall Elm with dewy fingers twine The gadding tendrils of the adventurous Vine ; From arm to arm in gay festoons suspend Her fragrant flowers, her graceful foliage bend; kept so far from each other by the external crust, that they are nearly in a state of repulsion, into which state they are thrown by their vibrations from any violence applied ? Or, like elastic balls in certain proportions suspended in contact with each other, can motion, once begun, be increased by their elasticity, till the whole explodes ? And can this power be applied to any mechanical purposes? With ambrosial slumbers. 1. 563. Many vegetables, during the night, do not seem to respire, but to sleep like the dormant animals and insects in win- ter. This appears from the mimosa and many other plants closing U\e upper sides of their leaves together in their sleep, and thus precluding that side of them from both light and air; and from many flowers closing up the polished «r interior side of their petals ; which we have also endeavoured to show to be a respiratory organ. The irritability of plants is abundantly evinced by the absorption and pul- monary circulation of their juices : their sensibility is shown by the approaches of the males to the females, and of the females to the males, in numerous in- stances ; and, as the essential circumstance of sleep consists in the temporary abolition of voluntary power alone, the sleep of plants evinces that they pos- sess voluntary power; which also indisputably appears in many of them, by closing their petals or their leaves during cold, or rain, or darkness, ©r from mechanic violence. Part I. T life BOTANIC GARDEN. p A rr I Swell with sweet juice her vermil orbs, and feed, 575 Shrined in transparent pulp her pearly seed ; Hang round the Orange all her silver bells, And guard her fragrance with Hesperian spells : Bud after bud her polish'd leaves unfold, And load her branches with successive gold. 580 So the learn'd Alchemist exulting sees Rise in his bright matrass Diana's trees ; Drop after drop, with just delay he pours The red-fumed acid on Potosi's ores; With sudden flash the fierce bullitions rise, 585 And wide in air the gas phlogistic flies ; Slow shoot, at length, in many a brilliant mass,. Metallic roots across the netted glass; Branch after branch extend their silver stems. Bud into gold, and blossom into gems. 590 " So sits enthroned in vegetable pride Imperial Kew by Thames's glittering side ; Obedient sails from realms unfurrow'd bring For her the unnamed progeny of spring ; Diana's trees. 1. 582. The chemists and astronomers, from the earliest an- tiquity, have used the same characters to represent the metals and the planets, which were most probably outlines or abstracts of the original hieroglyphic figures of Egypt. These afterwards acquired niches in their temples, and represented gods as well as metals and planets ; whence silver is called Di- ana, or the rnoon, in the books of Alchemy. ■ The process for making Diana's silver tree is thus described by Lemeri. Dissolve one ounce of pure silver in acid of nitre, very pure, and moderately- Strong: mix this solution with about twenty ounces of distilled water; add to this two ounces of mercury, and let it remain at rest. In about four days there will form upon the mercury a tree of silver, with branches imitating vegetation. 1. As the mercury has a greater affinity than silver with the nitrous acid, the silver becomes precipitated ; and, being deprived of the nitrous oxygenc by the mercury, sinks down in its metallic form and lustre. 2. Th tion between silver and mercury, which causes them readily to amalgamate together, occasions the precipitated silver to adhere to the surface of the mercury in preference to any other part of the vessel. 3. The attraction of the particles of the precipitated silver to each other causes the beginning branches to thicken and elongate into trees and shrubs rooted on the mer- cury. For other circumstances concerning this beautiful experiment, see Mr. Kcir's Chemical Dictionary, art. Arbor Dianx ; a work, perhaps, of greater utility to mankind than the lost Alexandrian Library, the continuation of Which is so eagerly expected by all who are occupied in the arts, or attached to the st... CaktoIV. ECONOMY OF VEGETATION. 129 Attendant Nymphs her dulcet mandates hear, 595 And nurse in fostering arms the tender year, lant the young bulb, inhume the living seed, Prop the weak stem, the erring tendril lead ; Or fan in glass-built fanes the stranger flowers With milder gales, and steep with warmer showers* 600 Delighted Thames through tropic umbrage glides, And flowers antarctic, bending o'er his tides ; Drinks the new tints, the sweets unknown inhales, And calls the sons of science to his vales. In one bright point admiring Nature eyes 60S The fruits and foliage of discordant skies, Twines the gay floret with the fragrant bough, And bends the wreath round George's royal brow, —Sometimes retiring from the public weal, One tranquil hour the Royal Partners steal ; 610 Through glades exotic pass with step sublime, Or mark the growths of Britain's happier clime ; With beauty blossom'd, and with virtue blazed, Mark the fair Scions that themselves have raised ; Sweet blooms the Rose, the towering Oak expands, 615 The Grace and Guard of Britain's golden lands. XV. " Sylphs! who, round earth on purple pinions borne, Attend the radiant chariot of the morn ; Lead the gay hours along the ethereal height, And on each dun meridian shower the light ; 620 Sylphs ! who from realms of equatorial day To climes, that shudder in the polar ray, From zone to zone pursue on shifting wing, The bright perennial journey of the spring ; Bring my rich Balms from Mecca's hallow'd glades, 626 Sweet flowers, that glitter in Arabia's shades ; Fruits, whose fair forms in bright succession glow, Gilding the banks of Arno, or of Po ; Each leaf, whose fragrant steam with ruby lip Gay China's nymphs from pictured vases sip ; 636 Each spicy rind, which sultry India boasts, Scenting the night-air round her breezy coasts ; Roots, whose bold stems in bleak Siberia blow, And gem with many a tint the eternal snow ; 130 BOTANIC GARDEN. Part I. Barks, whose broad umbrage high in ether waves 635 O'er Andes' steeps, and hides his golden caves ; — And, where von oak extends his dusky shoots Wide o'er the rill, that bubbles from his roots ; Beneath whose arms, protected from the storm, A turf-built altar rears its rustic form; 640 Sylphs! with religious hands fresh garlands twine, And deck with lavish pomp Hygeia's shrine. " Call with loud voice the Sisterhood, that dwell On floating cloud, wide wave, or bubbling well ; Stamp with charm'd foot, convoke the alarmed Gnomes 64-5 From golden beds, and adamantine domes ; Each from her sphere with beckoning arm invite, Curl'd with red flame, the Vestal Forms of light ; Close all vour spotted wings, in lucid ranks Press with your bending knees the crowded banks, 650 Cross vour meek arms, incline your wreathed brows, And win the Goddess with unwearied vows. " Oh, wave, Hygeia \ o'er Britannia's throne, Thy serpent-wand, and mark it for thy own ; Lead round her breezy coasts thy guardian trains, 655 Her nodding forests, and her waving plains ; Shed o'er her peopled realms thy beamy smile, And with thy airy temple crown her isle !" The Goddess ceased, — and, calling from afar The wandering Zephyrs, joins them to her car ; 660 Mounts with light bound, and, graceful, as she bends, Whirls the long lash, the flexile reign extends ; On whispering wheels the silver axle slides, Climbs into air, and cleaves the crystal tides ; Burst from its pearly chains, her amber hair 665 Streams o'er her ivory shoulders, buoy'd in air ; Swells her white veil, with ruby clasp confined Round her fair brow, and undulates behind ; The lessening coursers rise in spiral rings, Pierce the slow-sailing clouds, unci stretch their shadowy wings. THE ECONOMY OF VEGETATION. CONTENTS OF THE NOTES. T> Line- JK OSICRUCI AN machinery 73 All bodies are immersed in the matter of heat. Particles of bodies do not touch each other 97" Gradual progress of the formation of the earth, and of plants and ani- mals. Monstrous births 101 Fixed stars approach towards each other : they were projected from chaos. by explosion, and the planets projected from them 105 An atmosphere of inflammable air above the common atmosphere prin- cipally about the poles 123 Twilight fifty miles high. Wants further observations 126 Immediate cause of volcanos from steam and other vapours. They pre- vent greater earthquakes 152 Conductors of heat. Cold on the tops of mountains 176 Phosphorescent light in the evening from all bodies 177 Phosphoric light from calcined shells. Bolognian stone. Experiments of Beccari and Wilson 182 Ignis fatuus doubtful 189 Electric eel. Its electric organs. Compared to the electric Leyden phial 202 Discovery of fire. Tools of steel. Forests subdued. Quantity of food increased by cookery 212 Medusa originally an hieroglyphic of divine wisdom 218 Cause of explosion from combined heat. Heat given out from air in re- spiration. Oxygene loses less heat when converted into nitrous acid than in any other of its combinations "226 Sparks from the collision of flints are electric. From the collision of flint and steel are from the combustion of the steel 229 Gun-powder described by Bacon. Its power. Should be lighted in the centre. A new kind of it. Levels the weak and strong 242 Steam-engine invented by Savery. Improved by Newcomen. Perfected by Watt and Boulton 254 Divine benevolence. The parts of nature not of equal excellence 278 Mr. Boulton's steam-engine for the purpose of coining would save many lives from the executioner 281 Labours of Hercules of great antiquity. Pillars of Hercules. Surface of the Mediterranean lower than the. Atlantic. Abyla and Calpe. Flood of Deucalion 297 lj_ BOTANIC GARDEN Part I. Accumulation of electricity not from friction 335 Mr. Bonnet's sensible electrometer 345 Halo of saints is pictorial language 358 We have a sense adapted to perceive heat but not electricity 365 Paralytic limbs move by electric influence 367 Death of Professor Ricliman by electricity 37S Lightning drawn from the clouds. How to be safe in thunder-storms 383 Animal heat from air and respiration. Perpetual necessity of respira- tion. Spirit of animation perpetually renewed 401 Cupid rises from the egg of night. Mrs. Cosway's painting of this sub- ject 413 Western winds. Their origin. Warmer than south winds. Produce a thaw 430 Water expands in freezing. Destroys succulent plants, not resinous ones. Trees in valleys more liable to injury. Fig-trees bent to the ground in winter 439 Buds and bulbs are the winter cradle of the plant. Defended from frost and from insects. Tulip produces one flower-bulb and several leaf- bulbs, and perishes 460 Matter of heat if different from light. Vegetables blanched by exclusion of light. Turn the upper surface of their leaves to the light. Water decomposed as it escapes from their pores. Hence vegetables purify air in the day time only 462 Electricity forwards the growth of plants. Silk-worms electrized spin sooner. Water decomposed in vegetables, and by electricity 463 Sympathetic inks which appear by heat, and disappear in the cold. Made from cobalt 487 Star in Cassiope's chair 51.^ Ice-islands 100 fathoms deep. Sea-ice more difficult of solution. Ice evaporates, producing great cold. Ice-islands increase. Should be navigated into southern climates. Some ice-islands have floated south- wards 60 miles long. Steam attending them in warm climates S29 Monsoon cools the sand of Abyssinia 547 Ascending vapours are electrized plus, as appears from an experiment of Mr. Bennet. Electricity supports vapour in clouds. Thunder-showers from combination of inflammable and vital air 552 CANTO II. Solar volcanos analogous to terrestrial and lunar ones. Spots of the sun are excavations Spherical form of the earth. Ocean from condensed vapour. Character of Mr. Whitehurst Granite the oldest part of the earth. Then lime-stone. And, lastly, clay, iron, coal, sand-stone. Three great concennic divisions of the globe Formation of primeval islands before the production of the moon. Pa- radise. The Golden Age. Rain-bow. Water of the sea originally fresh Venus rising from the sea, an hieroglyphic emblem of the production of the earth beneath the ocean First great volcanos in the central parts of the earth. From steam, in- flammable gas, and vital air. Present volcanos like mole-hille Pabt I. CONTENTS OF THE NOTE5. 1SS Moon has little or no atmosphere. Its ocean is frozen. Is not yet in- habited, but may be in time 82 Earth's axis changed by the ascent of the moon. Its diurnal motion re- tarded. One great tide 84 Lime-stone produced from shells. Spars with double refractions. Mar- ble. Chalk. 93 Ancient statues of Hercules. Antinous. Apollo. Venus. Designs of Roubiliac. Monument of General Wade 101 Statues of Mrs. Darner 113 Morasses rest on lime-stone. Of immense extent 116 Salts from animal and vegetable bodies decompose each other, except marine salt. Salt-mines in Poland. Timber does not decay in them. Rock-salt produced by evaporation from sea-water. Fossil shells in salt- mines. Salt in hollow pyramids. In cubes. Sea-water contains about one thirtieth of salt 119 Nitre, native in Bengal and Italy. Nitrous gas combined with vital air produces red clouds, and the two airs occupy less space than one of them before, and give out heat. Oxygene and azote produce nitrous acid 143 Iron from decomposed vegetables. Chalybeat springs. Fern-leaves in nodules of iron. Concentric spheres of iron nodules owing to polarity, like iron-filings arranged by a magnet. Great strata of the earth owing to their polarity 183 Hardness of steel for took. Gave superiority to the European nations. Welding of steel. Its magnetism. Uses of gold 192 Artificial magnets improved by Savery and Dr. Knight, perfected by Mr. Michel. How produced. Polarity owing to the earth's rotatory mo- tion. The electric fluid, and the matter of heat, and magnetism, gravitate on each other. Magnetism being the lightest, is found near- est the axis of the motion. Electricity produces northern lights by its centrifugal motion 193 Acids from vegetable recrements. Flint has its acid from the new world. Its base in part from the old world, and in part from the new. Precious stones 215 Diamond. Its great refraction of light. Its volatility by heat. If an inflammable body 22S Fires of the new world from fermentation. Whence sulphur and bitu- men by sublimation, the clay, coal, and flint remaining 275 Colours not distinguishable in the enamel-kiln till a bit of dry wood is introduced 283 Etrurian pottery prior to the foundation of Rome. Excelled in fine forms, and in a non-vitreous encaustic painting, which was lost till restored by Mr. Wedgwood. Still influences the taste of the inhabitants 291 Mr. Wedgwood's cameo of a slave in chains, and of Hope 315 Basso-relievos of two or more colours not made by the ancients. Invent- ed by Mr. Wedgwood 342 Petroleum and naphtha have been sublimed. Whence jet and amber. They absorb air. Attract straws when rubbed. Electricity from elec- tron, the Greek name for amber 353 Clefts in granite rocks in which metals are found. Iron and manganese found in all vegetables. Manganese in lime-stone. Warm springs from steam rising up the clefts of granite and lime-stone. Ponderous earth in lime-stone clefts and in granite. Copper, lead, iron, from de- scending materials. High mountains of granite contain no ores near their summits. Transmutation of metals. Of lead into calamy. Into silver 398 HI BOTANIC GARDEN Pa»t I. Armies of Camb;. ses destroyed by famine and by sand-storms 435 Whirling turrets of sand described and explained 478 Granite shows iron as it decomposes. Marble decomposes. Immense quantity of charcoal exists in lime-stone. Volcanic slags decompose, and become clay 523 Mill-stones raised by wooden pegs 524 Hannibal made a passage by fire over the Al ps 534 Passed tense of many words twofold, as driven or drove, spoken or spoke. A poetic license. 609 CANTO III. Giouds consist of aqueous spheres, which do not easily unite like glo- bules of quick-silver, as may be seen in riding through water. Owing to electricity. Snow. Hail-stones rounded by attrition and dissolution of their angles. Not from frozen drops of water 15 Dew on points and edges of grass, or hangs over cabbage-leaves. Needle floats on water 18 Mists over rivers and on mountains Halo round the moon. Shadow of a church-steeple upon a mist. Dry mist, or want of transparency of the air, a sign of fair weather 20 Tides on both sides of the earth. Moon's tides should be much greater than the earth's tides. The ocean of the moon is frozen 61- Spiral form of shells saves calcareous matter. Serves them as an organ of hearing. Calcareous matter produced from inflamed membranes. Colours of shells. Labradore-stone from mother-pearl. Fossil shells not now found recent 66 Sea-insects like flowers. Actinia 81 Production of pearls, not a disease of the fish. Crab's eyes. Reser- voirs of pearly matter 84 Rocks of coral in the South Sea. Coralloid lime-stone at Linsel, and Coalbrook Dale 9(7 Rocks thrown from mountains, ice from glaciers, and portions of earth, or morasses, removed by columns of water. Earth-motion in Shropshire. Water of wells rising above the level of the ground. St. Alkmond's well near Derby might be raised many yards, so as to serve the town. Well at Sheerness, and at Hartford in Connecticut llr> Monsoons attended with rain. Overflowing of the Nile. Vortex of ascend- ing air. Rising of the Dogstar announces the floods of the Nile. Anubis hung out upon their temples 139 Situation exempt from rain. At the line in Lower Egypt. On the coast of Peru 138 Giesar, a boiling fountain in Iceland. Water with great degrees of heat dissolves siliceous matter. Earthquake from steam Warm springs not from decomposed pyrites. From steam rising up fis- sures from great depths 1G6 Buxton bath possesses 82 degrees of heat. Is improperly called a warm bath. A chill at immersion, and 'hen a. sensation of warmth, like the eye in an obscure room owing to increased sensibility of the skin 184 Water compounded of pure air and inflammable air with as much mat- tei of heat as preserves it fluid. Perpetually decomposed by veget- ables in the sim's light, and recomposed in the atmosphere Part I. CONTENTS OF THE NOTES. 135 Line Mythological interpretation of Jupiter and Juno designed as an emblem of the composition of water from two airs 260 Death of Mrs. French 308 To r.b of Mr. Brindley 341 Invention of the pump. The piston lifts the atmosphere above it. The surrounding atmosphere presses up the water into the vacuum.- Man- ner in which a child sucks 366 Air-cell in engines for extinguishing fire. Water dispersed by the ex- plosion of gun-powder. Houses preserved from fire by earth on the floors, by a second cieling of iron-plates or coarse mortar. Wood im- pregnated with alabaster or flint 406 Muscular actions and sensations of plants 460 River Achelous. Horn of Plenty 495 Flooding lands defends them from vernal frosts. Some springs deposit calcareous earth. Some contain azotic gas, which contributes to pro» duce nitre. Snow water less serviceable 540 CANTO IV. Cacalia produces much honey, that a part may be taken by insects with- out injury 2 Analysis of common air. Source of azote. Of oxygene. Water de- composed by vegetable pcres and the sun's light. Blood gives out phlo- giston and receives vital air. Acquires heat and the vivifying principle 34 Cupid and Psyche 48 Simoom, a pestilential wind. Described. Owing to volcanic electricity. Not a whirlwind • .:• <> 65 Contagion either animal or vegetable 82 Thyrsis escapes the Plague 91 Barometer and air-pumps. Dew on exhausting the receiver, though the hygrometer points to dryness. Rare air will dissolve, or acquire more heat, and more moisture, and more electricity 128 Sound propagated best by dense bodies, as wood, and water, and earth. Fish in spiral shells all ear 176 Discoveries of Dr. Priestley. Green vegetable matter. Pure air con- tained in the calces of metals, as minium, manganese, calamy, ochre 178 Fable of Proserpine, an ancient chemical emblem 190 Diving balloons supplied with pure air from minium. Account of one by Mr. Boyle 207 Mr. Day. Mr. Spalding 229 Capt. Pierce and his daughters 231 Pestilential winds of volcanic origin. Jordan flows through a country of volcanos 306 Change of wind owing to small causes. If the wind could be governed, the products of the earth would be doubled, and its number of inhabit- ants increased 320 Mr. Kirwan's treatise on temperature of climates 354 Seeds of plants. Spawn of fish. Nutriment lodged in seeds. Their preservation in their seed-vessels 36/ Fixed stars approach each other 381 Fable of the Phoenix 389 Plants visible within bulbs, and buds, and seeds 395 Great egg of night 418 Part I. U BOTANIC GARDEN. Part I. Seeds shoot into the ground. Pith. Seed lobes. Starch converted into i Like animal chyle 423 Light occas ons tne actions of vegetable muscles. Keeps them awake 434 V i, Ngella. Vegetaole adultery in Collmsonia 472 Strong v uid roots bound with wire, in part debarked, whence leal-buds converted into rlower-buds. Theory of this curious fact 479 Branches bent 'o the horizon bear more fruit Ingraf ing of a spotted passion-flower produced spots upon the stock. App.e soft on one side and hard on the other 513 C) prepediura assumes the form of a large spider to affright the humming- bird. Fly- - pnris. Willow-wren sucks the honey of the crown im- perial 535 D seases of plants four kinds. Honey-dew 541 Ergot, a disease of rye 543 Glass unannealed. Its cracks owing to elasticity. One kind of lead-ore cracks into pieces. Prince Rupert's drops. Elastic balls 549 Sleep of plants. Their irritability, sensibility, and voluntary motions 56fc BOTANIC GARDEN. ADDITIONAL NOTES, NOTE L— METEORS, Ethereal Powers ! ijou chade the shooting stars, Or yoke the vollied lightnings to ijour cars. Canto I. 1. 115. J HERE seem to be three concentric strata of our incumbent at- mosphere ; in which, or between them, are pi'oduced four kinds of meteors; lightning, shooting stars, fire-balls, and northern lights. First, the lower region of air, or that which is dense enough to resist, by the adhesion of its particles, the descent of condensed vapour, or clouds, which may extend from one to three or four miles high. In this region the common lightning is produced from the accumulation or defect of electric matter in those floating fields of vapour, either in respect to each other, or in respect to the earth beneath them, or the dissolved vapour above them, which is constantly varying both with the change of the form of the clouds, which thus evolve a greater or less surface ; and also with their ever-changing degree of conden- sation. As the lightning is thus produced in dense air, it proceeds but a short course, on account of the greater resistance which it en- counters, is attended with a loud explosion, and appears with a red light. 2. The second region of the atmosphere I suppose to be that which has too little tenacity to support condensed vapour, or clouds ; but which yet contains invisible vapour, or water in aerial solution. This aerial solution of water differs from that dissolved in the matter of heat, as it is supported by its adhesion to the parties of air, and is not precipitated by cold. In this stratum it seems probable that the meteors called shooting stars are produced ; and that they consist of electric sparks, or lightning, passing from one region to another of these invisible fields of aero-aqueous solution. The height of these shooting stars has not yet been ascertained by sufficient observation. BOTANIC GARDEN. Part I. Dr. Blagden thinks their situation is lower down in the atmosphcrr than that of fire-balls, which he- conjectures from their swift apparent motion, and ascribes their smallness to the more minute division ol the electric matter of which they are supposed to consist, owing to the greater resistance of the denser medium through which they pass, than that in which the fire-balls exist. Mr. Rrydone observed that the shooting stars appeared to him to be as high in the atmosphere, when he was near the summit of Mount JEina, as the) do when ob- served from the plain. Phil. Trans, vol. lxiii. As the stratum of air in which shooting stars are supposed to exist is much rarer than that in which lightning resides, and yet much den- ser than that in which fire-balls are produced, they will be attracted at a greater distance than the former, and at a less than the latter. From this rarity of the air, so small a sound will be produced by their explosion, as not to reach the lower parts of the atmosphere; their quantity of light, from their greater distance, being small, is never seen through dense air at all, and thence does not appear red, like lightning or fire-balls. There are no apparent clouds to emit or to attract them, because the constituent parts of these aero-aque- us re- gions may possess an abundance or deficiency of electric matter, and yet be in perfect reciprocal solution. And, lastly, their apparent train of light is probably owing only to a continuance of their impres- sion on the eye; as when a fire stick is whirled in the dark it gives the appearance of a complete circle of fire ; for these white trains of shooting stars quickly vanish, and do not seem to set any thing on fire in their passage, as seems to happen in the transit of fire-balls. 3. The second region or stratum of air terminates, 1 suppose, vUiere the twilight ceases to be refracted, that is, where the air is 30C0 times rarer than at the surface of the earth ; and where it seems probable that the common air ends, and is surrounded by an atmosphere of in- flammable gas ten-fold raver than itself. In this region I believe fire- balls sometimes to pass, and at other times the northern lights t^ exist. One of these fire-balls, or draco volans, was observed bj Dr. Pringle, and many others, on Nov. 26, 1758, which was afterwards, estimated to have been a mile and a half in circumference, to have been about one hundred miles high, and to have moved towards the north with a velocity of near thirty miles in a second of time. This meteor had a real tail many miles long, which threw off sparks in it. COUrse, and the Whole exploded, v\itha sound like distant thunder. Phil. Trans, vol. li. Dr. Blagden has relates! the his;, n of an tteor, or fite-ball, which was seen the 18th of August, 1783, with many ingc njecturesi This was estimated to be I miles high, and to travel 1000 miles at th< Note 1. METEORS. 1S9 twenty miles in a second. This fire-ball had likewise a real train of light left behind it in its passage, which varied in colour, and, in 3ome part of its course, gave off sparks or explosions where it had been brightest ; and a dusky red streak remained visible perhaps a minute. Phil. Trans, vol. lxxiv. These fire-balls differ from lightning, and from shooting stars, in many remarkable circumstances ; as their very great bulk, being a mile and a half in diameter ; their travelling 1000 miles nearly hori- zontally ; their throwing off sparks in their passage ; and changing colours from bright blue to dusky red ; and leaving a train of fire be- hind them, continuing about a minute. They differ from the northern lights in not being diffused, but p assing from one point of the heavens to another in a defined line ; and this in a region above the crepuscu- lar atmosphere, where the air is 3000 times rarer than at the surface of the earth. There has not yet been even a conjecture which can account for these appearances ! — One I shall therefore hazard j which, if it does not inform, may amuse the reader. In the note on 1. 123, it was shown that there is probably a super- natant stratum of inflammable gas or hydrogene, over the common atmosphere ; and whose density at the surface, where they meet, must be at least ten times less than that upon which it swims ; like chemi- cal ether floating upon water, and perhaps without any real contact. 1. In this region, where the aerial atmosphere terminates, and the inflammable one begins, the quantity of tenacity or resistance must be almost inconceivable ; in which a ball of electricity might pass 1000 miles with greater ease than through a thousandth part of an inch of glass. 2. Such a ball of electricity passing between inflammable and common air, would set fire to them in a line as it passed along ; which would differ in colour according to the greater proportionate com- mixture of the two airs ; and from the same cause there might occur greater degrees of inflammation, or branches of fire, in some parts of its course. As these fire-balls travel in a defined line, it is pretty evident from the known laws of electricity, that they must be attracted ; and as they are a mile or more in diameter, they must be emitted from a large surface of electric matter ; because large knobs give larger sparks, less diffused, and more brightly luminous, than less ones or points, and resist more forcibly the emission of the electric matter. What is there in nature can attract them at so great a distance as 1000 miles, and so forcibly as to detach an electric spark of a mile diameter? Can volcanos, at the time of their eruptions, have this effect, as they are generally attended with lightning? Future observations must dis- cover these secret operations of nature ! As a stream of common air Is carried along with the passage of electric aura from one body to 140 BOTANIC GARDEN. Part I. another, it is easy to conceive, that the common air and the inflam- mable air between which the fire-ball is supposed to pass, will be par- tially intermixed by being thus agitated, and so far as it becomes in- termixed it will take fire, and produce the linear flame and branching sparks above described. In this circumstance of their being attracted, and thence passing in a defined line, the fire-balls seem to differ from the coruscations of the aurora borealis, or northern lights, which pro- bably take place in the same iegi>n of the atmosphere ; where the common air exists in extreme tenuity, and is covered by a fatill rarer 6phcrc of inflammable gas, ten times lighter than itself. As the electric streams, which constitute these northern lights, seem to be repelled or radiated from an accumulation of that fluid in the north, and not attracted like the fire-balls; this accounts for the diffusion of their light, as well as the silence of their passage ; while their variety of colours, and the permanency of them, and even the breadth of them in different places, may depend on their setting on fire the mixture of inflammable and common air through which they pass ; as seems to happen in the transit of the fire-balis. It was observed by Dr. Priestley, that the electric shock taken through inflammable air was red, i:i common air it is blueish. To these circumstances perhaps some of the colours of the northern lights may bear analogy ; though the density of the medium through which light is seen must principally vary its colour, as is well explained by Mr. Morgan. Phil. Trans, vol. lxxv. Hence lightning is red when seen through a dark cloud, or near the horizon ; because the more refran- . gible rays cannot permeate so dense a medium. But the shooting stars consist of white light, as they are generally seen on clear nights, and nearly vertical ; in other situations their light is probably too faint to come to us. But as in some remarkable appearances of the northern lights, as in March, 1716, all the prismatic colours were seen quickly to succeed each other, these appear to have been owing to real com- bustion ; as the density of the interposed medium could not be sup- posed to change so frequently ; and therefore these colours must have been owing to different degrees of heat, according to Mr. Morgan's theory of combustion. In Smith's Optics, p. 69, the prismatic colours, and optical deceptions of the northern lights, are described by Mr. Cotes. The Torricellian vacuum, if perfectly free from air, is said, by Mr. Morgan and others, to be a perfect non-conductor. This circum- therefore would preclude the electric streams from rising at-.. v.- the atmosphere. But as Mr. Morgan did not try to pass an electric shock through a vacuum, and as air, or something containing air, surrounding the transit of electricity, max In- necessary to the production of light, the conclusion may perhaps still be dubious, U, Note 1. METEORS. 1*1 however, the streams of the northern lights were supposed to rise above our atmosphere, they would only be visible at each extremity of their course; where they emerge from, or are again immerged hito the atmosphere ; but not in their journey through the vacuum ; for the absence of electric light in a vacuum is sufficiently proved by the common experiment of shaking a barometer in the dark ; the electricity, produced by the friction of the mercury in the glass at its top, is luminous if the barometer has a little air in it; but there is no light if the vacuum be complete. The aurora borealis, or northern dawn, is very ingeniously account- ed for by Dr. Franklin, on principles of electricity. He premises the following electric phenomena : 1. That all new-fallen snow has much positive electricity standing on its surface. 2. That about twelve degrees of latitude round the poles are covered with a crust of eternal ice, which is impervious to the electric fluid. 3. That the dense part of the atmosphere rises but a few miles high ; and that in the rarer parts of it the electric fluid will pass to almost any distance. Hence he supposes there must be a great accumulation of positive electric matter on the fresh-fallen snow in the polar regions ; which, not being able to pass through the crust of ice into the earth, must rise into the rare air of the upper parts of our atmosphere, which will the least resist its passage ; and passing towards the equator, de- scend again into the denser atmosphere, and thence into the earth in silent streams. And that many of the appearances attending these lights are optical deceptions, owing to the situation of the eye that beholds them ; which makes all ascending parallel lines appear to converge to a point. The idea, above explained in note on 1. 123, of the existence of a sphere of inflammable gas over the aerial atmosphere, would much favour this theory of Dr. Franklin ; because in that case the dense aerial atmosphere would rise a much less height in the polar regions, diminishing almost to nothing at the pole itself; and thus give an easier passage to the ascent of the electric fluid. And from the great dif- ference in the specific gravity of the two airs, and the velocity of the earth's rotation, there must be a place between the poles and the equa- tor, where the superior atmosphere of inflammable gas would termi- nate ; which would account for these streams of the aurora borealis not appearing near the equator : add to this, that it is probable the electric fluid may be heavier than the magnetic one ; and will thence., by the rotation of the earth's surface, ascend over the magnetic one by its centrifugal force; and may thus be induced to rise through the thin stratum of aerial atmosphere over the poles. See note on Canto II. 1. 193. I shall have occasion again to mention this great accumu- lation of inflammable air over the poles ; and to conjecture that these L4A BOTANIC GARDEN. Part I. northern lights may be produced by the union of inflammable with common air, without the assistance of the electric spark to throw them into combu tion. The antiquity of the appearance of northern lights has been doubted, as none were recorded in our annals since the remarkable 01 1-J, 137 1, till another remarkable one on March 6, 1716, and the three following nights, which was seen at the same time in Ireland, Russia, and Poland, extending near 30 degrees of longitude, and from about the 50th degree of latitude over almost all the north of Europe. There is, however, reason to believe them of remote anti- quity, though inaccurately described; thus the following curious pas- sage from the book of Maccabees (B. II. c. v.) is such a description of them, as might probably be given by an ignorant and alarmed people. " Through all the city, for the space of almost forty days, there were seen horsemen running in the air, in cloth of gold, and armed with lances, like a band of soldiers; and troops of horsemen in array en- countering and running one against another, with shaking of shields and multitude of pikes, and drawing of swords, and casting of dart«^ and glittering of golden ornaments and harness." NOTE II.— PRIMARY COLOURS. Cling 1 round the aerial bow with firisms bright* And) Jdea.icd, untwist the sevenfold threads of light. Canto I. 1. 11~. THE manner in which the rainbow is produced, was, in some mea- sure, understood before Sir Isaac Newton had discovered his theory of colours. The first person who expressly showed the rainbow to be formed by the reflection of the sun-beams from drops of falling rain, was Antonio de Dominis. This was afterwards more fully and dis- tinctly explained by Des Cartes. But what caused the diversity of its colours was not then understood ; it was reserved for the immortal Newton to discover that the rays of light consisted of seven combined colours of different refrangibility, which could be separated at plea- sure by a wedge of glass. Pemberton's View of Newton. Sir Isaac Newton discovered that the prismatic spectrum was com- posed of seven colours, in the following proportions : violet 80, indigo 40, blue 60, green 60, yellow 48, orange 27, red >J. If ail these colours be painted on a circular card, in the proportion above men- tioned, and tin card be rapidly whirled on its centre, they ih the pyc the sensation of white. And any one of the Note 2. PRIMARY COLOURS. 14$ be imitated by painting a card with the two colours which are con- tiguous to it, in the same proportions as in the spectrum, and whirl- ing them in the same manner. ■— My ingenious friend. Mr. Galton, of Birmingham, ascertained, in this manner, by a set of experiments, the following propositions ; the truth of which he had preconceived from the above data. 3. Any colour in the prismatic spectrum may be imitated by a mixture of the two colours contiguous to it. 2. If any three successive colours in the prismatic spectrum are mixed, they compose only the second or middlemost colour. 3. If any four successive colours in the prismatic spectrum be mixed, a tint similar to a mixture of the second and third colours will be produced, but not precisely the same, because they are not in the same proportion. 4. If, beginning with any colour in the circular spectrum, you take of the second colour a quantity equal to the first, second and third ; and add to that the fifth colour, equal in quantity to the fourth, fifth and sixth ; and with these combine the seventh colour in the propor- tion it exists in the spectrum, white will be produced. Because the first, second and third compose only the second ; and the fourth, fifth and sixth compose only the fifth ; therefore, if the seventh be added, the same effect is produced as if all the seven were employed- 5. Beginning with any colour in the circular spectrum, if you take a tint composed of a certain proportion of the second and third (equal in quantity to the first, second, third and fourth), and add to this the sixth colour, equal in quantity to the fifth, sixth and seventh, white will be produced. From these curious experiments of Mr. Galton, many phenomena in the chemical changes of colours may probably become better un- derstood ; especially if, as I suppose, the same theory must apply to transmitted colours as to reflected ones. Thus it is well known, that if the glass of manganese, which is a tint probably composed of violet and indigo, be mixed in a certain proportion with the glass of lead, which is yellow, that the mixture becomes transparent. Now, from Mr. Galton 's experiments it appears, that in reflected colours such a mixture would produce white, that is, the same as if all the colours were reflected. And, therefore, in transmitted colours the same circumstances must produce transparency, that is, the same as if all the colours were transmitted. For the particles which constitute the glass of manganese will transmit red, violet, indigo, and blue ; and those of the glass of lead will transmit orange, yellow, and green; hence all the primary colours, by a mixture of these glasses, become transmitted, that is, the glass becomes transparent. Mr. G.rton has further observed, that five successive prismatic Part I. X A4 BOTANIC GARDEN. Part L colours may be combined in such proportions as to produce but one colour, a circumstance which might be of consequence in the art of painting. For if you begin at any part of the circular spectrum above described, and take the first, second and third colours, in the pro- portions in which they exist in the spectrum, these will compose only the second colour, equal in quantity to the first, second and third ; add to these the third, fourth and fifth, in the proportion they exist in the spectrum, and these will produce the fourth colour, equal in quantity to the third, fourth and fifth. Consequently this is precisely the same thing as mixing the second and fourth colours only ; which mixture would only produce the third colour. Therefore, if you combine the first, second, fourth and fifth, in the proportions in which they exist in the spectrum, with double the quantity of the third colour, this third colour will be produced. It is probable that many of the unexpected changes in mixing colours on a painter's pal- let, as wel as in the more fluid chemical mixtures, may depend on these principles rather than on a new arrangement or combination of their minute particles. Mr. Gait™ further observes, that white may universally be pro- duced by the combination of one prismatic colour, and a tint interme- diate to two others. Which tint may he distinguished by a name compounded of the two colours to which it is intermediate. Thus white is produced by a mixture of red with blue-green. Of orange with indigo-blue. Of yellow with violet-indigo. Of green with red-violet. Of blue with orange-red. Of indigo with yellow-orange. Of violet with green-yellow. Which, he further remarks, exactly coincides with the theory and facts mentioned by Dr. Robert Darwin, of Shrews- bury, in his account of ocular spectra ; who has shown, that when one of these contrasted colours has been long viewed, a spectrum, or appearance of the other, becomes visible in the fatigued eye. Phil. Trans, vol. lxxvi. for the year 1786. These experiments of Mr. Galton might much assist the copper- plate printers of callicocs and papers in colours, as three colours, or more, might be produced by two copper-plates. Thus, suppose some yellow figures were put on by the first plate, and upon some parts of these yellow figures, and on other parts of the ground, blue was laid on h\ another copper-plate. The three colours of yellow, blue and green might be produced, as green leaves with yellow and bhai ( I* ) NOTE III.— COLOURED CLOUDS. Eve's silken couch with gorgeous lints adorn, And Jire the arrowy throne of rising Morn. Canto Canto I. 1. 119. THE rays froTi the rising and setting sun are refracted by out spherical atmosphere ; hence the most refrangible rays, as the violet, indigo, and blue, are reflected in greater quantities from the morning and evening skies ; and the least refrangible ones, as red and orange, are last seen about the setting sun. Hence Mr. Beguelin observed, that the shadow of his finger on his pocket-book was much bluer in the morning and evening, when the shadow was ab^ut eight times as long as the body from which it was projected. Mr. Melville obseiwes, that the blue rays being more refrangible, are bent down in the even- ings by our atmosphere ; while the red and orange, being less re- frangible, continue to pass on, and tinge the morning and evening clouds with their colours. See Priestley's History of Light and Co- lours, p. 440. But as the particles of air, like those of water, are themselves blue, a blue shadow may be seen at all times of the day, though much more beautifully in the mornings and evenings, or by means of a candle in the middle of the day. For if a shadow on a piece of white paper is produced by placing your finger between the paper and a candle in the day light, the shadow will appear very- blue ; the yellow light of the candle upon the other parts of the paper apparently deepens the blue by its contrast, these colours being oppo- site to each other, as explained in note II. Colours are produced from clouds or mists by refraction, as well as by reflection. In riding in the night over an unequal country, I ob- served a very beautiful coloured halo round the moon, whenever I was covered with a few feet of mist, as I ascended from the vallies, which ceased to appear when I rose above the mist. This I suppose was owing to the thinness of the stratum of mist in which I was im- mersed , had it been thicker, the colours refracted by the small drops, of which a fog consists, would not have passed through it down to my eye. There is a bright spot seen on the cornea of the eye, when we face a window, which is much attended to by portrait painters ; this is the light reflected from the spherical surface of the polished cornea, and brought to a focus : if the observer is placed in this focus, he sees the im^ge of the window ; if he is placed before or behind the focus, he only sees a luminous spot, which is more luminous, and of less extent, the nearer he approaches to the focus. The luminous appearance of 146 BOTANIC GARDEN. Part J. the eyes of animals in the dusky corners of a room, or in holes in the earth, may arise, in some instances, from the same principle; viz. the reflection of the light from the spherical cornea, which will be coloured red or blue, in some degree, by the morning, evening, or meridian light, or by the objects from which that light is previously reflected. In the cavern at Colebrook Dale, where the mineral tar exudes, the eves of the horse which was drawing a cart from within towards the mouth of it, appeared like two balls of phosphorus, when he was above 100 yards off, and for a long time before any other part of the animal was visible. In this case I suspect the luminous ap- pearance to have been owing to the light which had entered the eye being reflected from the back surface of the vitreous humour, and thence emerging again in parallel rays from the animal's eye, as it does from the back surface of the drops of the rainbow, and from the water-drops which lie, perhaps without contact, on cabbage -leaves, and have the brilliancy of quick-silver. This accounts for this lumi- nous appearance being best seen in those animals which have large apertures in their iris, as in cats and horses, and is the only p ble in obscure places, because this is a better reflecting surface than any other part of the animal. If any of these emergent rays from the animal's eye can be supposed to have been reflected from the choroid coat, through the semi-transparent retina, this would account for the coloured glare of the eyes of dogs, or cats, and rabbits, in dark corners. NOTE IV.— COMETS. Alarm with comet-blaze the safifihire filain, The wan stars glimmering through its silver train. Canto I. 1. 133. THERE have been many theories invented to account for the tails of comets. Sir Isaac Newton thinks that they consist of rare vapours raised from the nucleus of the comet, and so rarefied by the sun's heat as to have their general gravitation diminished, and that they, in con- sequence, ascend opposite to the sun, and from thence reflect the rays of light. Dr. Hallcy compares the light of the tails of comets to th< streams of the aurora borealis, and other electric effluvia. Phil. Trans. No 347. Dr. Hamilton observes, that the light of small stars is seen undi- minished through both the light of the tails of comets and of the aurora borealis, and has farther illustrated their electric analogy ; and adds, that the tails of comets consist of a lucid self-shining substance) Note 4. COMETS. 147 which has not the power of refracting or reflecting the rays of light. Essays. The tail of the comet of 1744 at one time appeared to extend above 16 degrees from its body, and must have thence been above twenty- three millions of miles long. And the comet of 1680, according to the calculations of Dr. Halley, on November the 11th, was not above one semi-diameter of the earth, or less than 4000 miles to the northward of the way of the earth ; at which time had the earth been in that part of its orbit, what might have been the consequence i No one would probably have survived to have registered the tremendous effects. The comet of 1531, 1607, and 1682, having returned in the year 1759, according to Dr. Halley's prediction in the Phil. Trans, for 1705, there seems no reason to doubt that all the other comets will return after their proper periods. Astronomers have in general ac- quiesced in the conjecture of Dr. Halley, that the comets of 1532, and 1661, are one and the same comet, from the similarity of the elements of their orbits, and were, therefore, induced to expect its return to its perihelium in 1789. As this comet is liable to be disturbed, in its ascent from the sun, by the planets Jupiter and Saturn, Dr. Maskelyne expected its return to its perihelium in the beginning of the year 1789, or the latter end of the vear 1788, and certainly some time before the 27th of April, 1789 ; which prediction has not been fulfilled. Phil. Trans, vol. lxxvi. As the comets are small masses of matter, and pass in their peri- helion very near the sun, and become invisible to us, on these accounts, in a short space of time, their number has not yet been ascertained, and will probablv increase with the improvement of our telescopes. M. Bode has given a table of 72 comets, whose orbits are already calculated ; of these 60 pass within the earth's orbit, and only twelve ■without it ; and most of them appear between the orbits of Venus and Mercury, or nearlv midway between the sun and earth ; from whence, and from the planes of their orbits being inclined to that of the earth and other planets in all possible angles, they are believed to be less liable to interfere with, or injure each other. M. Bode afterwards inquires into the nearest approach it is possible for each of the known comets to make towards the earth's orbit. He finds that only three of them can come within a distance equal to two or three times the dis- tance of the moon from it ; and then adds the great improbability, that the earth should be in that dangerous point of its orbit, at the instant when a comet, which may have been absent some centuries, passes so rapidly past it. Historie de l'Academ. Royal. Berlin. 1792, ( 14S ) NOTE V.— SUN'S RAYS. Or give the Sun's phlogistic orb to roll. Canto 1. 1. 136. THE dispute among philosophers about phlogiston is not concerning the existence of an infl im triable, principle, but rather whether there be one or mure inflammable principles. The disciples of Stahh which till lately included the whole chemical world, believed in the identity of phlogiston in all bodies which would flame or calcine. The disci- ples of Lavoisier pay homage to a plurality of phlogistons, under the various names of charcoal, sulphur, metals, Sec. Whatever will unite \i\\h fmre air, and thence compose an acid, is esteemed, in this inge- nious theory, to be a different kind of phlogistic or inflammable body. At the same time there remains a doubt whether these inflammable bodies, as metals, sulphur, charcoal, Sec. may not be compounded of the same phlogiston along with some other material yet undisco- vered, and thus an unity of phlogiston exist, as in the theory of Stahl, though very differently applied in the explication of chemical pheno- mena. Some modern philosophers are of opinion, that the sun is the great fountain from which the earth and other planets derive all the phlo- giston which thev possess ; and that this is formed by the combination of the solar rays with all opake bodies, but particularly with the leaves of vegetables, which they suppose to be organs adapted to absorb them. And that as animals receive their nourishment from vegetables, they also obtain, in a secondary manner, their phlogiston from the sun. And, lastly, as great masses of the mineral kingdom, which have been found in the thin crust of the earth which human labour has penetrated, have evidently been formed from the recrements of animal and vegetable bodies, these also arc supposed thus to have derived their phlogiston from the sun. Another opinion concerning the sun's rays is, that they are not lumi- nous till they arrive at our atmosphere ; and that there uniting with some part of the air, thev produce combustion, and light is emitted; and that an ethereal acid, yet undiscovered, is formed from this combustion. The more probable opinion is, perhaps, that the sun is a phlogistk mass of mutter, whose surface is in a state of combustion, which, like other burning bodies, emits light, with immense velocity, in all directions; that these rays of light act upon all opake bodies, and, combining with them, either displace <>r produce their elementary beat, and become chemically combined with the phlogistic part I ( Xote 6. CENTRAL FIRES. 149 them ; for light is given out when phlogistic bodies unite with the oxy- genous principle of the air, as in combustion, or in the reduction of metallic calxes ; thus in presenting to the flame of a candle a letter- wafer (if it be coloured with red lead) at the time the red lead becomes a metallic drop, a flash of light is perceived. Dr. Alexander Wil- son very ingeniously endeavours to prove, that the sun is only in a state of combustion on its surface, and that the dark spots seen on the disk are excavations or caverns through the luminous crust, some of which are 4000 miles in diameter. Phil. Trans. 1774. Of this I shall have occasion to speak again . NOTE VI.— CENTRAL FIRES. Pound her still centre tread the burning soil, And watch the billowy Lavas as they boil. Canto 1. 1. 1S9. M. De Mairan, in a paper published in the Histoire de PAcade- mie de Sciences, 1765, has endeavoured to show, that the earth re- ceives but a small part of the heat which it possesses from the sun's rays, but is principally heated by fires within itself. He thinks the sun is the cause of the vicissitudes of our seasons of summer and winter, by a very small quantity of heat in addition to that already residing in the earth, which, by emanations from the centre to the circumference, renders the surface habitable, and without which, though the sun was constantly to illuminate two thirds of the globe at once, with a heat equal to that at the equator, it would soon become a mass of solid ice. His reasonings and calculations on this subject are too long and too in- tricate to be inserted here, but are equally curious and ingenious, and carry much conviction along with them. The opinion that the centre of the earth consists of a large mass of burning lava, has been espoused by Boyle, Boerhaave, and many other philosophers. Some of whom, considering its supposed effects on vege- tation and the formation of minerals, have called it a second sun. There are many arguments in support of this opinion. 1. Because the power of the sun does not extend much beyond ten feet deep into the earth, all below being, in winter and summer, always of the same degree of heat, viz. 48, which being much warmer than the mildest frost, is supposed to be sustained by some internal distant fire. Add to this, however, that from experiments made some years ago by Dr. Franklin, the spring-water at Philadelphia appeared to be of 52 of heat, which seems farther to confirm this opinion, since the climates 150 BOTANIC GARDEN. Part i. in North-America are supposed to be colder than those of Europe under similar degrees of latitude. 2. M. De Luc, in going 1359 feet perpendicular into the mines of Hartz, on July the 5th. 1778, on a very fine day, found the air at the bottom a little warmer than at the top of the shaft. Phil. Trans, vol. lxix. p. 488. In the mines in Hungary, which are 500 cubits deep, the heat becomes very trouble- some when the miners get below 480 feet depth. Mori nun de I.ocis subter. p. 131. But as some other deep mines, as mentioned by Mr. Kirwan, are said to possess but the common heat of the earth; and as the crust of the globe, thus penetrated by human labour, is so thin compared with the whole, no certain deduction can be made from these facts on either side of the question. S. The warm-springs in many parts of the earth, at great distance from any volcanos, seem to originate from the condensation of vapours arising from water which is boiled by subterraneous fires, and cooled again in their passage through a certain length of the colder soil ; for the theory of chemical solution will not explain the equality of their heat at all seasons, and through so many centuries. See note on Fucus, in vol. ii. See a let- ter on this subject in Mr. Pilkinton's View of Derbyshire, from Dr. Darwin. 4. From the situations of volcanos, which are always found upon the summit of the highest mountains. For as these mountains have been lifted up, and lose several of their uppermost strata as they rise, the lowest strata of the earth yet known appear at the tops of the highest hills ; and the beds of the volcanos upon these hills must, in consequence, belong to the lowest strata of the earth, consisting, perhaps, of granite or basaltes, which were produced before the ex- istence of animal or vegetable bodies, and might constitute the original nucleus of the earth, which I have supposed to have been projected from the sun ; hence the volcanos themselves appear to be spira- cula, or chimneys, belonging to great central fires. It is probably owing to the escape of the elastic vapours from these spiracula, that the modern earthquakes are of such small extent compared with those of remote antiquity, of which the vestiges remain all over the globe. 5. The great size and height of the continents, and the great size and depth of the South Sea, Atlantic, and other oceans, evince that the first earthquakes, which produced these immense changes in the globe, must have been occasioned by central fires. 6. The very distant and expeditious communication of the shocks of some great earth- quakes. The earthquake at Lisbon, in 1755, was perceived in Scot- land, in the Peak of Derbyshire, and in many other distant parts of Europe. The percussions of it travelled with about the velocity of sound, viz. about thirteen miles in a minute. The earthquake in 1693 extended 2600 leagues. (Goldsmith's History.) These phenomena arc easily explained if the central parts of the earth consist of a fluid Note 7. ELEMENTARY HEAT. 15%. lava, as a percussion on one part of such a fluid mass would be feh on Other pavts of its confining vault, like a stroke on a fluid contained in a bladder, which, however gentle on one side, is perceptible to the hand placed on the other ; and the velocity with which such a con- cussion would travel, would be that of sound, or thirteen miles in a minute. For further information on this part of the subject, the rea- der is referred to Mr. Michel's excellent treatise on earthquakes in the Phil. Trans, vol. li. 7. That there is a cavity at the centre of the earth is made probable by the late experiments on the attraction of mountains, by Mr. Maskelyne, who supposed, from other consider- ations, that the density of the earth near the surface should be five times less than its mean density. Phil. Trans, vol. lxv. p. 498. But found from the attraction of the mountain Schehallien, that it is pro- bable the mean density of the earth is but double that of the hill. Ibid. p. 532. Hence, if the first supposition be well founded, there would appear to be a cavity at the centre of considerable magnitude, from whence the immense beds and mountains of lava, loadstone, ba- saltes, granite, &c. have been protruded. 8. The variation of the compass can only be accounted for by supposing the central parts of the earth to consist of a fluid mass, and that part of this fluid is iron, which, requiring a greater degree of heat to bring it into fusion than glass or other metals, remains a solid ; and the vis inertia of this fluid mass, with the iron in it, occasions it to perform fewer revolu- tions than the crust of solid earth over it, and thus it is gradually left behind, and the place where the floating iron resides is pointed to by '.he direct or retrograde motions of the magnetic needle. This seems to bavn been nearly the opinion of Dr. Halley and Mr. Elder, NOTE VII— ELEMENTARY HEAT. Or ti/ikerc on afihere in widening waves exfiand, And glad with genial warmth the incumbent land. Canto I. 1. 142 f A CERTAIN quantity of heat seems to be combined with all bodies, besides the sensible quantity which gravitates like the electric fluid amongst them. This combined heat, or latent heat of Dr. Black, when set at liberty by fermentation, inflammation, crystallization, freezing, or other chemical attractions, producing new combination^ passes as a fluid element into the surrounding bodies. And by thaw- ing, diffusion of neutral salts in water, melting, and other chemical Part I. Y iS2 BOTANIC GARDEN. Part i. solutions, a portion of heat is attracted from the bodies in the vici- nity, and enters into or becomes combined with the new solutions. Hence a combir.aiioii of metals with acids, of essential oils and acids, of alcohol and water, of acids and water, give out heat ; whilst a solutioji of snow in water or in acids, and of neutral salts in water, attracts heat from the surrounding bodies. So the acid of nitre mixed with oil of cloves unites with it, and produces a most violent flame ; the same acid of nitre poured on snow instantly dissolves it, and pro- duces the greatest degree of cold yet known, by which, at Peters- burgh, quicksilver was first frozen in 1760. Water may be cooled below 32 degrees without being frozen, if it be placed on a solid floor, and secured from agitation ; but when thus cooled below the freezing point, the least agitation turns part of it suddenly into ice, and when this sudden freezing takes place, a ther- mometer placed in it instantly rises, as some heat is given out in the act of congelation, and the ice is thus left with the same sensible de- gree of cold as the water had possessed before it was agitated, but is, nevertheless, now combined with less latent heat. A cubic inch of water thus cooled down to 32 degrees, mixed with an equal quantity of boiling water at 212 degrees, will cool it to the middle number between these two, or to 122. But a cubic inch of ice, whose sensible cold also is but 32, mixed with an equal quantity of boiling water, will cool it six times as much as the cubic inch of cold water above-mentioned, as the ice not only gains its share of the sensible or gravitating heat of the boiling water, but attracts to itself also, and combines with the quantity of latent heat which it had lost at the time of its congelation. So boiling water will acquire but 212 degrees of heat under the common pressure of the atmosphere ; but the steam raised from it by its expansion, or by its solution in the atmosphere, combines with and carries away a prodigious quantity of heat, which it again parts with on its condensation, as is seen in common distillation, where the large quantity of water in the worm tub is so soon heated. Hence the eva- poration of ether on a thermometer soon sinks the mercury below freezing, and hence a warmth of the air in winter frequently succeeds a shower. When the matter of heat, or calorique, is set at liberty from its combinations, as by inflammation, it passes into the surrounding bo- dies, which possess different capacities of acquiring their share of the loose or sensible heat; thus a pint measure o( cold water at 48 degrees, mixed with a pint of boiling water at 212 degrees, wdl cool it to the degree between these two numbers, or to 154 degrees, but it requires two pint measures of quicksilver at 48 degrees of heat, to [lint of water as above. These, and other curious experi- Note 7. ELEMENTARY HEAT. 15., merits are adduced by Dr. Black, to evince the existence of combined or latent heat in bodies, as has been explained by some of his pupils, and weil illustrated by Dr. Crawford. The world has long been in expectation of an account of his discoveries on this subject by the celebrated author himself. As this doctrine of elementary heat in its fluid and combined state is not yet universally received, I shall here add two arguments in sup- port of it, drawn from different sources, viz. from the heat given out or absorbed by the mechanical condensation or expansion of the air, and perhaps of other bodies, and from the analogy of the various phenomena of heat with those of electricity. I. If a thermometer be placed in the receiver of an air-pump, and the air hastily exhausted, the thermometer will sink some degrees, and the glass become steamy ; the same occurs in hastily admitting a part of the air again. This I suppose to be produced by the expan-. sion of part of the air, both during the exhaustion and re-admission of it ; and that the air so expanded becomes capable of attracting from the bodies in its vicinity a part of their heat; hence the vapours contained in it, and the glass receiver, are for a time colder, and the steam is precipitated. That the air thus parts with its moisture from the cold occasioned by its rarefaction, and not simply by the rarefac- tion itself, is evident, because, in a minute or two, the same rarefied air will again take up the dew deposited on the receiver ; and because water will evaporate sooner in rare than in dense air. There is a curious phenomenon, similar to this, observed in the foun- tain of Hiero, constructed on a large scale at the Chemnicensian mines in Hungary. In this machine, the air in a large vessel is compressed by a column of water 260 feet high, a stop-cock is then opened, and as the air issues out with great vehemence, and thus becomes immedi- ately greatly expanded, so much cold is produced, that the moisture from this stream of air is precipitated in the form of snow, and ice is formed, adhering to the nosel of the cock. This remarkable circum- stance is described at large, with a plate of the machine, in Phil. Trans, vol. lii. for 1761, p. 547. The following experiment is related by Dr. Darwin, in the Phil. Trans, vol. lxxviii. Having charged an air-gun as forcibly as he well could, the air-cell and syringe became exceedingly hot, much more so than could be ascribed to the friction in working it ; it was then left about half an hour to cool down the temperature of the air, and a. thermometer having been previously fixed against a wall, the air was discharged in a continual stream on its bulb, and it sunk many degrees. From these three experiments of the steam in the exhausted receiver being deposited and re-absorbed, when a part of the air is exhausted •or rc-admitted, and the snow produced by the fountain of Hiero, BOTANIC GARDEN. Part I. and the extraordinary heat given out in charging, and the cold pro- duced in discharging an air-gun, there is reason to conclude, thai when air is mechanically compressed, the elementary fluid heat is pressed out of it. and that when it is mechanically expanded, the same fluid heat is re-absorbed from the common mass. It is probable all other bodies as well as air attract heat from their neighbours when they are mechanically expanded, and give it oui when they are mechanically condensed. Thus when a vibration of the particles of hard bodies is excited by friction or by percussion, these particles mutually recede from and approach each other reci- procally ; at the times of their recession from each other, the body becomes enlarged in bulk, and is then in a condition to attract heat from those in its vicinity with great and sudden power ; at the times of their approach to each other this heat is again given out ; but the bodies in contact having in the meanwhile received the heat they had thus lost, from other bodies behind them, do not so suddenly or so forcibly re-absorb the heat again from the body in vibration ; hence it remains on its surface like the electric fluid on a rubbed glass globe, and for the same reason, because there is no good conductor to take it up again. Hence, at every vibration more and more heat is ac- quired, and stands loose upon the surface, as in filing metals, or rub- bing glass tubes ; and thus a smith, with a few strokes on a nail on his anvil, can make it hot enough to light a brimstone match ; and hence in striking flint and steel together heat enough is produced to vitrify the parts thus stricken off, the quantity of which heat is again pro- bably increased by the new chemical combination. II. The analogy between the phenomena of the electric fluid and of heat furnishes 'another argument in support of the existence of heat as a gravitating fluid. 1. They are both accumulated by friction on the excited body. 2. They are propagated easily or with difficulty along the same classes of bodies; with ease by metals, with less ease by water, and with difficulty by resins, bees-wax, silk, air, and glass. Thus glass canes, or canes of sealing-wax, may be melted by a blow- pipe, or a candle, within a quarter of an inch of the fingers which hold them, without any inconvenient heat ; while a pin, or other metallic substance, applied to the flame of a candle, so readily con- ducts the heat as immediately to burn the fingers. Hence clothes of silk keep the body warmer than clothes of linen of ecjual thickness, by confining the heat upon the body. And hence plains are so much warmer than the summits of mountains, by the greater density of the air confining the acquired heat upon them. 3. They both give out light in their passage through air, perhaps not in their passage through a vacuum. 4. They both of them fuse or vitrify metals. 5. Bodies, after being electrized, if they arc mechanically extended, will receiva Note S. MEMNON'S LYRE. 35J a greater quantity of electricity, as in Dr. Franklin's experiment of the chain in the tankard ; the same seems true in respect to heat, as explained above. 6. Both heat and electricity contribute to suspend steam in the atmosphere, by producing or increasing the repulsion of its particles. 7. They both gravitate, when they have been accumu- lated, till they find their equilibrium. If we add to the above the many chemical experiments which re- ceive an easy and elegant explanation from the supposed matter of heat, as employed in the works of Bergman and Lavoisier, I think we may reasonably allow of its existence as an element, occasionally combined wich other bodies, and occasionally existing as a fluid, like the electric fluid gravitating amongst them ; and that hence it may be propagated from the central fires of the earth to the whole mass, and contribute to preserve the mean heat of the earth, which, in this country, is about 48 degrees, but variable from the greater or less effect of the sun's heat in different climates, so well explained in Mr. Kirwan's Treatise on the temperature of different latitudes. 1787. Elmsly. London. NOTE VIII.—MEMNON'S LYRE, So to the sacred Sun in Memnon's fane, Spontaneous concords quired the matin strain. Canto I. 1. 183. THE gigantic statue of Memnon, in his temple at Thebes, had a lyre in his hands, which, many credible writers assure us, sounded when the rising sun shone upon it. Some philosophers have supposed '.hat the sun's light possesses a mechanical impulse, and that the sounds above-mentioned might be thence produced. Mr. Michel constructed a very tender horizontal balance, as related by Dr. Priestley in his history of light and colours, for this purpose; but some experiments, with this balance, which I saw made by the late Dr. Powel, who threw the focus of a large reflector on one extremity of it, were not conclusive either way, as the copper leaf of the balance approached in one experiment and receded in another. There are, however, methods by which either a rotative or alter- nating motion may be produced by very moderate degrees of heat» If a straight glass tube, such as are used for barometers, be sus- pended horizontally before a fire, like a roasting spit, it will revolve by intervals ; for as glass is a bad conductor of heat, the side next the fire becomes heated sooner than the opposite side, and the tube IS! BOTANIC GARDHf. Part I. becomes bent int'"> a bow, with the external part of the curve towards the fire ; this curve then falls down, and produces a fourth part of ?. revolution of the glass tube, which thus revolves with intermediate, pauses. Another alternating motion I have seen produced by suspending a glass tube about eight inches long, with buibfi at each end, on a centre like a scale- >eam. This curious machine is filled about one third part with purest spirit of wine, the other two thirds being a vacuum, and is called a pulse-glass: if it be placed in a box before the fire, so that either bulb, as it rises, may become shaded from the fire, and exposed to it when it descends, an alternate libration of it is produced. For spirit of wine in vacuo emits steam by a very small degree of heat, and this steam forces the spirit beneath it up into the upper bulb, which therefore descends. It is probable such a machine, on a larger scale, might be of use to open the doors or windows of hot-houses or melon-frames, when the air within them should become too much heated, or might be employed in more important mechani- cal purposes. On travelling through a hot summer's day in a chaise, with a boj; covered with leather on the fore-axle-tree, I observed, as the sun shone upon the black leather, the box began to open its lid. which, at noon, rose above a foot, and could not, without great force, be pressed down ; and which gradually closed again as the sun declined in the evening. This, I suppose, might with still greater facility be applied *o the purpose of opening melon-frames, or the sashes of hot-houses. The statue of Memnon was overthrown and sawed in two by Cam- byses, to discover its internal structure, and is said still to exist. See Savary's Letters on Egypt. The truncated statue is said, for many centuries, to have saluted the rising sun with cheerful tones, and the setting sun with melancholy ones. NOTE IX LUMINOUS INSECTS. Star of the earthy and diamond of the night* Canto I. 1. 196a THERE are eighteen species of Lampyris, or glow-worm, accord- ing to Linnaeus, some of which are found in almost every part of the world. In many of the species the females have no wings, and are supposed to be discovered by the winged males by their shining in the night. They become much more lucid when they put themselves in ■motion, which would seem to indicate that their light is owing Note 9. LUMINOUS INSECTS. 15? respiration ; in which process it is probable phosphoric acid is pro- duced by the combination of vital air with some part of the blood, and that light is given out through their transparent bodies, by this sIcst internal combustion. There is a fire-fly, of the beetle kind, described in the Diet. Rai- sonne, under the name of Acudia, which is said to be two inches long, and inhabits the West-Indies and South-America ; the natives use them instead of candles, putting from one to three of them under a glass. Madam Merian says, that at Surinam the light of this fly is so great, that she saw sufficiently well by one of them to paint and finish one of the figures of them in her work on insects. The largest and oldest of them are said to become four inches long, and to shine like a shooting star as they fly, and are thence called Lantern-bearers. The use of this light to the insect itself seems to be, that it may not fly against objects in the night ; by which contrivance these insects are enabled to procure their sustenance either by night or day, as their wants mav require, or their numerous enemies permit them ; whereas some of our beetles have eyes adapted only to the night, and if they happen to come abroad too soon in the evening, are so dazzled that thev fly against every thing in their way. See note on Phosphorus, No. X. In some seas, as particularly about the coast of Malabar, as a ship floats along, it seems, during the night, to be surrounded with fire, and to leave a long tract of light behind it. Whenever the sea is gently agitated, it seems converted into little stars ; every drop, as it breaks, emits light, like bodies electrified in the dark. Mr. Bomare says, that when he was at the port of Cettes, in Languedoc, and bathing with a companion in the sea, after a very hot .day, they both appeared covered with fire after every immersion, and that laying his wet hand on the arm of his companion, who had not then dipped himself, the exact mark of his hand and fingers was seen in charac- ters of fire. As numerous microscopic insects are found in this shining water, its light has been generally ascribed to them, though it seems probable that fish-slime, in hot countries, may become in such a state of incipient putrefaction, as to give light, especially when by agitation it is more exposed to the air ; otherwise it is not easy to explain why- agitation should be necessary to produce this marine light. See note on Phosphorus, No. X. [ U8 J NOTE X— PHOSPHORUS. with ahining litters Kunkel't name J.: Vie pale Phosphor's self-consuming flame. Canto I. 1.233. K.UNKEL, a native of Hamburgh, was the first who discovered to the world the process for producing phosphorus, though Brandt and Boyle were likewise said to have previously had the art of making it. It was obtained from sal microensmicum, by evaporation, in the form of an acid, but has since been found in other animal substances, as in the ashes of bones, and even in some vegetables, as in wheat flour. Keir's Chemical Diet. This phosphoric acid is, like all other acids, united with vital air, and requires to be treated with charcoal 01 phlogiston to deprive it of this air ; it then becomes a kind of animal sulphur, but of so inflammable a nature, that on the access of air it takes fire spontaneously, and, as it burns, becomes again united with vital air, and re-assumes its form of phosphoric acid. As animal respiration seems to be a kind of slow combustion, in which it is probable that phosphoric acid is produced by the union of phosphorus with the vital air, so it is also probable that phosphoric acid is produced in the excretory or respiratory vessels of luminous insects, as the glow-worm and fire-fly, and some marine insects. From the same principle I suppose the light from putrid flesh, as from the heads of haddocks, and from putrid veal, and from rotten wood, in a certain state of their putrefaction, is produced, and phosphorus, thus slowly combined with air, is changed into phosphoric acid. The light from the Bolognian stone, and from calcined shells, and from uhite paper, and linen, after having been exposed for a time to the sun's light, seems to produce either the phosphoric or some other kind of acid, from the sulphurous or phlogistic matter which they contain. See note on Beccari's shells, 1. 182. There is another process seems similar to this slow combustion, and that is bleaching. By the warmth and light of the sun, the water sprinkled upon linen or cotton cloth seems to be decomposed (if we credit the theory of M. Lavoisier), and a part of the vital air thus set at liberty and uncombined, and not being in its clastic form, more easily dissolves the colouring or phlogistic matter of the cloth, and produces a new acid, which is itself colourless, or is washed out of the cloth by water. The new process of bleaching confirms a part of this theory, for by uniting much vital air to marine acid, by distil- ling it from manganese, on dipping the cloth to he bleached in water raerated. marine acid, the colouring matter Note 11. STEAM-ENGINE. 159- disappears immediately, sooner indeed in cotton than in linen. See note XXXIV. There is another process which, I suspect, bears analogy to these above-mentioned, and that is the rancidity of animal fat, as of bacon : if bacon be hung up in a warm kitchen, with much salt adhering on the outside of it, the fat part of it soon becomes yellow and rancid ; if it be washed with much cold water after it has imbibed the salt, and just before it is hung up, I am well informed that it will not be- come rancid, or in very slight degrees. In the former case I imagine the salt on the surface of the bacon attracts water during the cold of the night, which is evaporated during the day, and that in this eva- poration a part of the water becomes decomposed, as in bleaching ; and ks vital air uniting with greater facility in its unelastic state with the animal fat, produces an acid, perhaps of the phosphoric kind, which being of a fixed nature, lies upon the bacon, giving it the yellow colour and rancid taste. It is remarkable that the superaerated ma- rine acid does not bleach living animal substances, at least it did not whiten a part of my hand which I for some minutes exposed to it. NOTE XT— STEAM-ENGINE. Quick moves the balanced beam of giant-birth, Wields his large limbs, and, nodding, shakes the earth. Canto I. 1. 26L THE expansive force of steam was known in some degree to the ancients. Hero, of Alexandria, describes an application of it to pro- duce a rotative motion by the re-action of steam issuing from a sphere mounted upon an axis, thriugh two small tubes bent into tangents, and issuing from the opposite sides of the equatorial diameter of the sphere ; the sphere was supplied with steam by a pipe communicating with a pan of boiling water, and entering the sphere at one of its poles. A French writer, about the year 1630, describes a method of rais- ing water to the upper part of a house, by filling a chamber with steam, and suffering it to condense of itself; but it seems to have been mere theory, as his method was scarcely practicable as he describes it. In 16J5, the Marquis of Worcester mentions a method of raising water by fire, in his Century of Inventions ; but he seems only to have d 'iimself of the expansive force, and not to have known the ad- vantages arising from condensing the steam by an injection of cold Part I. Z 160 BOTANIC GARDEN. Part I. water. This latter and most important improvement seems to ha\r been made by Capt. Savary, some time prior to 1698, for in that \eai ins patent for the use of that invention was confirmed by act of par- liament. This gentleman appears to have been the first who reduced the machine to practice, and exhibited it in an useful firm. This method consisted only in expelling the air from a vessel by steam, and condensing the steam by an injection of cold water, which making a vacuum, the pressure of the atmosphere forced the water to ascend into the steam-vessel through a pipe of 24 to 26 feet high, and by the admission of dense steam from the boiler, forcing the water in the steam-vessel to ascend to the height desired. This construction was defective, because it required very strong vessels to resist the force of the steam, and because an enormous quantity of steam was con- densed by coming in contact with the cold water in the steam-vessel. About, or soon after that time, M. Papin attempted a steam-engine on similar principles, but rather more defective in its construction. The next improvement was made very soon afterwards by Messrs. Newcomen and Cawley, of Dartmouth ; it consisted in employing for the steam-vessel a hollow cylinder, shut at bottom and open at top, furnished with a piston sliding easily up and down in it, and made tight by oakum or hemp, and covered with water. This piston is suspended by chains from one end of a beam, moveable upon an axis in the middle of its length ; to the other end of this beam are sus- pended the pump-rods. The danger of bursting the vessels was avoided in this machine ; as however high the water was to be raised, it was not necessary to increase the density of the steam, but only to enlarge the diameter o£ the cylinder. Another advantage was, that the cylinder, not being made so cold as in Savary's method, much less steam was lost in filling it after each, condensation. The machine, however, still remained imperfect, for the cold wa- ter thrown into the cylinder acquired heat from the steam it con- densed, and being in a vessel exhausted of air, it produced steam itself. which, in part, resisted the action of the atmosphere on the piston; were this remedied by throwing in more cold water, the destruction of steam in the next filling of the cylinder would be proportionally increased. It has, therefore, in practice, been found advisable not to load these engines with columns of water weighing more than seven pounds for each square inch of the area of the piston. The bulk of Water, when converted into steam, remained unknown, until Mr. J. Watt, then of Glasgow, in 176-1, determined it to be about 1800 times more- rare than water. It soon occurred to Mr. Watt, that a perfect engine would Ik: that in which no steam should be condensed in filling Note 11. STEAM-ENGINE. 161 the cylinder, and in which the steam should be so perfectly cooled as to produce nearly a perfect vacuum. Mr. Watt having ascertained the degree of heat in which water boiled in vacuo, and under progressive degrees of pressure, and in- structed by Dr. Black's discovery of latent heat, having calculated the quantity of cold water necessary to condense certain quantities of steam so far as to produce the exhaustion required, he made a communication, from the cylinder to a cold vessel previously exhausted of air and wa- ter, into which the steam rushed, by its elasticity, and became imme- rliately condensed. He then adapted a cover to the cylinder, and admitted steam above the piston to press it down instead of air, and instead of applying water, he used oil or grease to fill the pores of the oakum, and to lubricate the cylinder. He next applied a pump to extact the injection water, the con- densed steam, and the air, from the condensing vessel, every stroke of the engine. To prevent the cooling of the cylinder by the contact of the exter- nal air, he surrounded it with a case containing steam, which he again protected by a covering of matters which conduct heat slowly. This construction presented an easy means of regulating the power of the engine, for the steam being the acting power, as the pipe which admits it from the boiler is more or less opened, a greater or smaller quantity can enter during the time of a stroke, and, consequently, the engine can act with exactly the necessary degree of energy. Mr. Watt gained a patent for his engine in 1768 ; but the further prosecution of his designs was delayed by other avocations till 1775, when, in conjunction with Mr. Boulton, of Soho, near Birmingham, numerous experiments were made, on a large scale, by their united ingenuity, and great improvements added to the machinery, and an act of parliament obtained for the prolongation of their patent for twenty-five years : they have, since that time, drained many of the deep mines in Cornwall, which, but for the happy union of such genius, must immediately have ceased to work. One of these engines works a pump of eighteen inches diameter, and upwards of 100 fathom, or 600 feet high, at the rate of ten to twelve strokes, of seven feet long each, in a minute, and that with one fifth part of the coals Avhich a common engine would have taken to do the same work. The power of this engine may be easier comprehended by saying, that it raised a weight equal to 81,000 pounds 80 feet high in a minute, which is equal to the combined action of 200 good horses. In Newcomen's en» gine this would have required a cylinder of the enormous diameter of 120 inchesi or ten feet ; but as in this engine of Mr. Watt and Mr Boulton the steam acts, and a vacuum is made, alternately above and below the piston, the power exerted is double to what the same cylinder W BOTANIC GARDEN. p ART I. would otherwise produce, and is further augmented by an inequality in the length of the two ends of die lever. These gentlemen have aLso, by other contrivance-, app'ied tlieir engines to the tuning of mills for almost ev ry purple, of which that great pile of machinery, the A bion Mill, is a well known instance. Forges, slitting mills, and other great works, are erected where na- ture has furnished no running water, and future times may boast thit this grand and useful engine was invented and perfected in our own country. Since the above article went to the press, the Albion Mill is no more ; it is supposed to have been set on fire by interested or ma.icious incen- diaries, and is burnt to the ground. Whence London has lost the credit and the advantage of possessing the most powerful machine ia the world. NOTE XII— FROST. In phalanx Jirrn, the Fiend of Frost assail. Canto I. 1.439. THE cause of the expansion of water during its conversion into ice is not yet well ascertained ; it was supposed to have been owing to the air being set at liberty in the act of congelation, which was before, dissolved in the water, and the many air bubbles in ice were thought to countenance this opinion. But the great force with which ice ex- pands during its congelation, so as to burst iron bombs and coehorns. according to the experiments of Major Williams, at Quebec, invali- dates this idea of the cause of it, and may some time be brought into use as a means of breaking rocks in mining, or projecting cannon* balls, or for other mechanical purpose . if the means of producing congelation shou d ever be discovered to be as easy as the means of producing combustion. Mr. de Mairan attributes the increase of bulk of frozen water te the different arrangement of the particles of it in crystallization, as they are constantly joined at an angle of 60 degrees, and must, b) this disposition, he thinks, occupy a greater volume than if they were parallel. He found the augmentation of the water, during freezing, to amount to one-fourteenth, one-eighteenth, one-nineteenth, and When the water was previously purged of air, to only one-twenty- Becond part. He adds, that a piece of ice, which was at first only one- fourteenth par' specifically lighter than water, on being exposed sow days to the frost, became one-twelfth lighter than water. H Note 12. FROST. 163 thinks ice, by being exposed to greater cold, still increases in volume, and to this attributes the bursting of ice in ponds, and on the glaciers. See Lewis's Commerce of Arts, p. 257, and the note on Muschus, in the second part of this work. This expansion of ice well accounts for the greater mischief done by vernal frosts attended with moisture (as by hoar frosts), than by the dry frosts, called black frosts. Mr. Lawrence, in a letter to Mr. Bradley, complains that the dale-mist, attended with a frost, on May- day, had destroved all his tender fruits ; though there was a sharper frost the night before, without a mist, that did him no injury ; and adds, that a garden not a stone's throw from his own, on a higher situation, being above the dale-mist, had received no damage. Brad- ley, vol. ii. p. 232. Mr. Hunter, by very curious experiments, discovered that the living principle in fish, in vegetables, and even in eggs and seeds, possesses a power of resisting congelation. Phil. Trans. There can be no doubt but that the exertions of animals to avoid the pain of cold, re- produce in them a greater quantity of heat, at least for a time ; but that vegetables, eggs, or seeds, should possess such a quality, is truly •wonderful. Others have imagined that animals possess a power of preventing themselves from becoming much warmer than 98 degrees- of heat, when immersed in an atmosphere above that degree of heat. It is true that the increased exhalation from their bodies will, in some measure, cool them, as much heat is carried off by the evaporation of fluids ; but this is a chemical, not an animal process. The experi- ments made by those who continued many minutes in the air of a room heated so much above any natural atmospheric heat, do not seem con- elusive, as they remained in it a less time than would have been neces- sary to have heated a mass of beef of the same magnitude ; and the circulation of the blood in living animals, by perpetually bringing new- supplies of fluid to the skin, would prevent the external surface from becoming hot much sooner than the whole mass. And, thirdly, there appears no power of animal bodies to produce cold in diseases, as in scarlet fever, in which the increased action of the vessels of the skin produces heat, and contributes to exhaust the animal power already too much weakened. It has been thought by many that frosts meliorate the ground, and that they are in general salubrious to mankind. In respect to the for- mer, it is now well known that ice or snow contain no nitrous par- ticles, and though frost, by enlarging the bulk of moist clay, leaves it softer for a time after the thaw ; yet as soon as the water exhales, the clay becomes as hard as before, being pressed together by the incum- bent atmosphere, and by its self-attraction, called setting by the pot- ters. Add tothisj that on the coasts of Africa, where frost is an- 164 BOTANIC GARDEN. Part I, known, the fertility of the soil is almost beyond our conceptions of it. In respect to the general salubrity of frosty seasons, the bills of mortality are an evidence in the negative, as in long frosts many weakly and old people perish from debility occasioned by the cold, and many classes of birds, and other wild animals, are benumbed by the cold, or destroyed by the consequent scarcity of food, and many ten- der vegetables perish from the degree of cold. I do not think it should be objected to this doctrine, that there arc moist days, attended with a brisk cold wind, when no visible ice ap- pears, and which are yet more disagreeable and destructive than frosty weather. For on these days the cold moisture which is deposited on the skin is there evaporated, and thus produces a degree of cold per- haps greater than the milder frosts. Whence, even in such days, both the disagreeable sensations and insalubrious effects belong to the cause above-mentioned, viz. the intensity of the cold. Add to this, that in these cold moist days, as we pass along, or as the wind blows upon us, a new sheet of cold water is, as it were, perpetually applied to us, and hangs upon our bodies. Now, as water is 800 times denser than air, and is a much better conductor of heat, we are starved with cold, like those who go into a cold bath, both by the great number of particles in contact with the skin, and their greater facility of receiv- ing our heat. It may nevertheless be true, that snows of long duration, in our ■winters, may be less injurious to vegetation than great rains and shorter frosts, for two reasons. 1. Because great rains carry down many thousand pounds worth of the best part of the manure off the lands into the sea, whereas snow dissolves more gradually, and thence carries away less from the land. Any one may distinguish a snow- flood from a rain-flood by the transparency of the water. Hence hills or fields, with considerable inclination of surface, should be ploughed horizontally, that the furrows may stay the water from showers till it deposits its mud. 2. Snow protects vegetables from the severity of the frost, since it is always in a state of thaw where it is in contact with the earth ; as the earth's heat is about 48 degrees, and the heat of thawing snow is 32 degrees, the vegetables between them are kept In a degree of heat about 40, by which many of them are preserved, -?ce note on Muschus, Part II. of this work. C 165 ) NOTE XIII ELECTRICITY. Cold from each point cerulean lustres gleam. Canto I. 1. 339. ELECTRIC POINTS. THERE was an idle dispute, whether knobs or points were prefer- able on the top of conductors, for the defence of houses. The design of these conductors is to permit the electric matter accumulated in the clouds to pass through them into the earth in a smaller continued stream as the cloud approaches, before it comes to what is termed striking distance. Now, as it is well known that accumulated electricity will pass to points at a much greater distance than it will to knobs, there can be no doubt of their preference ; and it would seem, that the finer the points, and the less liable to become rusty, the better, as it would take off the lightning while it was still at a greater distance, and by that means preserve a greater extent of building. The very extremity of the point should be of pure silver or gold, and might be branched into a kind of brush, since one small point cannot be supposed to re- ceive so great a quantity as a thicker bar might conduct into the earth* If an insulated metallic ball is armed with a point, like a needle, projecting from one part of it, the electric fluid will be seen in the dark to pass off from this point, so long as the ball is kept supplied with electricity. The reason of this is not difficult to comprehend : Every part of the electric atmosphere which surrounds the insulated ball, is attracted to that ball by a large surface of it ; whereas the elec- tric atmosphere which is near the extremity of the needle, is attracted to it only by a single point ; in consequence, the particles of elec- tric matter, near the surface of the ball, approach towards it, and push off, by their greater gravitation, the particles of electric matter over the point of the needle, in a continued stream. Something like this happens in respect to the diffusion of oil on wa- ter from a pointed cork, an experiment which was many years ago shown me by Dr. Franklin. He cut a piece of cork about the size of a letter-wafer, and left on one edge of it a point about a sixth of an inch in length, projecting as a tangent to the circumference. This was dipped in oil, and thrown on a pond of water, and continued to revolve, as the oil left the point, for a great many minutes. The oil descends from the floating cork upon the water, being diffused upon it without friction, and perhaps without contact ; but its going off at the point so forcibly as to make that cork revolve in a contrary direc- tion, seems analogous to the departure of the electric fluid from poirrt^ 166 BOTANIC GARDEN*. Part I. Can any thing similar to either of these happen in respect to the earth's atmosphere, and give occasion to the breeaes on the mountains, which may be considered as points on the earth's circum- ference I FAIRY-RINGS. There i- a phenomenon, supposed to be electric, which is yet unac- counted for ; I mean the Fairy-rings, as they are called, so often -een on the grass. The numerous flashes of lightning which occur every summer, are, I believe, generally discharged on the earth, and but seldom (if ever) from one cloud to another. Moist trees are the most frequent conductors of these flashes of lightning, and I am informed by purchasers of wood, that innumerable trees are thus cracked and injured. At other times larger parts or prominences of clouds, gra- dually sinking as they move along, are discharged on the moister parts of grassy plains. Now, this knob or corner of a cloud, in being attracted by the earth, will become nearlv cylindrical, as loose wool would do when drawn out into a thread, and will strike the earth with a stream of electricity, perhaps two or ten yards in diameter. Now, as a stream of electricity displaces the air it passes through, it is plain no part of the grass can be burnt by it, but just the external ring of this cylinder, where the grass can have access to the air, since with- out air nothing can be calcined. This earth, after having been so calcined, becomes a richer soil, and either funguses or a bluer grass for many years mark the place. That lightning displaces the air in its passage is evinced by the loud crack that succeeds it, which is owing to the sides of the aerial vacuum clapping together when the lightning is withdrawn. That nothing will calcine without air is now- well understood from the acids produced in the burning of phlo- gistic substances, and may be agreeably seen by suspending a paper on an iron prong, and putting it into the centre of the blaze of an iron-furnace ; it may be held there some seconds, and may be again withdrawn without its being burnt, if it be passed quickly into the flame and out again, through the external part of it, which i tact with the air. I know some circles of many yards diameter of this kind, near Foremark, in Derbyshire, which annually produce large white funguses, and stronger grass, and have done so, 1 am in- formed, above thirty years. This increased fertility of the ground by calcination or charring, and its continuing to operate so m is well worth the attention of the fanner, and shows the use of paring and burning new turf in agriculture, which produces its effect not so much by the ashes of the vegetabl charring the soil which acLieres to th ; Jg'ortU. BUDS AND BULBS. 16r These situations, whether from eminence or from moisture, which were proper once to attract and discharge a thunder-cloud, are more liable again to experience the same. Hence many fairy-rings are often seen near each other, either without intersecting each other, as I saw this summer in a garden in Nottinghamshire, or intersecting each other, as described on Arthur's seat, near Edinburgh, in the Edinb Trans, vol. ii. p. 3. NOTE XIV.— BUDS AND BULBS, Where dwell my -vegetative realms benumb' 'a, In buds im/irisan'd, or in bulbs intomb'd. Canto I. 1. 459. A Tree is, properly speaking, a family or swarm of buds, eacK bud being an individual plant ; for if one of these buds be torn or cut out, and planted in the earth, with a glass cup inverted over it, to prevent its exhalation from being at first greater than its power of absorption, it will produce a tree similar to its parent : each bud has a leaf, which is its lungs, appropriated to it, and the bark of the tree is a congeries of the roots of these individual buds ; whence old hollow trees are often seen to have some branches flourish with vigour after the internal wood is almost entirely decayed and vanished. According to this idea, Linnxus has observed, that trees and shrubs are roots above ground ; for if a tree be inverted, leaves will grow from the root-part, and roots from the trunk-part. Phil. Bot. p. 39. Hence it appears that vegetables have two methods of propagating them- selves, the oviparous as by seeds, and the viviparous as by their buds and bulbs; and that the individual plants, whether from seeds, or buds, or bulbs, are all annual productions, like many kinds of insects, as the silk-worm, the parent perishing in the autumn after having produced an embryon, which lies in a torpid state during the winter, and is matured in the succeeding summer. Hence Linnxus names buds and bulbs the winter cradles of the plant, or hybernacula, and might have given the same term to seeds. In warm climates fevy plants produce buds, as the vegetable life can be completed in one summer, and hence the hybernacle is not wanted ; in cold climates also some plants do not produce buds, as philadelphus, frangula, vi- burnum, ivy, heath, wood-nightshade, rue, geranium. . The bulbs of plants are another kind of winter cradle, or hyberna- cle, adhering to the descending trunk, and are found in the perennial herbaceous plants, which are too tender to bear the cold of the winter. Part I. 2 A 168 BOTANIC GARDE*. Part I. The production of these subterraneous winter lodges is not yet, per- haps, clearly understood; they have been distributed by Linnxus, according to their forms, into scaly, solid, coated, and jointed bulbs, which, however, docs not elucidate their manner of production. As the buds of trees may be truly esteemed individual annual plants, their roots constituting the bark of the trees, it follows, that these roots (viz. of each individual bud) spread themselves over the last year's bark, making a new bark over the old one, and thence descend- ing, cover with a new bark the old roots also in the same manner. A similar circumstance I suppose to happen in some herbaceous plants, that is, a new bark is annually produced over the old root ; and thus, for some years at least, the old root or caudex increases in size, and puts up new stems. As these roots increase in size, the central part, I suppose, changes like the internal wood of a tree, and does not possess any vegetable life, and therefore gives out no fibres or rootlets, and hence appears bitten off, as in valerian, plantain, and devil's bit. And this decay of the central part of the root, I sup- pose, has given occasion to the belief of the root-fibres drawing down the bulb, so much insisted on by Mr. Milne, in his Botanical Diction- ary, art. Bulb. From the observations and drawings of various kinds, of bulbous roots, at different times of their growth, sent me by a young lady of nice observation, it appears probable that all bulbous roots, pro- perly so called, perish annually in this climate. Bradley, Miller, and the author of Spectacle de la Nature, observe that the tulip annually renews its bulb, for the stalk of the old flower is found under the old dry coat, but on the outside of the new bulb. This large new bulb is the flowering bulb; but besides this there are other small new bulbs produced between the coats of this large one, but from the same cau- dex (or circle from which the root-fibres spring) ; these small bulbs are leaf-bearing bulbs, and renew themselves annually, with increas- ing size, till they bear flowers. Miss favoured me with the following curious experiment ; She took a small tulip-root out of the earth when the green leaves ■were sufficiently high to show the flower, and placed it in a glass of water; the leaves and flower soon withered, and the bulb became ■wrinkled and soft, but put out one small side bulb, and three bulbs beneath, descending an inch into the water by processes from the caudex; the old bulb in some weeks entirely decayed. On dissecting i ter, the middle descending bulb was found, by its process, to adhere to the caudex and to the old flower-stem ; and the side ones were separated from the flower-stem bj a few shrivelled coats, but ad- hered to tin caudex. Whence she concludes that these last were en- acts, or leaf-bulbs, which should have been seen between the coal Note 15. SOLAR VOLCANOS. 16S new flower-bulb, if it had been left to grow in the earth, and that the mid- dle one would have been the new flower-bulb. In some years (perhaps in wet seasons) the florists are said to lose many of their tulip-roots by a similar process, the new leaf-bulbs being produced beneath the old ones by an elongation of the caudex, without any new flower-bulbs. By repeated dissections, she observes, that the leaf-bulbs, or off- sets of tulip, crocus, gladiolus, fritillary, are renewed in the same manner as the flowering-bulbs, contrary to the opinion of man)' wri- ters ; this new leaf-bulb is formed on the inside of the coats from whence the leaves grow, and is more or less advanced in size as the outer coats and leaves are more or less shrivelled. In examining tulip, iris, hyacinth, hare-bell, the new bulb was invariably found between the flower-stem and the base of the innermost leaf of those roots which had flowered, and enclosed by the base of the innermost leaf in those roots which had not flowered, in both cases adhering to the caudex or fleshy circle from which the root-fibres spring. Hence it is probable that the bulbs of hyacinths are renewed annu- ally, but that this is performed from the caudex within the old bulb, the outer coat of which does not so shrivel as in crocus and fritillaiy, and hence this change is not so appai'ent. But, I believe, as soon as the flower is advanced, the new bulbs may be seen on dissection ; nor does the annual increase of the size of the root of cyclamen, and of aletris capensis, militate against this annual renewal of them, since the leaf-bulbs, or off-sets, as described above, are increased in size as they are annually renewed. See note on Orchis, and on Anthox- anthum, in Part II. of this work. NOTE XV SOLAR VOLCANOS, From the deep craters of his realms of fire, The whirling Sun this ponderous planet hurVd. Canto II. 1. 14. Dr. Alexander Wilson, Professor of Astronomy at Glasgow, published a paper in the Philosophical Transactions for 1774, demon- strating that the spots in the sun's disk are real cavities, excavations through the luminous material, which covers the other parts of the sun's surface. One of these cavities he found to be about 4000 miles deep, and many times as wide. Some objections were made to this doctrine by M. De la Lande, in the Memoirs of the French Academy for the year 1776, which, however, have been ably answered by pro- fessor Wilson in reply, in the Philos. Trans, for 1783. Kiel cbservesj 17% I \mt GARDEtt Part I. in his Astronomical Lectures, p. 44, "We frequently so? tin' sim \shii h ; n< t on!}- than Europe or Africa, but which even equal, if they do not exceed, the surface of the whole terraqueous globe." Now, that these cavities are made in the sun's body by a process of nature similar to our earthquakes, d< W not stem improbable on several, accounts. 1. Because, From this di Dr. Wilson, it appears that the internal parts of the sun are not in a state of inflammation or of ejecting light, like the external part or luminous ocean which covers it; and hence that a greater degree of heat or inflammation, and consequent expansion or expl wion, may occasionally be produced in its internal or dark nucleus. 2. Because the solar spots or cavities are frequently increased or diminished in size. 3. New ones are often produced. 4. And old ones vanish. 5. Because there are brighter or more luminous parts of the sun's disk, called faculx by Scheiner and Hevelius, which would seem to be vol- canos in the sun, or, as Dr. Wilson calls them, " eructations of mat- ter more luminous than that which covers the sun's surface." 6. To which may be added that all the planets added together, with their satellites, do not amount to more than one six hundred and fiftieth part of the mass of the sun, according to Sir Isaac Newton. Now, if it could be supposed that the planets were originally thrown out of the sun by larger sun-quakes than those frequent ones which occasion these spots or excavations above-mentioned, what would happen ? 1. According to the observations and opinion of Mr. Her- schel, the sun itself, and all its planets, are moving forwards round some other centre with an unknown velocity, which may be of opake matter, corresponding with the very ancient and general idea of a chaos. Whence, if a ponderous planet, as Saturn, could be supposed to be projected from the sun by an explosion, the motion of the sun itself might be at the same time disturbed in such a manner as to prevent the planet from falling again into it. 2. As the sun n viucs round its own axis, its form must be that of an oblate spheroid, like the earth, and therefore a body projected from its surface perpendicu- larly upwards from that surface, would not rise perpendicularly from the sun's centre, unless it happened to be projected exactly from either of its poles or from its equator. Whence it may not be neces- Barj that a planet, if thus projected from the su i. should again Fall into the sun. 3. They would part from the sun's surface with the velocity with which that surface was moving, and with the velocity acquired by the explosion, and would therefor* in \e round, tin- sun in the same direction in which the sun rotates on its axis, and perform eliptic orbits. 4. All the planets would move the same way round the sun, from this first motion acquired at leaving its surface; but their orbits would br. inclined to cacji other according to the dis- :note 15. SOLAR VOLCANOS. Ifl tance of the part, where they were thrown out, from the sun's equa- tor. Hence those which were ejected near the sun's equator would have orbits but little inclined to each other, as the primary planets; the plain of all whose orbits are inclined but seven degrees and a half from each other. Others, which were ejected near the sun's poles, would have much more eccentric orbits, as they would partake so much less of the sun's rotatory motion at the time they parted from his surf ire, and would, therefore, be carried further from the sun by the velocity they had gained by the explosion which ejected them, and become comets. 5. They would all obey the same laws of motion in their revolutions round the sun. This has been determined by astro- nomers, who have demonstrated that they move through equal areas in equal times. 6. As their annual periods would depend on the height they rose by the explosion, these would differ in them all. 7. As their diurnal revolutions would depend on one side of the exploded matter adhering more than the other at the time it was torn off by the explosion, these would also differ in the different planets, and not bear any proportion to their annual periods. Now, as all these cir- cumstances coincide with the known laws of the planetary system, they serve to strengthen this conjecture. This coincidence of such a variety of circumstances induced M. de Buffon to suppose that the planets were ail struck off from the sun's surface by the impact of a large comet, such as approached so near the sun's disk, and with such amazing velocity, in the year 1680, and is expected to return in 2255. But Mr. Buffon did not recollect that these comets themselves are only planets with more eccentric orbits, and that, therefore, it must be asked, what had previously struck off these comets from the sun's body ? 2. That if all these planets were struck off from the sun at the same time, they must have been so near as to have attracted each other, and have formed one mass. 3. That we shall want new causes for separating the secondary planets from the primary ones, and must therefore look out for some other agent, as it does not appear how the impulse of a comet could have made one planet roll round another at the time they both of them were driven off from the surface of the sun. If it should be asked, why new planets are not frequently ejected from the sun ? it may be answered, that after many large earthquakes many vents are left for the elastic vapours to escape, and hence, by the present appearance of the surface of our earth, earthquakes, prodigiously larger than any recorded in history, have existed; the .^ame circumstances may have affected the sun, on whose surface there are appearances of volcanos, as described above. Add to this, that some of the comets, and even the Georgium Sidus, may, for aught we know to the contrary, have been emitted from the sun, in more mo- 172 BOTANIC GARDEN. Part i. dern days, and have been diverted from their course, and thus pre- vented from returning into the sun, by their approach to some of the older planets, which is somewhat countenanced by the opinion several philosophers have maintained, that the quantity of matter of the sun has decreased. Dr. Halley observed, that by comparing the propor- tion which the periodical time of the moon bore to that of the sun in former times, with the proportion between them at present, that the moon is found to be somewhat accelerated in respect to the sun. Pcmbcrton's View of Sir Isaac Newton, p. 247. And so large is the body of this mighty luminary, that all the planets thus thrown out of it would make scarce any perceptible diminution of it as mentioned above. The cavity mentioned above, as measured by Dr. Wilson, of 4000 miles in depth, not penetrating an hundreth part of the sun's semi-diameter ; and yet, as its width was many times greater than its depth, was large enough to contain a greater body than our terrestrial world. I do not mean to conceal, that from the laws of gravity unfolded by Sir Isaac Newton, supposing the sun to be a sphere, and to have no progressive motion, and not liable itself to be disturbed by the sup- posed projection of the planets from it, that such planets must return into the sun. The late Rev. William Ludlam, of Leicester, whose genius never met with reward equal to its merits, in a letter to me, dated January, 1787, after having shown, as mentioned above, that planets so projected from the sun would return to it, adds, " That a a body as large as the moon so projected, would disturb the motion of " the earth in its orbit, is certain ; but the calculation of such dis- " turbing forces is difficult. The body in some circumstances might " become a satellite, and both move round their common centre of u gravity, and that centre be carried in an annual orbit round the " sun." There are other circumstances which might have concurred at the iime of such supposed explosions, which would render this idea not impossible. 1. The planets might be thrown out of the sun at the time the sun itself was rising from chaos, and be attracted by other suns in their vicinity rising at the same time out of chaos, which would prevent them from returning into the sun. 2. The new planet, in its course or ascent from the sun, might explodeand eject a satellite, or perhaps more than one, and thus, by its course being effected, might not return into the sun. 3. If more planets were ejected at the same Ihne from the sun, they might attract anil disturb each others courso .it the time they left the body of the sun, or very soon afterwards, when they would be so much nearer each other. ( 173 ) NOTE XVI.—CALCAREOUS EARTH. While Ocean vjraji'd it in his azure robe. Canto II. 1. 34. FROM having observed that many of the highest mountains of the world consist of lime-stone replete with shells, and that these moun- tains bear the marks of having been lifted up by subterraneous fires from the interior parts of the globe ; and as lime-stone replete with shells is found at the bottom of many of our deepest mines, some phi- losophers have concluded that the nucleus of the earth was for many ages covered with water, which was peopled with its adapted animals ; that the shells and bones of these animals, in a long series of time, pro- duced solid strata in the ocean surrounding the original nucleus. These strata consist of the accumulated exuvias of shell-fish — the animals perished age after age, but their shells remained, and, in progression of time, produced the amazing quantities of iime-stone which almost cover the earth. Other marine animals, called coral- loids, raised walls, and even mountains, by the congeries of their calcareous habitations ; these perpendicular coralline rocks make some parts of the southern ocean highly dangerous, as appears in the journals of Capt. Cooke. From contemplating the immense strata of lime-stone, both in respect to their extent and thickness, formed from these shells of animals, philosophers have been led to conclude, that much of the water of the sea has been converted into calcareous earth, by passing through their organs of digestion. The formation of calcareous earth seems more particulai'ly to be an animal process, as the formation of clay belongs to the vegetable economy ; thus the shells of crabs, and other testaceous fish, are annually re-produced from the mucous membrane beneath them ; the shells of eggs are first a mucous membrane, and the calculi of the kidneys, and those found in all other parts of our system, which sometimes contain calcareous earth, seem to originate from inflamed membranes ; the bones them- selves consist of calcareous earth united with the phosphoric or ani- mal acid, which may be separated by dissolving the ashes of calcined bones in the nitrous acid ; the various secretions of animals, as their saliva and urine, abound likewise with calcareous earth, as appears by the incrustations about the teeth, and the sediments of urine. It is probable that animal mucus is a previous process towards the for- mation of calcareous earth ; and that all the calcareous earth in the world, which is seen in lime-stones, marbles, spars, alabasters, marls (which make up the greatest part of the earth's crust, as far as it has yet been penetrated), have been formed originally by animal and BOTANIC GARDEN. Part I.. vegetable bodies from the mass of water, and that by these means the solid part of the terraqueous globe lias perpetuall) been in an in- creasing slate, and the water perpetually in a decreasing one. After the mountains of shells, and other recrements of aquatic animals, w< re elevated above the water, the upper heaps of tin in were gradually dissolved by rains and dews, and oozing through, were either perfectly crystallized in smaller cavities, and formed ous spar, or were imperfectly crystallized on the roofs of 1. : vitics, and produced stalactites; or, mixing with other undissolved shells beneath them, formed marbles, which were more or l< tallized and more or less pure ; or, lastly, after being dissolved, the water was exhaled from them in such a manner that the external parts became solid, and, forming an arch, prevented the internal parts from approaching each other so near as to become solid, and thus chalk was produced. I have specimens of chalk formed at the root of several stalactites, and in their central parts ; and of other stalactites, which are hollow like quills, from a similar cause, viz. from the external part of the stalactite hardening first by its evapo- ration, and thus either attracting the internal dissolved particles to the crust, or preventing them from approaching each other so as to form a solid body. Of these I saw many hanging from the arched roof of a cellar under the high street in Edinburgh. If this dissolved lime-stone met with vitriolic acid, it was converted into alabaster, parting at the same time with its fixable air. If it met with the fluor acid, it became fluor ; if with the siliceous acid, flint ; and when mixed with clay and sand, or either of them, acquires the name of marl. And under one or other of these forms, composes a great part of the solid globe of the earth. Another mode in which lime-stone appears is in the form of round granulated particles, but slightly cohering together : of this kind a bed extends over Lincoln heath, perhaps twenty miles long by ten wide. The form of this calcareous sand, its angles having been rub- bed off, and the flatness of its bed, evince that that part of the coun- try av;is so formed under water, the particles of sand having thus been rounded, like all other rounded pebbles. This round form of calcareous sand, and of other larger pebbles, is produced under water, partly by their being more or less soluble in water; and luii e the angular parts become dissolved, first, by their exposing a larger surface to the action of the menstruum, and, secondly, from their attrition against each other by the streams or tides, for a great length of time, successively, as they were collected, and, perhaps, when F them had not acquired their hardest This calcareous sand has generally been called ketton-stone, and believed u> resemble the spawn of fish; it has acquired a form so Note 16. CALCAREOUS EARTH. 1 7$ much rounder than siliceous sand, from its being of so much softer a texture, and also much more soluble in water. There are other soft calcareous stones called tupha, which are deposited from water on mosses, as :it Matlock, from which moss it is probable the water may receive something which induces it the readier to part with \u earth. In some lime-stones the living animals seem to have been buried, as well as their shells, during some great convulsion of nature. These shells contain a black coaly substance within them ; in others some phlogiston or volatile alkali, from the bodies of the dead animals, re- mains mixed with the stone, which is then called liver-stone, as it emits a sulphureous smell on being struck ; and there is a stratum about six inches thick extends a considerable way over the iron-ore at Wingerworth, near Chesterfield, in Derbyshire, which seems evi- dently to have been formed from the shells of fresh-water muscles. There is, however, another source of calcareous earth besides the aquatic one above described, and that is from the recrements of land animals and vegetables, as found in marls, which consist of various mixtures of calcareous earth, sand and clay, all of them, perhaps, principally from vegetable origin. Dr. Hutton is of opinion, that the rocks of marble have been sof- tened by fire into a fluid mass, which, he thinks, under immense pres- sure, might be done without the escape of their carbonic acid or fixed air. Edinb. Trans, vol. i. If this ingenious idea be allowed, it might account for the purity of some white marbles, as during their fluid state there might be time for their partial impurities, whether from the bodies of the animals which produced the shells, or from other extraneous matter, either to sublime to the uppermost part of the stratum, or to subside to the lowermost part of it. As a confirmation cf this theory of Dr. Hutton's, it may be added, that some calcareous stones are found mixed with lime, and have thence lost a part of their fixed air, or carbonic gas, as the bath-stone, and, on that ac- count, hardens on being exposed to the air, and, mixed with sulphur, produces calcareous liver of sulphur. Falconer on Bath-water, vol. i. p. M6 and p. 257. Mr. Monnet found lime in powder in the moun- tains of Auvergne, and suspected it of volcanic origin. Kirwan's Miner, p. 22. ( IT6 ) NOTE XVII.— MORASSES. Gnomrs ! you then taught transuding deivs to pass Through time-fall'n woods, and root-inwovc num Canto II. ]. 115. WHERE woods have repeatedly grown and perished, morasses are, in process of time, produced, and by their long roots, fill up the interstices till the whole becomes, for many yards deep, a mass of vegetation. This fact is curiously verified by an account given many years ago by the Earl of Cromartie, of which the following is a short abstract. In the year 1651, the Earl of Cromartie, being then nineteen years of age, saw a plain in the parish of Lockburn covered over with a firm standing wood, which was so old that not only the trees had no green leaves upon them, but the bark was totally thrown off, which, he was there informed by the old countrymen, was the universal man- ner in which fir-woods terminated, and that in twenty or thirty vears the trees would cast themselves up by the roots. About fifteen years after he had occasion to travel the same way, and observed that there ■was not a tree, nor the appearance of a root of any of them ; but in their place, the whole plain where the wood stood was covered with a flat green moss, or morass ; and on asking the country people what was become of the wood, he was informed that no one had been at the trouble to carry it away, but that it had all been overturned by the wind, that the trees lay thick over each other, and that the moss or bog had overgrown the whole timber, which, they added, was oc- casioned by the moisture which came down from the high hills above it, and stagnated upon the plain, and that nobody could yet pass over it, which, however, his Lordship was so incautious as to attempt, and slipt up to the arm-pits. Before the year 1699, that whole piece of ground was become a solid moss, wherein the peasants then dug turf or peat, which, however, was not yet of the best sort. Phil. Trans. No. 330. Abridg. vol. v. p. 272. Morasses in great length of time undergo variety of changes, first by elutriation, and afterwards by fermentation, and the consequent heat. 1. By Avater perpetually oozing through them, the most solu- ble parts are first washed away, as the essential salts : the ther with the salts from animal recrements, arc carried down the rivers into the sea, where all of them seem to decompose each other except the marine salt. Hence the ashes of peat contain little or no vegetable alkali, and arc not used in the countries where peat con- stitutes the fuel of the lower people, for the purpose of washing linen. Note 17. MORASSES. 8? The second thing which is always seen oozing from morasses, is iron in solution, which produces chalybeate springs, from whence deposi- tions of ochre and variety of iron ores. The third elutriation seems to consist of vegetable acid, which by means unknown appears to be converted into all other acids. 1. Into marine and nitrous acids, as mentioned above. 2. Into vitriolic acid, which is found in some mo- rasses so plentifully as to preserve the bodies of animals from putre- faction which have been buried in them, and this acid, carried away by rain and dews, and meeting with calcareous earth, produces gyp- sum or alabaster ; with clay it produces alum, and deprived of its vi- tal air produces sulphur. 3. Fluor acid, which being washed away, and meeting with calcareous earth, produces fluor or cubic spar. 4. The siliceous acid, which seems to have been disseminated in great quantity either by solution in water or by solution in air, and appears to have produced the sand in the sea, uniting with calcareous earth, previously dissolved in that element, from which were afterwards formed some of the grit-stone rocks by means of a siliceous or calca- reous cement. By its union with the calcareous earth of the morass, other strata of siliceous sand have been produced ; and by the mix- ture of this with clay and lime arose the beds of marie. In other circumstances, probably where less moisture has prevailed, morasses seem to have undergone a fermentation, as other vegetable matter, new hay, for instance, is liable to do from the great quantity of sugar it contains. From the great heat thus produced in the lower parts of immense beds of morass, the phlogistic part, or oil, or as- phaltum, becomes distilled, and rising into higher strata, becomes again condensed, forming coal-beds of greater or less purity, accord- ing to their greater or less quantity of inflammable matter ; at the same time the clay-beds become purer or less so, as the phlogistic part is more or less completely exhaled from them. Though coal and clay are frequently produced in this manner, yet I have no doubt but that they are likewise often produced by elutriation ; in situations on declivities the clay is washed away down into the valleys, and the phlogistic part or coal left behind ; this circumstance is seen in many valleys near the beds of rivers, which are covered recently by a whitish impure clay, called water-clay, See note XIX. XX. and XXIII. Lord Cromartie has furnished another curious observation on morasses in the paper above referred to. In a moss near the town of Elgin, in Murray, though there is no river or water which com- municates with the moss, yet for three or four feet of depth in the moss there are little shell-fish resembling oysters, with living fish in chem in great quantities, though no such fish are found in the adjacent rivers, nor even in the water-pits in the moss, but only in the solid 178 BOTANIC GARDEN. Part T. substance of the moss. This curious fact not only accounts for the shells sometimes found on the surf.ee of coals, anil in the clay above them, but also for a thin stratum of shells which sometimes exEl over iron-ore NOTE XVIII.— IRON. Cold waves, immersed, the glowing mass congeal, And turn to adamant the hissing Stiel. Canto II. 1. 191. AS iron is formed near the surface of the earth, it becomes exposed to streams of water and of air more than most other metallic bodies, and thence becomes combined with oxygene, or vital air. and ap- pears very frequently in its ca'.ciform state, as in variety of ochres. Manganese and zinc, and sometimes lead, are also found near the surface of the earth, and, on that account, become combined with vital air, and are exhibited in their calciform state. The avidity with which iron unites with oxygene, or vital air, in ■which process much heat is given out from the combining materials, is shown by a curious experiment of M. Ingenhouz. A fine iron wire, t\\ isted spirally, is fixed to a cork ; on the point of the spiie is fixed a match made of agaric, dipped in solution of nitre ; the match is then ignited, and the wire with the cork put immediately into a bottle full of vital air; the match first burns vividly, and the iron soon take:, fire, and consumes with brilliant sparks till it is reduced to small brittle globules, gaining an addition of about one third of its weight bv its union with vital air. Annates de Chimie. Traite de Chimit. par Lavoisier, c. hi. STEEL. It is probably owing to a total deprivation of vital air, which it holds with so great avidity, that iron, on Icing kept many hours or days in ignited charcoal, becomes converted into steel, and thence acquires the faculty of being welded, when red hot, long before it melts, and also the power of becoming hard when immersed in cold water; both which I suppose depend on the same cause, that is, on its being a worse Conductor of heat than other metals; and hence the mii lace both acquires heat much sooner, and losc> it much sooner, than the internal parts of it, in this circumstance resembling Vv*h< n steel is made very hot, and suddenl) Note 18. IRON. 1,-y ■water, and moved about in it, the surface of the steel becomes cooled first, and thus producing a kind of case or arch over the internal part, pre vents that internal part from contracting quite so much as it other- wise would do, whence it becomes brittler and harder, like the glass drops called Prince Rupert's drops, which are made by dropping melted glass into cold water. This idea is countenanced by the cir* cumstance that hardened steel is specifically lighter than steel which is more gradually coo'.ed. (Nicholson's Chemistry, p. 313.) Why the brittleness and hardness of steel or glass should keep pace, or be companions to each other, may be difficult to conceive. When a steel spring is forcibly bent till it break, it requires less power to bend it through the first inch than the second, and less through the second than the third. The same I suppose to hap- pen if a wire be distended till it break, by hanging weights to it. This shows that the particles may be forced from each other, to a small distance, by less power than is necessary to make them recede to a greater distance ; in this circumstance, perhaps, the attraction of cohesion differs from that of gravitation, which exerts its power inversely as the squares of the distance. Hence it appears, that if the innermost particles of a steel bar, by cooling the external surface first, are kept from approaching each other, so nearly as they other- wise would do, that they become in the situation of the particles on the convex side of a bent spring, and cannot be forced farther from each other except by a greater power than would have been necessary to have made them recede thus far. And, secondly, that if they be forced a little farther from each other they separate : this may be exemplified by laying two magnetic needles parallel to each other, the contrary poles together, then drawing them longitudinally from each other, they will slide with small force till they begin to separate, and will then require a stronger force to really separate them. Hence it appears, that hardness and brittleness depend on the same circum- stance, that the particles are removed to a greater distance from each other, and thus resist any power more forcibly which is applied to displace them farther ; this constitutes hardness. And, secondly, if they are displaced by such applied force, they immediately separate, and this constitutes brittleness. Steel may be thus rendered too brittle for many purposes, on which account artists have means of softening it again, by exposing it to cer- tain degrees of heat, for the construction of different kinds of tools, which is called tempering it. Some artists plunge large tools in very cold water as soon as they are completely ignited, and moving them about, take them out as soon as they cease to be luminous beneath the water ; they are then rubbed quickly with a file, or on sand, to clean die surface ; the heat which the metal still retains soon begins to pro> ISO BOTANIC GARDEN. Part I, ducc a succession of colours : if a hard temper be required, the piece is clipped again, and stirred about in cold water as soon as the yellow tinge appears; if it be cooled when the purple tinge appears, it be- comes fit for gravers' tools, used in working upon metals ; if cooled while blue, it is proper for springs. Nicholson's Chemistry, p. 313. Keir's Chemical Dictionary. MODERN PRODUCTION OF IRON. The recent production of iron is evinced from the chalybeate waters •which flow from morasses, which lie upon gravel-beds, and which must, therefore, have produced iron after those gravel-beds were raised out of the sea. On the south side of the road between Cheadle and Okeymoor, in Staffordshire, yellow stains of iron are seen to penetrate the gravel from a thin morass on its surface. There is a fissure eight or ten feet wide, in a gravel-bed on the eastern side of the hollow road, ascending the hill about a mile from Trentham, in Staffordshire, leading toward Drayton, in Shropshire, which fissure is filled up with nodules of iron-ore. A bank of sods is now raised against this fissure to prevent the loose iron nodules from falling into the turnpike road, and thus this natural curiosity is at present con- cealed from travellers. A similar fissure, in a bed of marl, and filled up with iron nodules, and with some large pieces of flint, is seen on the eastern side of the hollow road ascending the hill from the turn- pike-house, about a mile from Derby, in the road towards Burton. And another such fissure, filled with iron nodes, appears about half a mile from Newton-Solney, in Derbyshire, in the road to Burton, near the summit of the hill. These collections of iron and of flint must have been produced posterior to the elevation of all those hills, r.nd were thence evidently of vegetable or animal origin. To which should be added, that iron is found, in general, in beds either near the surface of the earth, or stratified with clay, coals, or argillaceous grit, which are themselves productions of the modern world, that is, from the recrements of vegetables and air-breathing animals. Not only iron, but manganese, calamy, and even copper and lead, appear, in some instances, to have been of recent production. Iron and manganese are detected in all vegetable productions ; and it is probable other metallic bodies might be found to exist in vegetable or animal matters, if we had tests to detect them in very minute quan- tities. Manganese and calamy arc found in beds like iron near the surface of the earth, and in a calciform state, which countenances their modern production. The recent production of calamy, one of the ores of zinc, appears from its frequently incrusting calcareous '-par, in its descent from the surface of the earth into the uppermost Note 18. IRON. 151 fissures of the lime-stone mountains of Derbyshire. That the calamy has been carried, by its solution or diffusion in water, into these cavi- ties, and not by its ascent from below in form of steam, is evinced from its not only forming a crust over the dogtooth spar, but by its afterwards dissolving or destroying the sparry crystal. I have speci- mens of calamy in the form of dogtooth spar two inches high, which are hollow, and stand half an inch above the diminished sparry crys- tal on which they were formed, like a sheath a great deal too big for it : this seems to show, that this process was carried on in water, otherwise, after the calamy had incrusted its spar, and dissolved its surface, so as to form a hollow cavern over it, it could not act further upon it except by the interposition of some medium. As these spars and calamy are formed in the fissures of mountains, they must both have been formed after the elevations of those mountains. In respect to the recent production of copper, it was before ob- served, in note on Canto II. 1. 398, that the' summit of the grit-stone mountain at Hawkstone, in Shropshire, is tinged with copper, which, from the appearance of the blue stains, seems to have descended to the parts of the rock beneath. I have a calciform ore of copper consisting of the hollow crusts of cubic cells, which has evidently been formed on crystals of fluor, which it has eroded in the same manner as the calamy erodes the calcareous crystals ; from whence may be deduced, in the same manner, the aqueous solution or diffusion, as well as the recent production of this calciform ore of copper. Lead, in small quantities, is sometimes found in the fissures of coal- beds, which fissures are previously covered with spar; and some- times in nodules of iron-ore. Of the former I have a specimen from near Caulk, in Derbyshire, and of the latter from Colebrook Dale, m Shropshire. Though all these facts show that some metallic bodies are formed from vegetable or animal recrements, as iron, and per- haps manganese and calamy, all which are found near the surface of the earth ; yet as the other metals are found only in fissures of rocks, which penetrate to unknown depths, they may be wholly or in part produced by ascending steams from subterraneous fires, as mentioned in note on Canto II. 1. 398. SEPTARIA OF IRON-STONE. Over some lime works at Walsall, in Staffordshire, I observed iome years ago a stratum of iron earth about six inches thick, full of very large cavities ; these cavities were evidently produced when the material passed from a semi-fluid state into a solid one ; as the frit of the potters, or a mixture of clay and water, is liable to crack in dry- ing \ which is owing to the further contraction of the internal part, after 1&2 BOTANIC GARDEN. Part I. the crust has become hard. These hollows are liable to receive extra- neous matter, as, I believe, g\psum, and sometimes pur and even lead; a carious specimen of the last was presented to me by Mr. Darby, ofColebrook Dale, which contains iii its cavity some ounces of tead-orc. But there are other septaria of iron-stone, which seem to have had a very different origin, their cavities having been formed in cooling or congealing from an ignited state, as is ingeniously de- duced by Dr. Hutton, from their internal structure. Edinb. Trans, vol. i. p. 246. The volcanic origin of these curious septaria appears to me to be further evinced from their form and the places where they are found. They consist of oblate spheroids, and are f >und in many parts of the earth totally detached from the beds in which they lie, as at East-Lothian, in Scotland. Two of these, which now lie before me, were found, with many others, immersed in argillaceous shale, or shiver, surrounded by broken lime-stone mountains, at Bradbourn, near Ashbourn, in Derbyshire, and were presented to me by Mr. Buxton, a gentleman of that town. One of these is about fifteen inches in its equatorial diameter, and about six inches in its polar one, and contains beautiful star-like septaria, incrusted, and iu part filled with calcareous spar. The other is about eight inches in its equatorial diameter, and ab >ut four inches in its polar diameter, and is quite solid, but shows on its internal surface marks of different colours, as if a beginning separation had taken place. Now, as these septaria contain fifty per cent, of iron, according to Dr. Hutton, they would soften or melt into a semi-fluid globule, by subterraneous fire, by less heat than the lime-stone in their vicinity ; and if they were ejected through a hole or fissure, would gain a circular motion along with their progressive one, by their greater friction or adhesion to one side of the hole. This whirling motion would produce the oblate spheroidical form which they possess, and which, as far as I know, cannot in any other way be accounted for. They would then harden in the air as they rose into the colder parts of the atmosphere ; and a* they descended into so soft a material as shale or shiver, their forms would not be injured in their fall ; and their presence in materials so different from themselves becomes accounted for. About the tropics of the large septarium above-mentioned, are cir- cular eminent lines, such as might have been left if it had been coarsely turned in a lath. These lines seem to consist of fluid matter, which seems to have exuded in circular zones, as their edges appear blunted or retracted; and the septarium seems to have split easier in such sections parallel to its equator. Now, as tin- crust would firsl begin to cool and harden after its ejection in a semi-fluid state, and the equatorial diameter would become gradually en arged a in the air ; the. internal parts being softer, would >li Note 19 FLINT. 183' polar crust, which might crack, and permit part of the semi-fluid to exude, and it is probable the adhesion would thus become less in sec- tions parallel to the equator. Which further confirms this idea of the production of these curious septaria. A new-cast cannon ball, red-hot, with its crust only solid, if it were shot into the air, would probably burst in its passage, as it would consist of a more fluid ma- terial than these septaria; and thus, by discharging a shower of liquid iron, would produce more dreadful combustion, if used in war, than could be effected by a ball which had been cooled and was heated again, since, in the latter case, the ball could not have its internal parts made hotter than the crust of it, without first losing its form. NOTE XIX FLINT. Transmute to glittering Flints her chalky lands, Or sink on Ocea?z's bed in countless sands. Canto II. 1. 21?. 1. SILICEOUS ROCKS. THE great masses of siliceous sand which lie in rocks upon the beds of lime-stone, or which are stratified With clay, coal, and iron-ore, are evidently produced in the decomposition of vegetable or animal mat- ters, as explained in the note on morasses. Hence the impressions of vegetable roots, and even whole trees, are often found in sand-stone, as well as in coals and iron-ore. In these sand-rocks both the siliceous acid and the calcareous base seem to be produced from the materials of the morass ; for though the presence of a siliceous acid and of a calcareous base have not yet been separately exhibited from flints, yet from the analogy of flint to fluor, and gypsum, and marble, and from the conversion of the latter into flint, there can be little doubt of their existence. These siliceous sand-rocks are either held together by a siliceous cement, or have a greater or less portion of clay in them, which in some acts as a cement to the siliceous crystals, but in others is in such great abundance that in burning them they become an imperfect por- celain, and are then used to repair the roads ; as at Chesterfield, in Derbyshire : these are called argillaceous grit by Mr. Kirwan. In other places, a calcareous matter cements the ciystals together; and in other places the siliceous crystals lie in loose strata, under the marl, in the form of white sand ; as at Norraington, about a mile from Derby. Part I. 2 C 184 BOTANIC GARDEN. Part I. The lowest beds of siliceous sand-stone, produced from n seem to obtain their acid from the morass, and their calcareous base from the lime-stone on which it rests. These beds possess a siliceous cement, and from their greater purity and hardness are med for coarse grinding-stones and scythe stones, and are situated on the edges of lime-stone countries, having lost the other strata of coals, or clay, or iron, which were originally produced above them. Such are the sand-rocks incumbent on lime-stone near Matlock, in Derby- shire. As these siliceous sand-rocks contain no marine productions scattered amongst them, they appear to have been elevated, torn to pieces, and many fragments of them scattered over the adjacent country, by explosions, from fires within the morass from which they have been formed, and which dissipated every thing inflammable above and beneath them, except some stains of iron with which they are in some places spotted. If these sand-rocks had been accumu- lated beneath the sea, and elevated along with the beds of lime-stone on which they rest, some vestiges of marine shells, either in their siliceous or calcareous state, must have been discerned amongst them, 2. SILICEOUS TREES. In many of these sand-rocks are found the impressions of vegeta- ble roots, which seem to have been the most unchangeable parts of the plant, as shells and shark's teeth are found in chalk beds, from their being the most unchangeable parts of the animal. In other instances the wood itself is penetrated, and whole trees converted into flint ; specimens of which I have by me, from near Coventry, and from a gravel-pit in Shropshire, near Child's Archal, in the road to Dray- ton. Other polished specimens of vegetable flints abound in the cabi- nets of the curious, which evidently show the concentric circles of woodv fibres, and their interstices filled with whiter siliceous matter, with the branching off* of the knots when cut horizontally, and the parallel lines of wood when cut longitudinally, with uncommon beauty and variety. Of these I possess some beautiful specimens, which were presented to mc by the Earl of Uxbridge. The colours of these siliceous vegetables are generally brown, from the iron, I suppose, or manganese, which induced them to crvs- talize or to fuse more easily. Some of the cracks of the wood in ire filled with white flint or calcedony, and others of them remain hpllow, lined with innumerable small crystals, tinged with iron, which 1 suppose had a share in converting their calcareous mat- ter into siliceous crystals, because the crystals called Peak-diamonds are always found bedded in an ochreous earth ; and those called Bris- tol-stones are situated on lime-stone coloured with iron. Mr. F« Note 19. FLINT. 185 French presented me with a congeries of siliceous crystals, which he gathered on the crater (as he supposes) of an extinguished volcano at Cromach Water, in Cumberland. The crystals are about an inch high, in the shape of dogtooth or calcareous spar, covered with a dark feruginous matter. The bed on which they rest is about an inch in thickness, and is stained with iron on its under surface. This curious fossil shows the transmutation of calcareous earth into sili- ceous, as much as the siliceous shells which abound in the cabinets of the curious. There may some time be discovered in this age of science, a method of thus impregnating wood with liquid flint, which would produce pillars for the support, and tiles for the covering of houses, which would be uninflammable, and endure as long as the earth beneath them. That some siliceous productions have been in a fluid state without much heat at the time of their formation, appears from the vegetable flints above described not having quite lost their organized appearance ; from shells, and coralloids, and entrochi being converted into flint without losing their form ; from the bason of calcedony round Giesar in Iceland, and from the experiment of Mr. Bergman, who obtained thirteen regular formed crystals by suffering the powder of quartz to remain in a vessel with fluor acid for two years : these crystals were about the size of small peas, and were not so hard as quartz. Opusc. de Terra Silicea, p. 33. Mr. Archard procured both calcareous and siliceous crystals, one from calcareous earth, and the other from the earth of alum, both dissolved in water impregnated with fixed air ; the water filtrating very slowly through a porous bottom of baked clay. See Journal de Physique, for January, 1778* 3. AGATES, ONYXES, SCOTS-PEBBLES. In small cavities of these sand-rocks, I am informed, the beautiful siliceous nodules are found which are called Scots-pebbles ; and which, on being cut in different directions, take the names of agates, onyxes, sardonyxes, &c. according to the colours of the lines or strata which they exhibit. Some of the nodules are hollow and filled with crystals, others have a nucleus of less compact siliceous matter, which is gene- rally white, surrounded with many concentric strata, coloured with iron, and other alternate strata of white agate or calcedony, some- times to the number of thirty. I think these nodules bear evident marks of their having been in perfect fusion by either heat alone, or by water and heat, under great pressure, according to the ingenious theory of Dr. Hutton ; but I do not imagine, that they were injected into cavities from materials from without, but that some vegetables or parts of vegetables containing 180 BOTANIC GARDEN. more iron or manganese than others, facilitated the compl< - thus destroying the vestiges of vegetable organization, which w*f| conspicuous in the siliceous trees above-mentioned* Some of these nodules being hollow and lined with crystals, and others containing a nucleus of white siliceous matter of a looser texture, show they war composed of the materials then existing in the cavity ; which, con- sisting before of loose sand, must take up less space when fused into a solid mass. These siliceous nodules resemble the nodules of iron-stone men- tioned in note on Canto II. 1. Ifi3, in respect to their postt great number of concentric spheres, coloured generally with iron ; but they differ in this circumstance, that the concentric spheres gene- rally obey the form of the external crust, and in their not possessing a chalybeate nucleus. The stalactites formed on the roofs of caverns are often coloured in concentric strata, by their coats being spread over each other at different times ; and some of them, as the cupreous ones, possess great beauty from this formation ; but as these are necessarily more or less of a cylindrical or conic form, the nodules or globular flints above described cannot have been constructed in this, manner. To what law of nature then is to be referred the produc- tion of such numerous concentric spheres ? I suspect to the law of congelation. When salt and water are exposed to severe frosty air, the salt is said to be precipitated as the water freezes ; that is, as the heat in, •which it was dissolved is withdrawn : where the experiment is tried in a bowl or bason, this may be true, as the surface freezes first, and the salt is found at the bottom. But in a fluid exposed in a thin phial, I found, by experiment, that the extraneous matter previously dissolved by the heat, in the mixture, was not simply set at liberty to subside, but was detruded or pushed backward as the ice was pro- duced. The experiment was this: About two ounces of a solution of blue vitriol were accidentally frozen in a thin phial ; the glass was cracked and fallen to pieces, the ice was dissolved, and I found a pillar of blue vitriol standing erect on the bottom of the broken bot- tle. Nor is this power of congelation more extraordinary than that, by its powerful and sudden expansion, it should burst iron shells and cochorns, or throw out the plugs with which the water was secured in them, above one hundred and thirty yards, according to the expe- riments at Quebec, by Major Williams. Edinb. Transact, vol. ii. p. 23. In some siliceous nodules which now lie before me, the external crust •for about the tenth of an inch consists of white agate, in others it || much thinner, and in some much thicker; corresponding with tbit crust there arc from twenty to thirty superincumbent strata, of alter- ivoxE x-j. t'LiM. m nately darker and lighter colour ; whence it appears, that the exter- nal crust, as it cooled or froze, propelled from it the iron or man- ganese which was dissolved in it ; this receded till it had formed an arch or vault strong enough to resist its further protrusion ; then the next inner sphere or stratum, as it cooled or froze, propelled for- wards its colouring matter in the same manner, till another arch or sphere produced sufficient resistance to this frigorcsctnt expulsion. Some of them have detruded their colouring matter quite to the centre, the rings continuing to become darker as they are nearer it ; in others the chalybeate arch seems to have stopped half an inch from the centre, and become thicker by having attracted to itself the irony matter from the white nucleus, owing probably to its cooling less precipitately in the central parts than at the surface of the pebble. A similar detrusion of a marly matter, in circular arches or vaults, obtains in the salt mines in Cheshire ; from whence Dr. Hutton very ingeniously concludes, that the salt must have been liquified by heat, which would seem to be much confirmed by the above theory. Edinb. Trans, vol. i. p. 244. I cannot conclude this account of Scots-pebbles without observing, that some of them, on being sawed longitudinally asunder, seem still to possess some vestiges of the cylindrical organization of vegeta- bles ; others possess a nucleus of white agate, much resembling some bulbous roots, with their concentric coats, or the knots in elm-roots or crab-trees ; some of these, I suppose, were formed in the manner above explained, during the congelation of masses of melted flint and iron ; others may have been formed from a vegetable nucleus, and retain some vestiges of the organization of the plant. 4. SAND OF THE SEA. The great abundance of siliceous sand at the bottom of the ocean may, in part, be washed down from the siliceous rocks above de- scribed ; but in general, I suppose it derives its acid only from the vegetable and animal matter of morasses, which is carried down by floods or by the atmosphere, and becomes united in the sea with its calcareous base, from shells and coralloids, and thus assumes its crystalline form at the bottom of the ocean, and is there intermixed with gravel, or other matters, washed from the mountains in its vicinity. BOTANIC GARDEN. 5. CHERT, OR PETROSILEX. The rocks of marble are often alternately intermixed with strata of chert, or coarse flint, and this in beds from one to three feet thick, as at Ham and Matlock, or of less than the tenth of an inch in thickness, as a mile or two from Bake well, in the road to Buxton. It is difficult to conceive in what manner ten or twenty strata of ei- ther lime-stone or flint, of different shades of white and b.ack, could be laid quite regularly over each other from sediments, or precipita- tions from the sea ; it appears to me much easier to comprehend, by- supposing, with Dr. Hutton, that both the solid rocks of marble and the flint had been fused by great heat (or by heat and water), under immense pressure; by its cooling, or congealing, the colouring matte: - might be detruded, and form parallel or curvilinear strata, as above explained. The colouring matter, both of lime-stone and flint, was probably owing to the flesh of peculiar animals, as well as the siliceous acid, which converted some of the lime-stone into flint ; or to some strata of shell-fish having been overwhelmed when alive, with new mate- rials; while others, dying in their natural situations, would lose their fleshy part, either by its putrid solution in the water, or by its being eaten by other sea insects. I have some calcareous fossil shells which contain a black coaly matter in them, which was evidently the body of the animal, and others of the same kind filled with spar in- stead of it. The Labradore stone has, I suppose, its colours from the nacre, or mother-pearl shells, from which it was probably pro- duced. And there is a stratum of calcareous matter about six oi eight inches thick, at Wingerworth, in Derbyshire, over the iron- beds, which is replete with shells of fresh- water muscles, and evi- dently obtains its dark colour from them, as mentioned in note XVI. Many nodules of flint resemble, in colour as well in form, the shells of the echinus, or sea-urchin ; others resemble some coralloids, both in form and colour ; and M. Arduini found in the Monte de Pan- erasio, red flints branching like corals, from whence they seem to have obtained both their form and their colour. Ferber's Travels in Italy, p. 42. 6. NODULES OF FLINT IN CHALK-BEDS. As the nodules of flint found in chalk-beds possess no marks of having been rounded by attrition or solution, 1 conclude thai thej have. gained their form, as well as their dark colour, from the Besh of the shell-fish from which they had their origin; but which have been so Note 19. FLINT. 189 completely fused by heat, or heat and water, as to obliterate all ves- tiges of the shell, in the same manner as the nodules of agate and onyx were produced from parts of vegetables, but which had been so completely fused as to obliterate all marks of their organization, or as many iron-nodules have obtained their form and origin from peculiar vegetables. Some nodules in chalk-beds consist of shells of echini filled up with chalk, the animal having been dissolved away by putrescence in water, or eaten by other sea insects ; other shells of echini, in which I suppose the animal's body remained, are converted into flint, but still retain the form of the shell. Others, I suppose, as above, being more completely fused, have become flint-coloured by the animal flesh, but without the exact form either of the flesh or shell of the animal. Many of these are hollow within, and lined with crystals, like the Scots-pebbles above described ; but as the colouring matter of animal bodies differs but little from each other compared with those of vegetables, these flints vary less in their colours than those above- mentioned. At the same time as they cooled irt concentric spheres, like the Scots-pebbles, thev often possess faint rings of colours, and always break in conchoide forms like them. This idea of the productions of nodules of flint in chalk-beds, is countenanced from the iron which generally appears as these flints become decomposed by the air, which, by uniting with the iron in their composition, reduces it from a vitrescent state to that of calx, and thus renders it visible. And, secondly, by there being no appear- ance in chalk-beds of a string or pipe of siliceous matter connecting one nodule with another, which must have happened if the siliceous matter, or its acid, had been injected from without, according to the idea of Dr. Hutton. And, thirdly, because many of them have very large cavities at their centres, which should not have happened had they been formed by the injection of a material from without. When shells or chalk are thus converted from calcareous to sili- ceous matter by the flesh of the animal, the new flint being heavier than the shell or chalk, occupies less space than the materials it was produced from ; this is the cause of frequent cavities within them, where the whole mass has not been completely fused and pressed together. In Derbyshire there are masses of coralloid and other shells which have become siliceous, and are thus left with large vacuities, sometimes within and sometimes on the outside of the remaining form of the shell, like the French mill-stones, and, I sup- pose, might serve the same purpose: the gravel of the Derive. ,t is full of specimens of this kind. Since writing the above, I have received a very ingenious account of chalk-beds from Dr. Menish, of Chelmsford. He distinguishes 190 BOTAlnC GARDEN. Part I, chalk-beds into three kinds; such as have been raised from the sea with little disturbance of their strata, as the cliffy of Dover and Mar- gate, which he terms entire chalk. Another state of chalk is where iflared much derangement, as the banks of the Thames at id and Dartford. And a third state, where fragments of chalk have been rounded by water, which he terms alluvial chalk. In the first of these situations of chalk he observes, that the flint lies in strata horizontally, generally indistinct nodules; but that he has Observed two instances of solid plates or strata of flint, from an inch to two inches in thickness, interposed between the chalk-beds; one o\ these is in a chalk-bank by the road side, at Berkhamstead, the Other in a bank on the road from Chatham leading to Canterbury. Dr. Menish has further Observed, that many of the echini arc crushed in their form, and yet filled with flint, which has taken the form of the crushed shell ; and that though many flint nodules are hollow, yet that in some echini the siliceum seems to have enlarged as it passed from a fluid to a solid state, as it swells out in a protuberance at the mouth and anus of the shell ; and that though these shells arc so filled with flint, yet that in many places the shell itself remains calcareous. These strata of nodules and plates of flint seem to countenance their origin from the flesh of a stratum of animals which perished by some natural violence, and were buried in their shells. 7. ANGLES OF SILICEOUS SAND. In many rocks of siliceous sand the particles retain their angular form, and in some beds of loose sand, of which there is one of consi- derable puritv a few yards beneath the marl at Normington, about a mile south of Derby. Other siliceous sands have had their angles rounded oft', like the pebbles in gravel-beds'. These seem to owe their globular form to two causes ; one to their attrition against each other, when they may for centuries have lain at the bottom of the sea, or of rivers, where they may have been progressively accumulated, and thus progressively at the same time rubbed upon each other by the dashing of the water, and where they would be more easily rolled over each other by their gravity being so much less than in air. This is evidently now going on in the river Derwent ; for though there are no Lime-Stone rocks for ten or fifteen miles above Derby, \ I part of the river-gravel at Derby consists ofj lime-stone nodules, whose angles are quite worn oft' in their descent down the stream. There is, however, another cause which must have contributed to round the angles both of calcareous and siliceous fragments, and thai 18, their solubility m water; calcareous earth is perpetually found suspended in the waters which pass over it; and the earth of flint.--. Note 19. FLINT. 191 was observed by Bergman to be contained in water in the proportion of one grain to a gallon. Kirwan's Mineralogy, p. 107. In boiling water, however, it is soluble in much greater proportion, as appears from the siliceous earth sublimed in the distillation of fiuor acid in glass vessels, and from the basons of calcedony which surrounded the jets of hot water near Mount Hecla, in Iceland. Troil on Iceland. It is probable most siliceous sands or pebbles have, at some ages of the world, been long exposed to aqueous steams raised by subterra- nean fires. And if fragments of stone were long immersed in a fluid menstruum, their angular parts would be first dissolved, on account of their greater surface. Many beds of siliceous gravel are cemented together by a siliceous cement, and are called breccia, as the plumb-pudding stones of Hart- fordshire, and the walls of a subterraneous temple excavated by Mr. Curzon, at Hagley, near Rugely, in Staffordshire : these may have been exposed to great heat as they were immersed inAvater; which water, under great pressure of superincumbent materials, may have been rendered red-hot, as in Papin's digester ; and have thus pos- sessed powers of solution with which we are unacquainted. 8. BASALTES AND GRANITES. Another source of siliceous stones is from the granite, or basal tes, or porphyries, which are of different hardnesses, according to the materials of their composition, or to the fire they have undergone ; such are the stones of Arthur's-hill, near Edinburgh ; of the Giant's Causeway, in Ireland ; and of Charnwood Forest, in Leicestershire ; the uppermost stratum of which last seems to have been cracked either by its elevation, or by its hastily cooling, after ignition, by the contact of dews or snows, and thus breaks into angular fragments, such as the streets of London are paved with, or have had their an- gles rounded by attrition, or by partial solution ; and have thus formed the common paving stones, or bowlers, as well as the gravel, which is often rolled into strata amid the siliceous sand-beds, which are either formed or collected in the sea. In what manner such a mass of crystallized matter as the Giant's Causeway, and similar columns of basaltes, could have been raised, without other volcanic appearances, may be a matter not easy to comprehend; but there is another power in nature besides that of expansile vapour, which may have raised some materials which have previously been in igneous or aqueous solution ; and that is the act of congelation. When the water, in the experiments above related of Major Williams, had, by congelation, thrown out the plugs from the bomb-shells, a column of ice rose from the hole of the bomb six or Part I. 2D BOTANIC GARDEN. Part I. eight inches high. Other bodies, I suspect, increase in bulk, which crystallize in cooling, as iron and type-metal. I remember pouring eight or ten pounds of melted brimstone into a pot to cool, and was surprized to see, after a little time, a part of the fluid beneath break a hole in the congealed crust above it, and gradually rise into a pro- montory several inches high. The basaltes has many marks of fusion and of crystallization, and may thence, as well as many other kinds of rock, as of spar, marble, petrosilex, jasper, Sec. have been raised by the power of congelation ; a power whose quantity has not yet been ascertained, and, perhaps, greater and more universal than that of vapours expanded by heat. These basaltic columns rise sometimes out of mountains of granite itself, as mentioned by Dr. Beddoes, (Phil. Trans, vol. lxxx.) and as they seem to consist of similar materials, more completely fused, there is still greater reason to believe them to have been elevated in the cooling or crystallization of the mass. See note XXIV. NOTE XX— CLAY. Hence ductile Clays in wide ex/iansion s/iread, Soft as the Cygnet's down, their sJiow-white bed. C ax to II. 1. 27T. THE philosophers who have attended to the formation of the earth, have acknowledged two great agents in producing the various- changes which the terraqueous globe has undergone, and these are water and fire. Some of them have, perhaps, ascribed too much to one of these great agents of nature, and some to the other. They have generally agreed, that the stratification of materials could only be produced from sediments or precipitations, which were previously- mixed or dissolved in the sea ; and that whatever effects were pro- duced by fire, Avere performed afterwards. There is, however, great difficulty in accounting for the universal stratification of the solid globe of the earth in this manner, since many of the materials which appear in strata could not have been suspended in water ; as the nodules of flint in chalk-beds, the cx- tensive beds of shells; and, lastly, the strata of coal, clay, sand, and iron-ore, which, in most coal countries, lie from five to seven times alternately stratified over each other, and none of them are soluble in water. Add to this, if a solution of them, or a mixture of them in water, Could be supposed, the cause of that solution must cease before a precipitation could commence. Note 20. CLAY. 193 1. The great masses of lava, under the various names of granite, porphyry, toad-stone, moor-stone, rag, and slate, which constitute the old world, may have acquired the old stratification, which some of them appear to possess, by their having been formed by successive eruptions of a fluid mass, which, at different periods of ancient time, arose from volcanic shafts, and covered each other: the surface of the interior mass of lava would cool, and become solid, before the super- incumbent stratum was poured over it: to the same cause maybe ascribed their different compositions and textures, which are scarcely the same in any two parts of the world. 2. The stratifications of the great masses of lime-stone, which were produced from sea-shells, seem to have been formed by the dif- ferent times at which the innumerable shells were produced and depo- sited. A colony -of echini, or madrepores, or cornua ammonis, lived and perished in one period of time ; in another, a new colony of either similar or different shells lived and died over the former ones, producing a stratum of more recent shells over a stratum of others which had begun to petrify, or to become marble ; and thus, from unknown depths to what are now the summits of mountains, the lime- stone is disposed in strata of varying solidity and colour. These have afterwards undergone variety of changes by their solution and deposi- tion from the water in which they were immersed, or from having been exposed to great heat under great pressure, according to the in- genious theory of Dr. Hutton. Edinb. Transact, vol. i. See note XVI. 3. In most of the coal countries of this island, there are from five to seven beds of coal stratified, with an equal number of beds, though of much greater thickness, of clay and sand-stone, and occasionally of iron-ores. In what manner to account for the stratification of these materials seems to be a problem of great difficulty. Philoso- phers have generally supposed that they have been arranged by the currents of the sea ; but considering their insolubility in water, and their almost similar specific gravity, an accumulation of them in such distinct beds from this cause is altogether inconceivable, though some coal countries bear marks of having been, at some time, immersed beneath the waves, and raised again by subterranean fires. The higher and lower parts of morasses were necessarily produced at different periods of time, (see note XVII.) and would thus origi- nally be formed in strata of different ages. For when an old wood perished, and produced a morass, many centuries would elapse be- fore another wood could grow, and perish again, upon the same ground, which would thus produce a new stratum of morass over the other; differing, indeed, principally in its age, and, perhaps, as the timber might be different, in the proportions of its component parts. 194 BOTANIC GARDEN. Paht I. Now, if wo suppose the lowermost stratum of a morass become ig- nited, like fermenting hay (after whatever could be carried away by solution in water was gone), what would happen? Certainly the inflammable part, the oil, sulphur, or bitumen, would burn ;v be evaporated in air ; and the fixed parts would be left, as clay, lime, and iron ; while some of the calcareous earth would join with the siliceous acid, and produce sand ; or with the argillaceous earth, and produce marl. Thence, after many centuries, another bedrwould take fire, but with less degree of ignition, and with a greater body of morass over it : what then would happen ? The bitumen and sulphur ■would rise, and might become condemed under an impervious stra- tum, which might not be ignited, and there form coal of different purities, according to its degree of fluidity, which would permit some of the clay to subside through it into the place from which it was sublimed. Some centuries afterwards another similar process might take place, and either thicken the coal-bed, or produce a new clay-bed, or marl, or sand, or deposit iron upon it, according to the concomi- tant circumstances above-mentioned. I do not mean to contend, that a few masses of some materials may not have been rolled together by currents, when the mountains were much more elevated than at present, and, in consequence, the rivers broader and more rapid, and the storms of rain and wind greater both in quantity and force. Some gravel-beds may have been thus washed from the mountains; and some white clay washed from morasses into valleys beneath them ; and some ochres of iron dissolved and again deposited by water ; and some calcareous depositions from water (as the bank, for instance, on which stand the houses at Matlock-bath) ; but these are all of small extent or consequence compared to the pri- mitive rocks of granite or porphyry which form the nucleus of the earth, or to the immense strata of lime-stone which crust over the greatest part of this granite or porphyry ; or, lastly, to the Aery ex- tensive beds of clay, marl, sand-stone, coal, and iron, which were probably for many millions of years the only parts of our continent? and islands, which were then elevated above the level of the sea, and which, on that account, became covered with vegetation, and thence acquired their later or superincumbent strata, which constitute what some have termed the new world. There is another source of clay, and that of the finest kind, from decomposed granite; this is of a snowy white, anil mixed with shin- Ing particles of mica ; of this kind is an earth from tin- country oi the Chen kees. Other kinds are from less ] me lava! : Mr. Ferbei asserts that the sulphureous steams from Mount Vesuvius convert the lava into clay. Note 21. ENAMELS. 195 " The lavas of the ancient Solfatara volcano have been undoubtedly of a vitreous nature, and these appear at present argillaceous. Some fragments of this lava are but half, or at one side changed into clay, which either is viscid or ductile, or hard and stony. Clays, by fire, are deprived of their coherent quality, which cannot be restored to them by pulverization, nor by humectation. But the sulphureous Sol- fatara steams restore it, as may be easily observed on the broken pots wherein they gather the sal ammoniac; though very well baked and burnt at Naples, they are mollified again by the acid steams into a vi-cid clay, which keeps the former fire-burnt colour." Travels in Italy, p. 156. NOTE XXI ENAMELS. Smeared her huge dragons with metallic hues, With golden purples, and cobaltic blues. Canto II. 1. 287. THE fine bright purples or rose colours which we see on china cups, are not producible with any other material except gold; man- ganese indeed gives a purple, but of a very different kind. In Europe, the application of gold to these purposes appears to be of modern invention. Cassius's discovery of the precipitate of gold by tin, and the use of that precipitate for colouring glass and enamels, are now generally known ; but though the precipitate with tin be more successful in producing the ruby glass, or the colourless glass, which becomes red by subsequent ignition, the tin probably contributing to prevent the gold from separating (which it is very liable to do dur- ing the fusion) ; yet, for enamels, the precipitates made by alkaline salts answer equally well, and give a finer red; the colour produced by the tin precipitate being a bluish purple, but with the others a rose red. I am informed that some of our best artists prefer aurum ful- ininans, mixing it, before it has become dry, with the white composi- tion, or enamel flux; when once it is divided by the other matter, it is ground with great safety, and without the least danger of explosion, whether moist or dry. The colour is remarkably improved and brought forth by long grinding, which accordingly makes an essentia! circumstance in the process. The precipitates of gold, and the colcothar, or other red prepara- tions of iron, are called tender colours. The heat must be no greater than is just sufficient to make the enamel run upon the piece, for if greater, the colours will be destroyed or changed to a different kind. 198 BOTANIC GARDEN. Part I. When the vitreous matter has just become fluid, it seems as if the coloured metallic calx remained barely intermixed with it, like a co- loured powder of exquisite tenuity suspended in w iter ; but by stron- ger fire the calx is dissolved, and metallic colours are altered by solu- tion in glass, as well as in acids or alkalies. The Saxon mines have, till very lately, almost exclusively supplied the rest of Europe with cobalt, or rather wiih its preparations, z tf- fre and smalt; for the exportation of the ore itself is there a capital crime. Hungary, Spain, Sweden, and some other parts of the con- tinent, are now said to afford cobalts equal to the Saxon, and speci- mens have been discovered in our own island, both in Cornwall and in Scotland, but hitherto in no great quantity. Calces of cobalt and of copper differ very materially from those above mentioned in their application for colouring enamels. In those the calx has previously acquired the intended colour, a colour which bears a red heat without injury; and all that remains is to fix it on the piece by a vitreous flux. But the blue colour of cobalt, and the green or bluish green of copper, are produced by vitrification, that is, by solution in the glass, and a strong fire is necessary for their perfection. These calces, therefore, when mixed with the enamel flux, are melted in crucibles, once or oftcner, and the deep coloured opake g'ass, thence resulting, is ground into impalpable powder, and used for ena- mel. One part of either of these calces is put to ten, sixteen, or twenty parts of the flux, according to the depth of colour required. The heat of the enamel-kiln is only a full red, such as is marked on Mr. Wedgwood's thermometer 6 degrees. It is therefore necessary that the flux be so adjusted as to melt in that low heat. The usual materials are flint, or flint-glass, with a due proportion of red-led, or borax, or both, and sometimes a little tin calx to give opacity. Ka-o-lin is the name given by the Chinese to their porcelain clay, and lie-tun-tse to the other ingredient in their China ware. Specimen:, of both these have been brought into England, and found to agree in quality Mich some of our own materials. Kaolin is the very same With the clay called in Cornwall and the petuntse is a granite similar to the Cornish moor-stone. There arc differences, both in the Chinese petuntses and the English moor-stones ; all of them contain micaceous and quartzy particles, in greater or less quantity, along with feltspar, which last is the essential ingredient for the porcelain manufactory. The only injurious material commonly found in them is iron, which discolours the ware in proportion to its quantity, and which our moor-stones are. perhaps, more frequently tainted with than the Chinese. Very fine porcelain has been made from English s. bui the nature of the manufacture renders the process pr* and the profit hazardous; for the semi-vitrification, which « #,-« j'r//,nn/ Ytl<* £ Note 22. PORTLAND VASE. 197 constitutes porcelain, is necessarilv r accompanied with a degree of soft- ness or semi-fusion, so that the vessels are liable to have their forms altered in the kiln, or to run together Avith any accidental augmenta- tions of the fire. NOTE XXII PORTLAND VASE. Or bid Mortalitxj rejoice and mourn O'er the fine forms on Portland's ?nystic urn. Canto II. 1. 319. THE celebrated funeral vase, long in possession of the Barberini family, and lately purchased by the Duke of Portland for a thousand guineas, is about ten inches high, and six in diameter in the broadest part. The figures are of most exquisite workmanship in bas relief, of white opake glass, raised on a ground of deep blue glass, which appears black, except when held against the light. Mr. Wedgwood is of opinion, from many circumstances, that the figures have been made by cutting away the external crust of white opake glass, in the manner the finest cameos have been produced, and that it must thence have been the labour of a great many years. Some antiquarians have placed the time of its production many centuries before the Christian sera, as sculpture was said to have been declining, in re- spect to its excellence, in the time of Alexander the Great. See an account of the Barberini, or Portland vase, by M. D'Hancarville, and by Mr. Wedgwood. Many opinions and conjectures have been published concerning the figures on this celebrated vase. Having carefully examined one of Mr. Wedgwood's beautiful copies of this wonderful production of art, I shall add one more conjecture to the number. Mr. Wedgwood has well observed, that it does not seem probable that the Portland vase was purposely made for the ashes of any par- ticular person deceased, because many years must have been neces- sary for its production. Hence it may be concluded, that the subject of its embellishments is not private history, but of a general nature. This subject appears to me to be well chosen, and the story to be finely told; and that it represents what in ancient times engaged the atten- tion of philosophers, poets, and heroes ; I mean a part of the Eleu- sinian mysteries- These mysteries were invented in Egypt, and afterwards transfer- red to Greece, and flourished more particularly at Athens, which was, at the same time, the seat of the fine arts. They consisted of scent- flOTANTC GARDEN. Part I. cal exhibitions, representing and inculcating the expectation of a fu- ture life after death, and, on this account, were encouraged by the g ove rnment, in so much that the Athenian laws punished a discovery of their secrets with death. Dr. Warburton has, with great learning and ingenuity, shown, that the descent of ."Eneas into hell, described in the sixth book of Virgil, is a poetical account of the representations of the future state in the Eleusinian m\ stories. Divine Legation, vol. i. p. 210. And though some writers have differed in opinion from Dr. War- burton on this subject, because Virgil has introduced some of his own heroes into the Elysian fields, as Deiphobus, Palinurus, and Dido, in the same manner as Homer had done before him ; yet it is agreed that the received notions about a future state were exhibited in these mysteries ; and as these poets described those received notions, they may be said, as far as these religious doctrines were concerned, to have described the mysteries. Now, as these were emblematic exhibitions, they must have been as well adapted to the purposes of sculpture as of poetry, which, in- deed, does not seem to have been uncommon, since one compartment of figures in the shield of /Eneas represented the regions of Tarta- rus. iEn. lib. x. The procession of torches, which, according to M. De St. Croix, was exhibited in these mysteries, is still to be seen in basso relievo, discovered by Spon and Wheeler. Memoires sur le Mysteres par De St. Croix, 1784. And it is very probable that the beautiful gem representing the marriage of Cupid and Psyche, as described by Apuleius, was originally descriptive of another part of the exhibitions in these mysteries, though afterwards it became a common subject of ancient art. See Divine Legat. vol. i. p. 323. What subject could have been imagined so sublime for the ornaments of a funeral urn, as the mortality of all things, and their resuscita- tion ? Where could the designer be supplied with emblems for this purpose before the Christian xra, but from the Eleusinian mysteries ? 1. The exhibitions of the mysteries were of two kinds — those which the people were permitted to see, and those which were only shown to the initialed. Concerning the latter, Aristides calls them » the most shocking and most ravishing representations." And Stobxus asserts, that the initiation into the grand mysteries exactly resemble* death. Divine Legat; vol. i. p. 280, and p. 27 I. And Virgil, in his hades below, amongst other things of terri mentions death. /En. vi. This part of the e ms to be in one of the compartments v[' the Portland vase. Three figures of exquisite workmanship are placed by the sided a ruined col imn, whose capital is fallen off, and lies at their feet witk other disjointed stones - } they sit on loose piles of stone, beneath a tree, Mote 22. PORTLAND VASE. 1919 Which has not the leaves of any evergreen of this climate, but may be supposed to be an elm, which Virgil places near the entrance of the iniernal regions, and adds, that a dream was believed to dwell under every leaf of it. JE,n. vi. 1. 281. In the midst of this group reclines a female figure in a dying attitude, in which extreme languor is beautifully represented ; in her hand is an inverted torch, an an- cient emblem of extinguished life ; the elbow of the same arm resting on a stone, supports her as she sinks, while the other hand is raised, and thrown over her drooping head, in some measure sustaining it, and gives, with great art, the idea of fainting lassitude. On the right of her sits a -.van, and on the left a woman, both supporting them- selves on their arms, as people are liable to do when they are think- ing intensely. They have their backs toward the dying figure, yet with their faces turned towards her, as if seriously contemplating her situation, but without stretching out their hands to assist her. This central figure, then, appears to me to be an hieroglyphic, or Eieusinian emblem of mortal life, that is, the lethum, or death, mentioned by Virgil amongst the terrible things exhibited at the be- ginning of the mysteries. The inverted torch shows the figure to be emblematic ; if it had been designed to represent a real person in the- act of dying, there had been no necessity for the expiring torch, as the dying figure alone would have been sufficiently intelligible ;~~ it would have been as absurd as to have put an inverted torch into the hand of a real person at the time of his expiring. Besides, if this figure had i*epresented a real dying person, would not the other figures, or one of them at least, have stretched out a' hand to support her, to have eased her fall among loose stones, or to have smoothed, her pillow? These circumstances evince that the figure is an em- blem, and, therefore, could not be a representation of the private kistory of any particular family or event. The man and woman on each side of the dying figure must be considered as emblems, both from their similarity of situation and dress to the middle figure, and their being grouped along with it. These, I think, are hieroglyphic or Eleusinian emblems of human- kind, with their backs toward the dying figure of mortal life, unwilling to associate with her, yet turning back their serious and attentive countenances, curious indeed to behold, yet sorry to contem- plate their latter end. These figures bring strongly to one's mind the Adam and Eve of sacred writ, whom some have supposed to have been allegorical or hieroglyphic persons of Egyptian origin, but of more ancient date ; amongst Avhom, I think, is Dr. Warburton» According to this opinion, Adam and Eve were the names of two hieroglyphic figures, representing the early state of mankind; Abe!. Vas the name of an hieroglyphic figure, iv;pi*eseiiting the ae:e ©i" nas'. .... T j09 BOTANIC GARDEN. turage ; and Cain, the mime of another hieroglyphic symbol, repre- senting the age of agriculture ; at which time the uses of iron were discovered. And as the people who cultivated the earth, and built would increase in numbers much faster by their greater pro- duction of food, they would readily conquer or desiroy the people who -ere sustained by pasturage, which was typified by Cum slating Abel. 2. On the other compartment of this celebrated vase is exhibited an emblem of immortality, the representation of which known to constitute a very principal part of the shows at the Eleusi- nian mvsteries, as Dr. Wurburton has proved by variety of authority. The habitation of spirits or ghosts, after death, was supposed by the ancients to be placed beneath the earth, where Pluto reigned, and dispensed rewards or punishments. Hence the first figure in this group is of the MANES, or ghost, who, h iving passed through an open portal, is descending into a dusky region, pointing his toe with timid and unsteady step, feeling, as it were, his way in the gloom. This portal JBneas enters, which is described by Virgi 1 ,— patet atri janua Ditis, -En. vi. I. 126 j as well as the easy de-cent. — taci.is descensus Averni. lb. The darkness at the entrance to the shades is humorously described by Lucian. Divine Legat. vol. i. p. 241. And the horror of the gates of hell was, in fhe time of Homer, become a pmverb. Achilles says to Ulysses, " I hate a liar worse than the gates of hell." The same expression is used in Isaiah, chap, xxxviii. ver. 10. The manes, or ghost, appears lingering and fearful, and wishes to drag after him a part of his mortal garment, which, how- ever, adheres to the side of the portal through which he has passed. The beauty of this allegory would have been expressed by Mr. Pepe, by " We feel the ruling passion strong in death." A little lower down in the group, the manes, or ghost, is received by a beautiful female, a symbol of immortal life. This is evinced by her fondling between her knees a large and playful serpent, which, from its annually renewing its external skin, has, from great anti- quity, even as earlj as the fable of Prometheus, been esteemed an emblem of renovated youth. The story of the serpent acquiring immortal life from the ass of Prometheus, who carried it on b is told in Bacon's Works, vol. v. p. 462. quarto edit. Lond. 177 . I nilar purpose a serpent was wrapped round the lav pie of Dioscuri, as an emblem of the i F death. Bryant's Mythology, vol. ii, t. ():. this account also the serpent was . i the name of the hieroglyphic . This serpent shows this figure to be an as 3 the torch showed the central figure of the other compartment to Note 22. PORTLAND VASE. 20i be. an emblem : hence they agreeably correspond, and explain each other; one representing mortal life, and the other immortal LIFE. This emblematic figure of Immortal Life sits down with her feet towards the figure of Pluto ; but turning back her face towards the timid ghost, she stretches forth her hnnd, and, taking hold of his elbow, supports his tottering steps, as well as encourages him to advance: both which circumstances are thus, with wonderful inge» nuity, brought to the eye. At the same time the spirit loosely lays his hand upon her arm, as one walking in the dark would naturally do for the greater certainty of following his conductress; while the general part of the symbol of immortal life, being turned toward the figure of Pluto, shows that she is leading the phantom to his realms. In the Pamphili gardens at Rome, Perseus, in assisting Andromeda to descend from the rock, takes hold of her elbow to steady or sup- port her step, and she lays her hand loosely on his arm, as in this figure. Admir. Roman Antiq. The figure of Pluto can not be mistaken, as is agreed by mos6 of the writers who have mentioned this vase ; his grisly beard, and his having one foot buried in the earth, denote the infernal monarch* He is placed at the lowest part of the group, and, resting his chin on his hand, and his arm upon his knee, receives the stranger-spirit "with inquisitive attention. It was before observed, that when people think attentively, they naturally rest their bodies in some easy atti- tude, that more animal power may be employed on the thinking fa- culty. In this group of figures there is great art shown in giving an idea of a descending plain, viz. from earth to Elysium, and yet all the figures arc, in reality, on a horizontal one. This wonderful deception is produced, first, by the descending step of the manes, or ghost ; secondly, by the arm of the sitting figure of Immortal Life being raised up to receive him as he descends ; and, lastly, by Pluto having one foot sunk into the earth. There is yet another figure which is concerned in conducting the, manes, or ghost, to the realms of Pluto, and this is Love. He pre- cedes the descending spirit on expanded wings, lights him with his torch, and turning back his beautiful countenance, beckons him to advance. The ancient God of Love was of much higher dignity than the modern Cupid. He was the first that came out of the great egg of night, (Hesiod. Theog. V. CXX. Bryant's Mythol. vol. ii. p. 348.) and is said to possess the keys of the sky, sea, and earth. As he, therefore, led the way into this life, he seems to constitute a pro- per emblem for leading the way to a future life, See Bacon''? Works ; vol. i. p. S68. and vol. iii. p. 532. qu; I Sp2 BOTANIC GARDEN. Part I. The introduction of Love into this part of the mvsteries requires a little further explanation. The Psyche of the Egyptians was one of their most favourite emblems, and represented the soul, or a future life ; it was originally no other than the aurelia, or butterfly, but in after times was represented by a lovely female child, with the beautiful wings of that insect. The aurelia, after its first stage as an eruca or caterpillar, lies for a season in a manner dead, and is en- closed in a sort of coffin : in this state of darkness it remains all the: winter; but, at the return of spring, it bursts its bonds and comes out with new life, and in the most beautiful attire. The Egyptians thought this a very proper picture of the soul of man, and of the immortality to which it aspired. But as this was all owing to divine Love, of which Eros was an emblem, we find this person frequently introduced as a concomitant of the soul in general, or Psyche. (Bry ant's Mythol. vol. ii. p. 386.) Eros, or divine Love, is for the same reason a proper attendant on the manes or soul after death, and much contributes to tell the story, that is, to show that a soul or manes is designed by the descending figure. From this figui e of Love, M. D'Hancarville imagines that Orpheus and Eurydice are typified under the figure of the manes, and immortal life as above described- It may be sufficient to answer, first, that Orpheus is always repre- sented with a lyre, of which there are prints of four different gems In Spence's Polymctis, and Virgil so describes him, /En. vi. cythara fretus. And, secondly, that it is absurd to suppose that Eurydice was fondling and playing with a serpent that had slain her. Add to this, that Love seems to have been an inhabitant of the infernal region*,, as exhibited in the mysteries ; for Claudian, who treats more openly of the Eleusinian mysteries, Avhen they were held in less veneration, invokes the deities to disclose to him their secrets, and amongst othe? tilings, by what torch Love softens Pluto. jD//, cjuibus in xumerum, lD"c. Vqs mihi sacrarum fienetratia fiandite ren Et vestri secreta/ioli, qua lam[iade Ditem Flexit Amor, In this compartment there are two trees, whose branches spread •over the figures ; one of them has smoother leaves, like souk- evei greens, and might thence be supposed to have some allusion to im- mortality, but they may perhaps have been designed onl) ments, or to relieve the figures, or because it was in groves where. these mysteries were oi'iginally celebrated. Thus Homer speaks oj the woods of Proserpine, and mentions many trees in Tartarus, a.: presenting their fruits to Tantalus ; Virgil speaks of the | groves of Elysium; and in Spence's Polymetis there are prints oi"tw>- ancient gems, one of Orpheus charming Cerberus with his I :Vote *2« PORTLAND VASE. the other of Hercules binding him in a cord ; each of them standing by a tree. Polymet. p. 284. As, however, these trees have all dif- ferent foliage so clearly marked by the artist, they may have had specific meanings in the exhibitions of the mysteries, which have not reached posterity: of this kind seem to have been the tree of know- ledge of good and evil, and the tree of life, in sacred writ, both which must have been emblematic or allegorical. The masks, hang- ing to the handles of the vase, seem to indicate that there is a con- cealed meaning in the figures besides their general appearance. And the priestess at the bottom, which I come now to describe, seems to show this concealed meaning to be of the sacred or Eleusinian kind. 3. The figure on the bottom of the vase is on a larger scale than the others, and less finely finished, and less elevated ; and, as this bottom part was afterwards cemented to the upper part, it might be executed by another artist, for the sake of expedition ; but there seems no reason to suppose that it was not originally designed for the upper part of it, as some have conjectured. As the mysteries of Ceres were celebrated by female priests, for Porphyrius says the an- cients called the priestesses of Ceres, Melissai, or bees, which were emblems of chastity, Div. Leg. vol. i. p. 235. and as, in his Satire against the sex, Juvenal says, that few women are worthy to be priestesses of Ceres, Sat. vi. the figure at the bottom of the vase would seem to represent a priestess, or hieeophant, whose office it was to introduce the initiated, and point out to them, and ex- plain the exhibitions in the mysteries, and to exclude the uninitiated, calling out to them, " Far, far retire, ye profane !" and to guard the secrets of the temple. Thus the introductory hymn sung by the hie- rophant, according to Eusebius, begins, " I will declare a secret to the initiated, but let the doors be shut against the profane." Div. Leg. vol. i. p. 177. The priestess, or hierophant, appears in this figure with a close hood, and dressed in linen, which sits close about her ; except a light cloak, which flutters in the wind. Wool, as takea from slaughtered animals, was esteemed profane by the priests of Egypt, who were always dressed in linen. Apuleius, p. 64. Div. Leg. vol. i. p. 313. Thus Eli made for Samuel a linen ephod, Samuel i. 3. Secrecy was the foundation on which all mysteries rested ; whea publicly known, they ceased to be mysteries : hence a discovery of them was not only punished with death by the Athenian law, but in other countries a disgrace attended the breach of a solemn oath. The priestess, in the figure before us, has her finger pointing to her lips, as an emblem of silence. There is a figure of Harpocrates, who was of Egyptian origin, the same as Orus, with the lotus on his head, and $Uth. his finger pointing to his lips, not pressed upon them, in Bryant's BOTANIC GARDEN. 1»abtI. and anotlier female figure standing on a lotus, as if just risen from tlie Nile, with tier finger in the same attitude; in to have been representations or emblems of male and fe- male priests of the secret mysteries. A> these sorts of emblems were frequently changed by artists for their more elegant exhibition, ')le the foliage over the head of this figure may bear some to the lotus above-mentioned. This figure of secrecy seems to be here placed, with great ingenui- ty, as a caution to the initialed, who might understand the meaning of the emblems round the vase, not to divulge it. And this circum- stance seems to account for there being no written explanation extant, and no tradition concerning these beautiful figures handed down to us along with them. Another explanation of this figure, at the bottom of the vase, would seem to confirm the idea that the basso relievos round its sides are representations of a part of the mysteries ; I mean that it is the head of Atis. Lucian says that Atis was a >oung man of Phrygia, of uncommon beauty; that he dedicated a temple in Syria to Rhea, or Cybele, and first taught her mysteries to the Lydians, Phrygians, and Samothracians, which mysteries he brought from India. He was afterwards made an eunuch by Rhea, and lived like a woman, and assumed a feminine habit, and in that garb went over the world, teaching her ceremonies and mysteries. Diet, par M. Danet, art. Atis. As this figure is covered with clothes, while those on the sides of the vase are naked, and has a Phrygian cap on the head, and as the form and features are so soft, that it is difficult to say whether it be a male or female figure, there is reason to conclude, 1. That it has reference to some particular person of seme particular country ; 2. That this person is Atis, the first great hierophant, or teacher of mysteries, to whom M. De la Chausse says the figure itself bears a resemblance. Museo. Capitol, torn. iv. p. 402. In the Museum Etruscum, vol. i. plate 96. there is the head of A.tis with feminine features, clothed with a Phrygian cap, and rising from very broad foliage, placed on a kind of term, supported by the lion. Goreus, in his explanation of the figure, says, that ■ .1 on a lion's foot because that animal v. as sacred to Cybele, rises from very broad leaves, because after he became an eunuch, he determined to dwell in the groves. Thus well as th is figurj at the bottom of the vase representing the head of Atis, the first n1 ; and that the figures on the sides of the vase arc •' • ancient mysteries. , hat it does not appear to have been uncommon :al figures on funeral vases. '•: Note 23. COAL. 205 the Pamphili palace at Rome, there is an elaborate representation of Life and Death, on an ancient sarcophagus. In the first Prometheus is represented miking man, and Minerva is placing a butterfly, or the soul, upon his head. In the other compartment, Love extin- guishes his torch in the bosom of the dying figure, and is receiving the butterfly, or Psyche, from him, with a great number of compli- cated emblematic figures grouped in very bad tase. Admir. Ro- man Antiq. NOTE XXIII.— COAL. Hi'nce sable Coal his massy couch extends. And stars of gold the sparkling Pyrite blends. Canto II. 1. 349. TO elucidate the formation of coal-beds, I shall here describe a fountain of fossil tar, or petroleum, discovered lately near Colebrook D de, in Shropshire, the particulars of which were sent me by Dr. Robert Darwin, of Shrewsbury. About a mile and a half below the celebrated iron-bridge, con- structed by the late Mr. Darby, near Colebrook Dale, on the east side of the river Severn, as the workmen, in October, 1786, were making a subterranean canal into the mountain, for the more easy acquisition and conveyance of the coals which lie under it, they found an oozing of liquid bitumen, or petroleum; and as they proceeded further, cut through small cavities of different sizes, from which the bitumen issued. From ten to fifteen barrels of this fossil tar, each barrel containing thirty-two gallons, were at first collected in a day, which has since, however, gradually diminished in quantity, so that at present the product is about seven barrels in fourteen days. The mountain into which this canal enters, consists of siliceous sand, in which, however, a few marine productions, apparently in their recent state, have been found, and are now in the possession of Mr. William Reynolds, of Ketly Bank. About three hundred yards from the entrance into the mountain, and about twenty-eight yards below the surface of it, the 'tar is found oozing from the sand rock above, into the top and sides of the canal. Beneath the level of this canal, a shaft has been sunk through a grey argillaceous substance, called, in this country, clunch, which is said to be a pretty certain indication of coal : beneath this lies a stra- tum of coal, about two or three inches thick, of an inferior kind, yielding little flame in burning, and leaving much ashes ; below this BOTANIC GARDEN. Part I. is a rock of a harder texture ; and beneath this arc found coals of an excellent quality; for the purpose of procuring which with greater facility, the canal, or horizontal aperture, is now making into the mountain. July, 1788. Beneath these coals in some places is found salt-water ; in other parts of the adjacent country there are beds of iron-stone, which also contain some bitumen in a less fluid state, and which are about on a level with the new canal, into which the fossil tar oozes, as above described. There are many interesting circumstances attending the situation and accompanyments of this fountain of fossil tar, tending to develope the manner of its pi-oduction. 1. As the canal passing into the moun- tain runs over the beds of coals, and under the reservoir of petro- leum, it appears that a natural distillation of this fossil, in the bowels of the earth, must have taken place at some early period of the world, similar to the artificial distillation of coal, which has many years been carried on in this place on a smaller scale above ground. When this reservoir of petroleum was cut into, the slowness of its exudation into the canal, was not only owing to its viscidity, but to the pressure of the atmosphere, or to the necessity there was that air should at the same time insinuate itself into the small cavities from which the pe- troleum descended. The existence of such a distillation at some an- cient time, is confirmed by the thin stratum of coal beneath the canal (which covers the hard rock), having been deprived of its fos- sil oil, so as to burn without flame, and thus to have become a natural c.oak, or fossil charcoal, while the petroleum distilled from it is found in the cavities of the rock above it. There are appearances in other places, which favour this idea of the natural distillation of petroleum : thus, at Matlock, in Derby- shire, a hard bitumen is found adhering to the spar in the clefts of the lime-rocks, in the form of round drops about the size of peas ; which could, perhaps, only be deposited there in that form by sublimation. 2. The second deduction which offers itself is, that these beds of coal have been exposed to a considerable degree of heat., since the. petroleum above could not be separated, as far as we know, by an) other means, and that the good quality of the coals beneath the hard vock, was owing to the impermeability of this rock to the bituminous vapour, and to its pressure being too great to permit its being re moved by the elasticity of that vapour. Thus, from the degree of lieat, the degree of pressure, and the permeability of the superin- ' rata, many of the phenomena attending coal-beds receive an easy explanation, which much accords with the ingenious theory of the earth by Dr. Hutton. Trans, of Edinb, vol. i. In some coal «vorks 3 the fusion dF < 11 is beer, so Note 23. COAL. 20? light, that there remains the appearance of ligneous fibres, and the impression of leaves, as at Bovey, near Exeter, and even seeds of vegetables, of which I have had specimens from the collieries near Polesworth, in Warwickshire. In some, where the heat was not very intense, and the incumbent stratum not permeable to vapour, the fossil oil has only risen to the upper part of the coal-bed, and has ren- dered that much more inflammable than the lower parts of it, as in the collieries near Beaudcsert, the seat of the Earl of Uxbridge, in Staffordshire, where the upper stratum is a perfect cannel, or candle- coal, and the lower one of an inferior quality. Over the coal-beds near Sir H. Harpur's house in Derbyshire, a thin lamina of asphaltum is found in some places near the surface of the earth, which would seem to be from a distillation of petroleum from the coals below, the more fluid part of which had, in process of time, exhaled, or been consoli- dated by its absorption of air. In other coal-works the upper part of the stratum is of a worse kind than the lower one, as at Alfreton and Denbigh, in Derbyshire, owing to the superincumbent stratum having permitted the exhalation of a great part of the petroleum ; whilst at Widdrington, in Northumberland, there is first a seam of coal about six inches thick, of no value, which lies under about four fathom of clay; beneath this is a white free-stone, then a hard stone, which the workmen there call a whin, then two fathoms of clay, then another white stone, and under that a vein of coals three feet nine inches thick, of a similar nature to the Newcastle coal. Phil. Trans. Abridg. vol. vi. plate 2. p. 192. The similitude between the circumstances of this colliery, and of the coal beneath the fountain of tar above de- scribed, renders it highly probable, that this upper thin seam of coal has suffered a similar distillation, and that the inflammable part of it had either been received into the clay above, in the form of sulphur, which, when burnt in the open air, would produce alum ; or had been dissipated, for want of a receiver, where it could be condensed. The former opinion is, perhaps, in this case, more probable, as in some other coal-beds, of which I have procured accounts, the surface of the coal beneath clunch or clay is of an inferior quality, as at West-Hal- lam, in Nottinghamshire. The clunch probably from hence acquires its inflammable part, which, on calcination, becomes vitriolic acid. I gathered pieces of clunch, converted partially into alum, at aWol- liery near Bilston, where the ground was still on fire a few years ago. The heat, which has thus pervaded the beds of morass, seems to have been the effect of the fermentation of their vegetable materials j as new hay sometimes takes fire, even in such very small masses, from the sugar it contains, and seems, hence, not to have been at- tended with any expulsion of lava, like the deeper craters of volcano's situated in beds of granite. Part I. 2F ■l 206 BOTANIC GARDEN. Pai t i. 3. Tfte marine shells found in the loose sand-rock, above this reser- voir of petroleum, and the coal-beds beneath it, together with the ex- istence of sea-salt beneath these coals, prove that these coal-beds have been at the bottom of the sea, during some remote period of time, and were afterwards raised into their present situation by subter- pansions of vapour. This doctrine is further supported by the murks of violence, which some coal-beds received at the time they were raised out of the sea, as in the collieries at Mendip, in So- mersetshire. In these there are seven strata of coals, equitant upon each other, with beds of clay and stone intervening; amongst which clay are found shells and fern branches. In one part of this hill the strata are disjoined, and a quantity of heterogeneous substances fill up the ehasm which disjoins them ; on one side of this chasm the seven strata of coal are seen corresponding, in respect to their reciprocal thick- ness and goodness, with the seven strata on the other side of the ca- vity, except that they have been elevated several yards higher. Phil. Trans. No. 360. Abridg. vol. v. p. 237. The cracks in the coal-bed near Ticknall, in Derbyshire, and in the sand-stone rock over it, in both of which specimens of lead-ore and spar are found, confirm this opinion of their having been forcibly raised up by subterraneous fires. Over the colliery at Brown-hills, near Lichfield, there is a stratum of gravel on the surface of the ground, which may be adduced as another proof to show that those coals had some time been beneath the sea, or the bed of a river. Ne- vertheless, these arguments only apply to the collieries above-men- tioned, which are few compared with those which bear no marks of having been immersed in the sea. On the other hand, the production of coals from morasses, as de- scribed in note XX. is evinced from the vegetable matters frequently found in them, and in the strata over them ; as fern-leaves in nodules of iron-ore, and from the bcg-shells, or fresh-water muscles, some- limes found over them, of both which I have what I believe to be spe- cimens ; and is further proved, from some parts of these beds being only in part transformed to coal ; and the other part still retaining not only the form, but some of the properties of wood ; specimens of which are not unfrequent in the cabinets of the curious, procured from Loch Neigh, in Ireland, from Bovcy, near Exeter, and other places; and from a famous cavern called the Temple of the Devil, near the town of Altorf, in Franconia, at the foot of a mountain covered with pine and savine, in which are found large coals resembling trees of ebony ; which are so far mineralized as to be heavy and compact ; and so to effloresce with pyrites in some parts as to crumble to pieces; yet from other parts white ashes are produced on calcination, from r;hk\\ fixed alkali is procured ; which evinces their vegetable origin,. Note 23. COAL. 209 (Diet. Raisonne, art. Chavbon.) To these may be added another ar- gument, from the oil which is distilled from coals, and which is ana- logous to vegetable oil, and does not exist in any bodies truly mineral. Keir's Chemical Dictionary, art. Bitumen. Whence it would appear, that though most collieries, with their attendant strata of clay, sand-stone, and iron, were formed on the places where the vegetables grew from which they had their origin ; yet that other collections of vegetable matter were washed down from ^eminences, by currents of water, into the beds of rivers, or the neighbouring seas, and were there accumulated at different periods of time, and underwent a great degree of heat, from their fermentation, IB the same manner as those beds of morass which had continued on the plains where they were produced : and that, by this fermenta- tion, many of them had been raised from the ocean, with sand and sea-shells over them ; and others from the beds of rivers, with accu- mulations of gravel upon them. 4. For the purpose of bringing this history of the products of mo- lasses more distinctly to the eye of the reader, I shall here subjoin two or three accounts of sinking or boring for coals, out of above twenty, which I have procured from various places, though the terms are not very intelligible, being the language of the overseers of coal-works. 1. Whitfield mine, near the Pottery, in Staffordshire. Soil 1 foot, brick-clay 3 feet, shale 4, metal which is hard brown, and falls in the weather, 42, coal 3, warrant clay 6, brown grit-stone 36, coal 3f, warrant clay 3§, bass and metal 53 1, hard-stone 4, shaly bass \\, coal 4, warrant clay depth unknown ; in all about 55 yards. 2. Coal-mine at Alfreton, in Derbyshire. Soil and clay 7 feet, frag- ments of stone 9, bind 13, stone 6, bind 34, stone 5, bind 2, stone 2, bind 10, coal 1£, bind li, stone 37, bind 7, soft coal 3, bind 3, stone 20, bind 16, coal 7\ ; in all about 61 yards. 3. A basset coal-mine at Woolarton, in Nottinghamshire. Sand and gravel 6 feet, bind 21, stone 10, smut or effete coal 1, clunch 4, bind 21, stone 18, bind 18, stone-bind 15, soft coal 2, clunch and bind 21, coal 7 ; in all about 48 yards. 4. Coal-mine at West-Ha'lam, in Nottinghamshire. Soil and clav 7 feet, bind 48, smut \\, clunch 4, bind 3, stone 2, bind 1, stone 1, bind 3, stone 1, bind 16, shale 2, bind 12, shale 3, chinch, stone, and. a bed of cank 54, soft coal 4, clay and dun 1, soft coal 4§, clunch and bind 21, coal 1, broad bind 26, hard coal 6 ; in all about 74 yai'ds. As these strata generally lie inclined, I suppose parallel with the lime-stone on which they rest, the upper edges of them all come out to day, which is termed bassetting ; when the whole mass was ignited kg its fermentation, it is probable that the inflammable part of some •JW BOTANIC GARDEN. Part T. 6trata might thus more easily escape than of others, in the form of vapour, as dews are known to slide between such strata in the pro- duction of springs ; which accounts for some coal-beds being so much worse than others. See note XX. From this account of the production of coals from morasses, it would appear, that coal-beds are not to be expected beneath masses of lime-stone. Nevertheless, I have been lately informed by my friend, Mr. Michel, of Thornhill, who, I hope, will soon favour the public with his geological investigations, that the beds of chalk arc the uppermost of all the lime-stones ; and that they rest on the gra- nulated lime-stone called ketton-stone ; which, I suppose, is similar to that which covers the whole country from Leadenham to Sleaford, and from Sleaford to Lincoln ; and that, thirdly, coal-delphs are fre- quently found beneath these two uppermost beds of lime-stone. Now, as the beds of chalk and of granulated lime-stone may have been formed by alluviation, on or beneath the shores of the sea, or in vallies of the land, it would seem, that some coal-countries, which, in the great commotions of the earth, had been sunk beneath the water, were thus covered with alluvial lime-stone, as well as others with alluvial basaltes, or common gravel-beds. Very extensive plains, which now consist of alluvial materials, were, in the early times, co- vered with water, which has since diminished, as the solid parts of the earth have increased. For the solid parts of the earth, consisting chiefly of animal and vegetable recrements, must have originally been formed or produced from the water, by animal and vegetable pro- cesses ; and as the solid parts of the earth may be supposed to be thrice as heavy as water, it follows, that thrice the quantity of water must have vanished, compared with the quantity of earth thus pro- duced. This may account for many immense beds of alluvial ma- terials, as gravel, rounded sand, granulated lime-stone, and chalk, covering such extensive plains as Lincoln-heath, having become dry ■without the supposition of their having been again elevated from the ocean. At the same time we acquire the knowledge of one of the uses or final causes of the organized world, not indeed very flattering to our vanity ; that it converts water into earth, forming islands and continents by its recrements or exuvix. The annexed section of a coal-mine was sent me by a member of the ingenious philosophical society of Newcastle upon Tync, and can- not but much gratify every inquirer into the strata of coal countries, to the LOW MAIS' COAL Metal Stone k GrrdU :> Darlc i hex Metal Stcne ■Metal aneLWhin Ctrdtes . .... ■Metal and Gu-cUU/s 8 Test --"- ahl"Grey'HCU,V. '. '. ". ".".".'" '.'!'. '.'. '.'. Coal '. a,rvd Grey Metal White Post mixed with Whin-... Grey Metal I / GreYMetal and Gxrdltj ! i Lov Mam Coal- - \J_ to the LOW MAD? COAL at STAKTHON's COLLIERY. PH CM ■ High TvOim Coal m — — — 1 — = ( 211 ) NOTE XXIV— GRANITE. Climb the rude steejis, the granite-cliffs surround. Canto II. 1. 523. THE lowest stratum of the earth which human labour has arrived to, is granite ; and of this, likewise, consist the highest mountains of the world. It is known under variety of names, according to some difference in its appearance or composition, but is now generally considered by philosophers as a species of lava : if it contains quartz, feltspat, and mica, in distinct crystals, it is called granite ; which is found, in Cornwall, in rocks ; and in loose stones in the gravel near Drayton, in Shropshire, in the road towai'ds Newcastle. If these parts of the composition be less distinct, or if only two of them be visible to the eye, it is termed porphyiy, trap, whin-stone, moor- stone, slate. And if it appears in a regular angular form, it is called basaltes. The affinity of these bodies has lately been further well established by Dr. Beddoes, in the Phil. Trans, vol. Ixxx. These are all esteemed to have been volcanic productions, that have undergone different degrees of heat. It is well known, that in Papin's digester water may be made red-hot by confinement, and will then dissolve many bodies which otherwise are little or not at all acted upon by it. From hence it may be conceived, that under immense pressure of superincumbent materials, and by great heat, these mas- ses of lava may have undergone a kind of aqueous solution, without any tendency to vitrifaction, and might thence have a power of crys- tallization ; whence all the varieties above-mentioned, from the dif- ferent proportion of the materials, or the different degrees of heat they may have undergone in this aqueous solution. And that the uni- formity of the mixture of the original earths, as of lime, argil, silex, magnesia, and barytes, which they contain, was owing to their boil- ing together a longer or shorter time before their elevation into moun- tains. See note XIX. art. 8. The seat of volcanos seems to be principally, if not entirely, in these strata of granite, as many of them are situated on granite mountains, and throw up, from time to time, sheets of lava, which run down over the preceding strata, from the same origin ; and in this they seem to differ from the heat which has separated the clay, coal, and sand, in morasses, which would appear to have risen from a kind of fermentation, and thus to have pervaded the whole mass, without any expuition of lava. All the lavas from Vesuvius contain one fourth part of iron, (Kir- BOTANIC GARDEN. Part L ivan's Min.) and all the five primitive earths, viz. calcareous, argil- laceous, siliceous, barytic, and magnesian earths; which . evidently produced now, daily, from the recrements of animal and vegetable bodies. What is to be thence concluded ? Has the granite stratum, in very ancient times, been produced like the present cal- careous and siliceous masses, according to the ingenious theory of Dr. Hutton, who says new continents are now forming at the bottom of the sea, to rise in their turn ; and that thus the terraqueous globe has been, and will be, eternal ? Or shall we suppose, that this inter- nal heated mass of gmnite, which forms the nucleus of the earth, was a part of the body of the sun, before it was separated by an explo- sion ? Or was the sun originally a planet, inhabited like ours, and a satellite to some other greater sun, which has long been extinguished by diffusion of its light, and around which the present sun continues to revolve, according to a conjecture of the celebrated Mr. Herschell, and which conveys to the mind a most sublime idea of the progressive and increasing excellence of the works of the Creator of all thing*- ? For the more easy comprehension of the facts and conjectures con- fcerning the situation and production of the various strata of the earth, I shall here subjoin a supposed section of the globe, but without any attempt to give the proportions of the parts, or the number of them, but only their respective situations over each other, and a geological recapitulation. GEOLOGICAL RECAPITULATION. 1. The earth was projected along with the other primary planets from the sun, which is supposed to be on fire only on its surface, emitting light without much internal heat, like a ball of burning camphor. 2. The rotation of the earth round its axis was occasioned by it.- greater friction, or adhesion to one side of the cavity from which it was ejected ; and from this rotation it acquired its spheroidical form. As it cooled in its ascent from the sun, its nucleus became harder; and its attendant vapours were condensed, forming the ocean. 3. The masses or mountains of granite, porphyry, basalt, and Stones of similar structure, were a part of the original nucleus of the earth, or consist of volcanic productions since formed. 4. On this nucleus of granite and basaltes, thus covered by the ocean, were formed the calcareous beds of lime-stone, marble, chalk, spar, from the exuvia; of marine animals, with the Hints, or chert:', which accompany them : and were stratified by their having beer. formed at dim rent and very distant periods of time. 5. The whole terraqueous globe was burst by central fire"; Note 24. GRANITE. 218 and continents were raised, consisting of granite, or lava, in some parts, and of lime-stone in others ; and great vallies were sunk, into which the ocean retired. 6. During these central earthquakes the moon was ejected from the earth, causing new tides ; and the earth's axis suffered some change in its inclination, and its rotatory motion was retarded. 7. On some parts of these islands and continents of granite or lime- stone, were gradually produced extensive morasses, from the recre- ments of vegetables and of land animals ; and from these morasses, heated by fermentation, were produced clay, marl, sand-stone, coal* iron (with the bases of variety of acids) ; all which were stratified by their having been formed at different and very distant periods of time. 3. In the elevation of the mountains, very numerous and deep fis- sures necessarily were produced. In these fissures many of the me- tals are formed, partly from descending materials, and partly from as- cending ones, raised in vapour by subterraneous fires. In the fissure of granite or porphyry, quartz is formed ; in the fissures of lime- stone, calcareous spar is produced. 9. During these first great volcanic fires, it is probable the atmos- phere was either produced, or much increased ; a process which is, perhaps, now going on in the moon ; Mr. Herschell having disco- vered a volcanic crater three miles broad, burning on her disk. 10. The summits of the new mountains were cracked into innumer- able lozenges by the cold dews, or snows, falling upon them when red-hot. From the summits, which were then twice as high as at pre- sent, cubes and lozenges of granite and basalt, and quartz, in some countries, and of marble and flints in others, descended gradually into the valleys, and were rolled together in the beds of rivers (which were then so large as to occupy the whole valleys, which they now only intersect) ; and produced the great beds of gravel, of which many valleys consist. 11. In several pai-ts of the earth's surface, subsequent earthquakes, from the fermentation of morasses, have, at different periods of time, deranged the position of the matters above described. Hence the gravel, which was before in the beds of rivers, has, in some places, been raised into mountains, along with clay and coal strata, which were formed from morasses, and washed down from eminences into the beds of rivers, or the neighbouring seas, and in part raised again with gravel, or marine shells, over them ; but this has only obtained in few places, compared with the general distribution of such mate- rials. Hence there seem to have existed two sources of earthquakes, which have occurred at great distance of time from each other ; one from the granite beds, in the central parts of the earth, and the other &ora the morasses on its surface. All the subsequent earthquakes and 214 BOTANIC GARDEN". Taut I. volcano?; of modem days, compared with these, arc of small exteir and insignificant effect. 12. Besides the argillaceous sand-stone produced from morasses, which is stratified with clay, and coal, and iron, other great beds of siliceous sand have been formed in the sea, by the combination of an unknown acid from morasses, and the calcareous matters of the ocean. 13. The warm waters which are found in nvmy countries, are owing to steam arising from great depths, through the fissures of lime- stone or lava, elevated by subterranean fires, and condensed between the strata of the hills over them, and not from any decomposition of pyrites or manganese near the surface of the earth. 14. The columns of basaltes have been raised by the congelation or expansion of granite beds, in the act of cooling, from their semi- vitreous fusion. NOTE XXV EVAPORATION. Aquatic JVy?n/ihs ! — you lead with viewless march The winged Vapours ufi the aerial arch. Canto III. 1. 13. 1. THE atmosphere will dissolve a certain quantity of moisture, as a chemical menstruum, even when it is much below the freezing point, as appears from the diminution of ice suspended in frosty air ; but a much greater quantity of water is evaporated, and suspended in the air, by means of heat, which is, perhaps, the universal cause of fluidity ; for water is known to boil with less heat in vacuo, which is a proof that it will evaporate faster in vacuo, and that the air, therefore, rather hinders than promotes its evaporation in higher degrees of heat. The quick evaporation occasioned in vacuo by a small degree of heat, is agreeably seen in what is termed a pulse- glass, which consists of an exhausted tube of glass, with a bulb at each end of it, and with about two thirds of the cavity filled with alkohol, in which the spirit is instantly seen to boil, by the heat of the finger-end applied on a bubble of steam in the lower bulb, and is con- densed again in the upper bulb by the least conceivable comparative coldness. 2. Another circumstance, evincing that heat is the principal cause of evaporation, is, that at the time of water being converted intu steam, a great quantity of heat is taken away from the neighbouring bodies. It" a thermometer be repeatedly dipped in ether, or in recti- fied spirit of wine, and exposed to a bias*; of air, to expedite the ^Tote 15. EVAPORATION. 215 evaporation by perpetually removing the saturated air from it, the thermometer will presently sink below freezing. This warmth, taken from the ambient bodies at the time of evaporation by the steam, is again given out when the steam is condensed into water. Hence the water in a worm-tub, during distillation, so soon becomes hot; and hence the warmth accompanying the descent of rain in cold weather. 3. The third circumstance, showing that heat is the principal cause of evaporation, is, that some of the steam becomes again condensed when any part of the heat is withdrawn. Thus, when warmer south- west winds, replete with moisture, succeed the colder north-east winds, all bodies that are dense and substantial, as stone walls, brick floors, Sec. absorb some of the heat from the passing air, and its mois- ture becomes precipitated on them; while the north-east winds be- come warmer on their arrival in this latitude, and are thence dis- posed to take up more moisture, and are termed drying winds. 4. Heat seems to be the principal cause of the solution of many other bodies, as common salt, or blue vitriol, dissolved in water, which, when exposed to severe cold, are precipitated, or carried to the part of the water last frozen : this I observed in a phial filled with a solution of blue vitriol, which was frozen ; the phial was burst, the ice thawed, and a blue column of cupreous vitriol was left stand- ing upright on the bottom of the broken glass, as described in note XIX. art. 3o II. Hence water may either be dissolved in air, and may then be called an aerial solution of water ; or it may be dissolved in the fluid matter of heat, according to the theory of M. Lavoisier, and may then be called steam. In the former case, it is probable, there are many other vapours which may precipitate it, as marine aCid gas, or fluor acid gas. So alkaline gas and acid gas, dissolved in air, precis pitate each other ; nitrous gas precipitates vital air from its azote ; and inflammable gas, mixed with vital air, ignited by an electric sparky either produces or precipitates the water in both of them. Are there any subtle exhalations, occasionally diffused in the atmosphere, which may thus cause rain ? 1. But as water is, perhaps, many hundred times more soluble in the fluid matter of heat than in air, I suppose the eduction of this heat, by whatever means it is occasioned, is the principal cause of devaporation. Thus, if a region of air is brought from a warmer climate, as the S. W. winds, it becomes Cooled by its contact with the earth in this latitude, and parts with so much of its moisture as was dissolved in the quantity of calorique, or heat, which it now loses, but retains that part which was suspended by its attraction to Part h 2G ;i6 BOTANIC GARDEN. Part I. the particles of air, or by aerial solution, even in the most severe frosts. 2. A second immediate cause of rain is a stream of N. E. wind descending from a superior current of air, and mixing with the warmer S. \\\ wind below; or the reverse of this, viz. a superir current of S. W. wind mixing with an inferior one of N. E. wind: in both these cases the whole heaven becomes instantly clouded, and the moisture contained in the S. W. current is precipitated. This cause of devaporation has been ingeniously explained by Dr. Hutton, in the Transact, of Edinburgh, vol. i. and seems to arise from this circumstance ; the particles of air of the N. E. wind educe pail of the heat from the S. YV. wind, and therefore the water which was dissolved by that quantity of heat is precipitated ; all the other part of the water, which was suspended by its attraction to the particles of air, or dissolved in the remainder of the heat, continues unpre- cipitated. 3. A third method by which a region of air becomes cooled, and. in consequence, deposits much of its moisture, is from the mechani- cal expansion of air, when part of the pressure is taken off. In this case the expanded air becomes capable of receiving or attracting more of the matter of heat into its interstices ; and the vapour, which was previously dissolved in this heat, is deposited, as is seen in the receiver of an air-pump, which becomes dewy, as the air within becomes ex- panded by the eduction of part of it. See note VII. Hence, when the mercury in the barometer sinks without a change of the wind, the air generally becomes colder. See note VII. on Elementary Heat. And it is probably from the varying pressure of the incumbent air, that in summer days small black clouds are often thus suddenly pro- duced, and again soon vanish. See a paper in Phil. Trans, vol. lxxviii. entitled Frigorific Experiments on the Mechanical Expansion of Air. 4. Another portion of atmospheric water may possibly be held in solution by the electric fluid, since, in thunder-storms, a precipitation of the water seems to be either the cause or the consequence of the eduction of the electricity. But it appears more probable that the water is condensed into clouds by the eduction of its heat, and that then the surplus of electricity prevents their coalescence into larger drops, which immediately succeeds the departure of the lightning. 5. The immediate cause why the barometer sinks before rain, is, first, because a region of warm air, brought to us in the place of the cold air which it had dis- laced, must weigh lighter, both specifi- cally and absolutely, if the height of the warm atmosphere be sup- posed to be equal to that of the preceding cold one. And, secondly, after the drops of rain begin to fall in an)' column of air, that column Note 26. SPRINGS. 217 becomes lighter, the falling drops only adding to the pressure of the air in proportion to the resistance which they meet with in passing through that fluid. If we could suppose water to be dissolved in air without heat, or in very low degrees of heat, I suppose the air would become heavier, as happens in many chemical solutions ; but if water, dissolved in the matter of heat, or calorique, be mixed with an aerial solution of wa- ter, there can be no doubt but an atmosphere consisting of such a mixture, must become lighter in proportion to the quantity of calo- rique. On the same circumstance depends the visible vapour pro- duced from the breath of animals in cold weather, or from a boiling kettle ; the particles of cold air with which it is mixed, steal a part of its heat, and become themselves raised in temperature ; whence part of the water is precipitated in visible vapour, which, if in great quantity, sinks to the ground; if in small quantity, and the sur- rounding air is not previously saturated, it spreads itself till it becomes again dissolved. NOTE XXVI.- SPRINGS, Your lucid bands condense ivith fingers chill The blue mist hovering round the gelid hill. Canto III. 1. 19. THE surface of the earth consists of strata, many of which were formed originally beneath the sea ; the mountains were afterwards forced up by subterraneous fires, as appears from the fissures in the recks of which they consist, the quantity of volcanic productions all over the world, and the numerous remains of craters of volcanos in mountainous countries. Hence the strata which compose the sides of mountains lie slanting downwards, and one or two, or more, of the external strata not reaching to the summit when the mountain was raised up, the second or third stratum, or a more inferior one, is there exposed to day ; this may be well represented by forcibly- thrusting a blunt instrument through several sheets of paper; a bur will stand up with the lowermost sheet, standing highest in the centre of it. On this uppermost stratum, which is colder as it is more ele- vated, the dews are condensed in large quantities, and, sliding down, pass under the first, or second, or third stratum, which compose the sides of the hill, and either form a morass below or a weeping rock, by oozing out in numerous places ; or many of these less currents fleeting together, burst out in a more copious rill. m HOTANTC GARDEN". Part L The summits of mountains are much colder than the plains in their vicinity, owing to several causes : 1. Their being, in a manner, insu- lated, or cut ofF from the common heat of the earth, which is alwa; t of 48 degrees, and perpetually counteracts the effects of external cold beneath that degree. 2. From their surfaces being larger in propor- tion to their solid contents, and hence their heat more expeditiously carried away by the ever-moving atmosphere. 3. The increasing parity of the air as the mountain rises. All those bodies which con- duct electricity well or ill, conduct the matter of heat likewise well or ill. See note VII. Atmospheric air is a bad conductor of electricity, and thence confines it on the body where it is accumulated ; but, when it is made very rare, as in the exhausted receiver, the electric aura passes away immediately to any distance. The same circumstance probably happens in respect to heat, which is thus kept, by the denser air on the plains, from escaping, but is dissipated on the Hills, where the air is thinner. 4. As the currents of air rise up the sides of mountains, they become mechanically rarefied, the pressure of the incumbent column lessening as they ascend. Hence the expanding air absorbs heat from the mountain as it ascends, as explained in note VII. 5. There is another, and, perhaps, more powerful cause. I suspect, which may occasion the great cold on mountains, and in the higher parts of the atmosphere, and which has not yet been attended to ; I mean that the fluid matter of heat may probably gravitate round the earth, and form an atmosphere on its surface, mixed with the aerial atmosphere, which may diminish or become rarer, as it re- cedes from the earth's surface, in a greater proportion than the air diminishes. 6. The great condensation of moisture on the summits of hills has another cause, which is the dashing of moving clouds against them : in misty days this is often seen to have great effect on plains, where an eminent tree, by obstructing the mist as it moves along, shall have a much greater quantity of moisture drop from its leaves than falls at the same time on the ground in its vicinity. Mr. White, in his History of Selborne, gives an account of a large tree so situated, from ■which a stream flowed, during a moving mist, so as to fill the cart ruts in a lane otherwise not very moist ; and ingeniously adds, that trees planted about ponds of stagnant water, contribute much, by these means, to supply the reservoir. The spherules which constitute a mist or cloud, are kept from uniting by so small a power, that a little agitation against the leaves of a tree, or the greater attraction of a flat moist surface, condenses or precipitates them. If a leaf has its surface moistened, and particles of water separate from each other, as in a mist, be brought near the moistened surface of a leaf, each particle will be attracted more by that plain surface ot Note 27. SHELL FISH. 219 ■water on the leaf, than it can be by the surrounding particles of the mist ; because globules only attract each other in one point, whereas a plain attracts a globule by a greater extent of its surface. The common cold springs are thus formed on elevated grounds by the condensed vapours, and hence are stronger when the nights are cold, after hot days, in spring, than even in the wet days of winter. For the warm atmosphere, during the day, has dissolved much more water than it can support in solution during the cold of the night, wh'ch is thus deposited in large quantities on the hills, and yet so gradually as to soak in between the strata of them, rather than to slide off ever their surfaces, like showers of rain. The common heat of the internal parts of the earth is ascertained by springs which arise from strata of earth too deep to be affected by the heat of summer or the frosts of winter. Those in this country are of 48 degrees of heat ; those about Philadelphia were said, by Dr. Franklin, to be 52 ; "whether this variation is to be accounted for by the difference of the sun's heat on that country, according to the ingenious theory of Mr. Kirwan, or to the vicinity of subterranean fires, is not yet, I think, decided. There are, however, subterraneous streams of water not exactly produced in this manner, as streams issuing from fissures in the earth, communicating with the craters of old volcanos. In the Peak of Derbyshire are many hollows, called swallows, where the land floods sink into the earth, and come out at some miles distant, as at Ham, near Ashborne. See note on Fica, Part II. Other streams of cold water arise from beneath the snow on the Alps and Andes, and other high mountains, which is perpetually thawing at its under surface by the common heat of the earth, and gives rise to large rivers. For the origin of warm springs see note on Fucus, Part II. NOTE XXVII SHELL FISH. You round Echinus ray his arrowy mail, Give the keel'd Nautilus his oar and sail ; Firm to his rock with silver cords suspend The anchor'd Pinna, and his Cancer-friend. Canto III. 1. 67. THE armour of the Echinus, or Sea hedge-hog, consists generally of moveable spines; (Linnai System. Nat. vol. i. p. 1102.) and, in that respect, resembles the armour of the land animal of the same ■name. The irregular protuberances on other sea-shells, as on some 220 BOTANIC GARDEN. Part t species of the Purpura, and Murex, serve then* as a fortification against the attacks of their enemies. It is said that this animal foresees tempestuous weathers, and, sink- ing to the bottom of the sea, adheres firmly to sea-plants, or other bodies, by means of a substance which resembles the horns of snails. Above twelve hundred of these fillets have been counted, by which this animal fixes itself; and when afloat, it contracts these fillets be- tween the bases of its points, the number of which often amounts to two thousand. Diet. Raisonne. art. Oursin de mer. There is a kind of Nautilus, called, by Linnsus, Argonauta, whose shell has but one cell : of this animal Pliny affirms, that having exo- nerated its shell by throwing out the water, it swims upon the surface, extending a web of wonderful tenuity, and bending back two of its arms, and rowing with the rest, makes a sail, and, at length, re- ceiving the water, dives again* Plin. IX. 29. Linnaeus adds to his description of this animal, that like the Crab Diogenes, or Bernhard, it occupies a house not its own, as it is not connected to its shell, and is therefore foreign to it. Who could have given credit to this if it had not been attested by so many who have, with their own eyes, seen this argonaut in the act of sailing? Syst. Nat. p. 1161. The Nautilus, properly so named by Linnsus, has a shell, consist- ing of many chambers, of which cups are made in the East with beau- tiful painting and carving on the mother-pearl. The animal is said to inhabit only the uppermost or open chamber, which is larger than the rest; and that the rest remain empty, except that the pipe, or siphun- culus, which communicates from one to the other of them, is filled with an appendage of the animal, like a gut or sti'ing. Mr. Hook, in his Philos. Exper. p. 306, imagines this to be a dilatable or com- pressible tube, like the air bladders of fish, and that, by contracting or permitting it to expand, it renders its shell buoyant, or the con- trary. See note on Ulva, Part II. The Pinna, or Sea-wing, is contained in a two- valve shell, weighing sometimes fifteen pounds, and emits a beard of fine long glossy silk- like fibres, by which it is suspended to the rocks twenty or thirty feet beneath the surface of the sea. In this situation it is so successfully attacked by the eight-footed Polypus, that the species, perhaps, could not exist but for the exertions of the Cancer Pinnotheris, who lives in the same shell as a guard and companion. Amcen. Acad. vol. ii. p. 48. Lin. Syst. Nat. vol. i. p. 1159, and p. 1040. The Pinnotheris, or Pinnophylax, is a small crab, naked, like Ber- nard the Hermit, hut is furnished with good eyes, and lives in the same shell with the Pinna : when they want food the Pinna opens it shell, and sends its faithful ally to forage; but if the Cancer sees the Polypus, he returns suddenly to the arms of his blind hostess, who, by Note 27. SHELL FISH. 22i closing the shell, avoids the fury of her enemy ; otherwise, when it has procured a booty, it brings it to the opening of the shell, where it is admitted, and they divide the prey. This was observed by Has- lequist, in his voyage to Palestine. The Byssus of the ancients, according to Aristotle, was the beard of the Pinna above-mentioned, but seems to have been used by other writers indiscriminately for any spun material, which was esteemed finer or more valuable than wool. Reaumur says the threads of this Byssus are not less fine or less beautiful than the silk, as it is spun by the silk- worm ; the Pinna on the coast of Italy and Provence (where it is fished up by iron-hooks fixed on long poles) is called the silk* worm of the sea. The stockings and gloves manufactured from it, are of exquisite fineness, but too warm for common wear, and are thence esteemed useful in rheumatism and gout. Diet. Raisonne, art. Pinne-marine. The warmth of the Byssus, like that of silk, is pro- hably owing to their being bad conductors of heat, as well as of elec- tricity. When these fibres are broken by violence, this animal, as well as the muscle, has the power to re-produce them like the com- mon spiders, as was observed by M. Adanson. As raw silk, and raw cobwebs, when swallowed, are liable to produce great sickness (as I am informed) it is probable, the part of muscles which sometimes disagrees with the people who eat them, may be this silky web, by which they attach themselves to stones. The large kind of Pinna contains some mother-pearl, of a reddish tinge, according to M. d'Ar- genville. The substance sold under the name of Indian-weed, and used at the bottom of fish-lines, is probably a production of this kind ; which, however, is scarcely to be distinguished by the eye from the tendons of a rat's tail, after they have been separated by putrefaction. in water, and well cleaned and rubbed ; a production which I was once shown as a great curiosity ; it had the uppermost bone of the tail adhering to it, and was said to have been used as an ornament in a lady's hair. NOTE XXVIII— STURGEON, With worm-like beard his toothless lifts array, And teach the unwieldy Sturgeon to betray. Canto III. 1. 71. THE Sturgeon, Aci/icnscr, Strurio. Lin. Syst. Nat. vol. i. p. 403, is a fish of great curiosity, as well as of great importance ; his mouth is placed under the head, without teeth, like the opening of a purse* 222 BOTANIC GARDEN. Part I. which he has the power to push suddenly out, or retract. Before this mouth, under the beak, or nose, hang four tendrils, some inches 'ong, and which so resemble earth-worms, that at first sight they may be mistaken for them. This clumsy toothless fish is supposed by this contrivance, to keep himself in good condition, the solidity of his flesh evidently showing him to be a fish of prey. He is said to hide his large body amongst the weeds near the sea coast, or at the mouths of large rivers, only exposing his cirrhi, or tendrils, which snvdl fish, or sea insects, mistaking for real worms, approach for plunder, and are sucked into the jaws of their enemy. He has been supposed by some to root into the soil at the bottom of the sea or rivers ; but the cirrhi, or tendrils above mentioned, which hang from his snout over his mouth, must themselves be very inconvenient for this purpose, and, as it has no jaws, it evidently lives by suction, and during its residence in the sea, a quantity of sea-insects are found in its stomach. The flesh was so valued in the time of the Emperor Severus, that it was brought to table by servants with coronets on their heads, and preceded by music, which might give rise to its being, in our country, presented by the Lord Mayor to the King. At present it is caught in the Danube, and the Wolga, the Don, and other large rivers, for various purposes. The skin makes the best covering for carriages ; isinglass is prepared from parts of the skin ; cavear from the spawn ; and the flesh is pickled, or salted, and sent all over Europe. NOTE XXIX.— OIL ON WATER. Or with fine JUms, suspended o'er (he deep, Of oil effusive lull (he ivaves (o sleep. Canto III. 1. S/. THERE is reason to believe, that when oil is poured upon watei , the two surfaces do not touch each other, but that the oil is suspended over the water by their mutual repulsion. This seems to be rendered probable by the following experiment : If one drop of oil be dropped on a bason of water, it will immediately diffuse itself over the whole, for there being no friction between the two surfaces, there is nothing to prevent its spreading itself by the gravity of the upper part of it, except its own tenacity, into a pellicle of the greatest tenuity. But if a second drop of oil be put upon the former, it does not spread itself, but remains in the form of a drop, as the other already occu Note 29. OIL ON WATER. 223 pied the whole surface of the bason ; and there is friction in oil pas- sing over oil, though none in oil passing over water. Hence, when oil is diffused on the surface of water, gentle breezes have no influence in raising waves upon it ; for a small quantity of oil ■will cover a very great surface of water (I suppose a spoonful will diffuse itself over some acres), and the wind blowing upon this, carries it gradually forwards, and there being no friction between the two surfaces, the water is not affected. On which account oil has no effect in stilling the agitation of the water after the wind ceases, as was found by the experiments of Dr. Franklin. This circumstance, lately brought into notice by Dr. Franklin, had been mentioned bv Pliny, and is said to be in use by the divers for pearls, who, in windy weather, take down with them a little oil in their mouths, which they occasionally give out, when the inequality of the supernatant waves prevents them from seeing sufficiently distinctly for their purpose. The wonderful tenuity with which oil can be spread upon water, is evinced by a few drops projected from a bridge, where the eye is properly placed over it, passing through all the prismatic colours as it diffuses itself. And also from another curious experiment of Dr. Franklin's: he cut a piece of cork to about the size of a letter-wafer, leaving a point standing off like a tangent, at one edge of the circle. This piece of cork was then dipped in oil, and thrown into a large pond of water, and as the oil flowed off at the point, the cork-wafer continued to revolve in a contrary direction for several minutes ; the oil flowing off all that time at the pointed tangent, in coloured streams. In a small pond of water this experiment does not so well succeed, as the circulation of the cork stops as soon as the water becomes covered with the pellicle of oil. See Additional Notes, No. XIII. and note on Fucus, Part II. The ease with which oil' and water slide over each other, is agree- ably seen if a phial be about half filled with equal parts of oil and water, and made to oscillate, suspended by a string ; the upper sur- face of the oil, and the lower one of the writer will always keep smooth : but the agitation of the surfaces where the oil and water meet, is curious ; for their specific gravities being not very different, and their friction on each other nothing, the highest side of the water, as the phial descends in its oscillation, having acquired a greater mn« mentum than the lowest side (from its having descended further) would rise the highest on the ascending side of the oscillation, and. '.hence pushes the then uppermost part of the water amongst the oil* ROTANIC GARDEN. Part I. NOTE XXX.— SHIP-WORM. Met ' fell Teredo, as he mines the keel With beaked head, and break his li/is of steel. Canto III. 1. 91. THE Teredo, or ship-worm, has two calcareous jaws, hemisphe- rical, flat before and angular behind. The shell is taper, winding, penetrating ships and submarine wood, and was brought from India into Europe. Linnxi System. Nat. p. 1267. The Tarieres, or sea- worms, attack and erode ships with such fury, and in such numbers, as often greatly to endanger them. It is said that our vessels have not known this new enemy above fifty years ; that they were brought from the sea about the Antilles, to our parts of the ocean, where they have increased prodigiously. They bore their passage in the direction of the fibres of the wood, which is their nourishment, and cannot return or pass obliquely, and thence, when they come to a knot in the wood, or when two of them meet together, with their stony mouths, they perish for want of food. In the year 1731 and 1732, the United Provinces were under a dread- ful alarm concerning these insects, which had made great depreda- tion on the piles which support the banks of Zealand; but it was happily discovered a few years afterwards, that these insects had totally abandoned that island (Diet. Raisonne, art. Vers Rongeurs), which might have been occasioned by their not being able to live in that latitude when the winter was rather severer than usual. NOTE XXXI.— MAELSTROM. Turn the broad helm, the fluttering- canvas urge Fran Maelstrom's fierce innavigable surge. Canto III. 1. 93. ON the coast of Norway there is an extensive vortex, or eddy, which lies between the islands of Moskoe and Moskenas, and is called Moskoestrom, or Maelstrom; it occupies some leagues in circiUBn ierencc, and is said to be very dangerous, and often destructive to vessels navigating these seas. It is not easy to understand the exist- ence of a constant descending stream, without supposing it must piss through a subterranean cavity, to some other part of the earth or ocean which may lit beneath its level ; as the Mediterrane Note 31. MAELSTROM. 2H5 to lie beneath the level of the Atlantic ocean, which, therefore, con- stantly flows into it through the Straits ; and the waters of the Gulf of Mexico lie much above the level of the sea about the Floridas, and farther northward, which gives rise to the Gulf-stream, as described in note on Cassia, in Part II. The Maelstrom is said to be still twice in about twenty-four hours, when the tide is up, and most violent at the opposite times of the day. This is not difficult to account for, since, when so much water is brought over the subterraneous passage, if such exists, as completely to fill it, and stand many feet above it, less disturbance must appear on the surface. The Maelstrom is described in the Memoirs of the Swedish Academy of Sciences, and Pontopiddon's History of Norway, and in the Universal Museum for 1763, p. 131. The reason why eddies of water become hollow in the middle is, because the water immediately over the centre of the well, or cavity, falls faster, having less friction to oppose its descent than the water over the circumference or edges of the well. The circular motion, or gyration of eddies, depends on the obliquity of the course of the: stream, or to the friction or opposition to it being greater on one side of the well than the other. I have observed in water passing through a hole in the bottom of a trough, which was always kept full, the gyration of the stream might be turned either way by increasing the opposition of one side of the eddy with one's finger, or by turning the spout, through which the water was introduced, a little more obliquely to the hole on one side or on the other. Lighter bodies are liable to be retained long in eddies of water; while those rather' heavier than water, are soon thrown out beyond the circumference, by their acquired momentum becoming greater than that of the wa- ter. Thus, if equal portions of oil and water be put into a phial, and, by means of a string, be whirled in a circle round the hand, the water will always keep at the greater distance from the centre ; whence, in the eddies formed in rivers during a flood, a person who endeavours to keep above water, or to swim, is liable to be detained in them, but on suffering himself to sink, or dive, he is said readily to escape. This circulation of water, in descending through a hole in a vessel, Dr. Franklin has ingeniously applied to the explanation oJ hurricanes, or eddies of air. Q26 BOTANIC GARDEA. NOTE XXXII— GLACIERS. Where round dark cragx indignant Waters bend Through rifted ice, in ivory veins descend. Canto III. 1. 115. THE common heat of the interior parts of the earth being ifoaj i AS degrees, both in winter and summer, the snow which lies in con- tact with it is always in a thawing state. Hence, in ice-houses, the external parts of the collection of ice is perpetually thawing, and thus preserves the intern d part of it, so that it is necessary to lay up many tons for the preservation of one ton. Hence, in Italy, considerable rivers have their source from beneath the eternal glaciers, or moun- tains of snow and ice. In our country, when the air, in the course of a frost, continues a day or two at very near 32 degrees, the common heat of the earth thaws the ice on its surface, -while the thermometer remains at the •freezing point. • This circumstance is often observable in the rimy mornings of spring; the thermometer shall continue at the freezing p^int, yet all the rime will vanish, excipl that which happens to lie on a bridge, a board, or on a cake of cow-dung, which, being thus, as it were, insulated or cut off from so free a communication with the common heat of the earth, by means of the air under the bridge, or wood, or dung, which arc bad conductors of heat, continues some time longer unthawed. Hence, when the gr< und is covered thick, with snow, though the frost continues, and the sun does not shine, yet the snow is observed to decrease very sensibly : for the common heat of the earth melts the under surface of it, and the upper one evaporates by its solution in the air. The great evaporation of ice was observed by Mr. Boyle, which experiment I repeated some time ago. Having suspended apiece of ice by a wire, and weighed it with care, without touching it wiih my hand, I hung it out the whole of a clear frosty nighfc, and found in the morning it had lost nearly a fifth of its weight. Mr. N. Walierhis has since observed, that ice, at the time of its con~ gelation, evaporates faster than water in its fluid form ; which may be accounted for from the heat given out at the instant of freezing; (Saussure's Essais sur Hygromet. p. 2 19.) but this effect is only momentary. Thus the vegetables that are covered with snow arc seldom injured; since, as they lie between the thawing snow, which has S2 degrees of heat, and the covered earth, which has 48, they are preserved in a degree of heat between these, viz. in -10 degrees of heat. Whence the moss on which the rein-deer iced, in the northern latitudes, vege- Note 35. WINDS. 32? tates beneath the snow ; (see note on Muschus, Part IT.) and hence many Lapland and Alpine plants perished through cold in the botanic garden at Upsal ; for, in their native situations, though the cold is much more intense, yet at its very commencement they are covered deep with snow, which remains till late in the spring. For this fact see Amaenit. Academ. vol. i. No. 48. In our climate such plants do well covered with dried fem, under which they will grow, and even flower, till the severe vernal frosts cease. For the increase of glaciers see note on Canto I. 1. 529. NOTE XXXIII WINDS. JVhile southern Gales o'er western oceans roll, jind Eurus steals his ice-ivindsfrom the Pole. Canto IV. 1. 15. THE theory of the winds is yet very imperfect, in part, perhaps, •owing to the want of observations sufficiently numerous of the exact times and places where they begin and cease to blow, but chiefly to our yet imperfect knowledge of the means by which great regions of air are either suddenly produced or suddenly destroyed. The air is perpetually subject to increase or diminution, from its combination with other bodies, or its evolution from them. The vita] part of the air, called oxygene, is continually produced in this cli- mate, from the perspiration of vegetables in the sunshine, and pro- bably from the action of light on clouds, or on water, in the tropical climates, where the sun has greater power, and may exert some yet unknown laws of luminous combination. Another part of the atmos- phere, which is called azote, is perpetually set at liberty from animal and vegetable bodies by putrefaction or combustion, from many springs of water, from volatile alkali, and probably from fixed alkali, of which there is an exhaustless source in the water of the ocean. Both these component parts of the air are perpetually again diminished by their contact with the soil, which covers the surface of the earth, producing nitre. The oxygene is diminished in the production of all acids, of which the carbonic and muriatic exist in great abundance. The azote is diminished in the growth of animal bodies, of which it constitutes an important part, and in its combinations with many other natural productions. They are both probably diminished, in immense quantities, by uniting with the inflammable air, which arises from the mud of rivers and lakes at some seasons^ when the atmosphere is light j the oxygene S28 BOTANIC GARDEN. Part I. of the air producing water, and the azote producing volatile alkali, Ly their combinations with this inflammable air. At other seasons oi the year these principles may again change their combinations, and the atmospheric air be repi-oduced. Mr. L i.i i aer found that one pound of charcoal, in burning, con- sumed two pounds nine ounces of vital air, or oxygene. The con- sumption of vital air, in the process of making red-lead, may readily be reduced to calculation ; a small barrel contains about twelve hun- dred weight of this commodity; 1200 pounds of lead, by calcination, absorb about 144 pounds of vital air : now, as a cubic foot of water weighs 1000 averdupoise ounces, and as vital air is about 800 times lighter than water, it follows, that every barrel of red-lead contains nearly 2000 cubic feet of vital air. If this can be performed in mini- ature in a small oven, what may not be done in the immense elabo- ratories of nature ! These great elaboratories of nature include almost all her fossil, as well as her animal and vegetable productions. Dr. Priestley obtained air of greater or less purity, both vital and azotic, from almost all the fossil substances he subjected to experiment. Four ounce-weight of lava, from Iceland, heated in an earthen retort, yielded twenty ounce- measures of air. 4 ounce- '7 . . . weight of lava ga ve 20 ounce-measures of air. . 40 li . . . 1 . . . . 7 . . . 4 . . . . . 230 4 . . . . clay lime-stone spar . . 20 4 . . . 5 . . . . . . S30 . 630 -t 4 . . . 410 molybdena . . . , o . 40 4 . . . barytes black wad . . 26 coal .700 In this account the fixed air was previously extracted from tlit time- stones by acids, and the heat applied was much less thj Note 83. WINDS. S3U necessary to extract all the air from the bodies employed. Add to this the known quantities of air which are combined with the calci- form ores, as the ochres of iron, manganese, calamy, grey ore of lead, and some idea may be formed of the great production of air in volcanic eruptions, as mentioned in note on Chunda, Part II. and of the perpetual absorptions and evolutions of whole oceans of air from, every part of the earth. But there would seem to be an officina aeris, a shop where air is both manufactured and destroyed in the greatest abundance within. the polar circles, as will hereafter be spoken of. Can this be effected by some yet unknown law of the congelation of aqueous or saline. fluids, which may set at liberty their combined heat, and convert a part both of the acid and alkali of sea-water into their component airs ? Or, on the contrary, can the electricity of the northern lights. convert inflammable air and oxygene into water, whilst the great degree of cold at the poles unites the azote with some other base ? Another officina aeris, or manufacture of air, would seem to exist within the tropics, or at the line, though in a much less quantity than at the poles, owing, perhaps, to the action of the sun's light on the moisture suspended in the air, as will also be spoken of hereafter ; but in all other parts of the earth these absorptions and evolutions of air, in a greater or less degree, are perpetually going on in incon- ceivable abundance ; increased, probably, and diminished, at differ-. ent seasons of the year, by the approach or retrocession of the sun's light : future discoveries must elucidate this part of the subject. T© this should be added, that as heat and electricity, and perhaps mag- netism, are known to displace air, that it is not impossible but that the increased or diminished quantities of these fluids diffused in the atmosphere, may increase its weight as well as its bulk ; since their specific attractions, or affinities to matter, are very strong, they probably also possess general gravitation to the earth ; a subject which wants further investigation. See note XXVI. SOUTH-WEST WINDS. The velocity of the surface of the earth, in moving round its axis, diminishes from the equator to the poles. Whence, if a region of air, in this country, should be suddenly removed a few degrees to- wards the north, it must constitute a western wind, because, from the velocity it had pi'eviously acquired in this climate, by its friction with the earth, it would, for a time, move quicker than the sur- face of the country it was removed to. The contrary must ensue when a region of air is transported from this country a few degrees !, because the velocity it had acquired in this climate would 230 BOTANIC GARDEN. Part f. be less than that of the earth's surface where it was renv whence it would appear to constitute a wind from the east, while, in reality, the eminent parts of the earth would be carried against the too slow air. Iiut if this transportation of air from south to north be performed gradually, the motion of the wind will blow in the diagonal between south and west. And, on the contrary, if a region of air be gradually removed from north to south, it would also blow diago- nally between the north and east ; from whence \se may safely con- clude, that all our winds in this country which blow from the north or east, or any point between them, consist of regions of air brought from the north ; and that all our winds blowing from the south or west, or from any point between them, are regions of air brought from the south. It frequently happens, during the vernal months, that after a north- east wind has passed over us for several weeks, during which time the barometer has stood at above 30k inches, it becomes suddenly suc- ceeded by a south-west wind, which also continues several weeks, and the barometer sinks to nearly 28 \ inches. Now, as two inches of the mercury in the barometer balance one-fifteenth part of the whole at- mosphere, an important question here presents itself: What is be- come of all this air ? 1. This great quantity of air cannot be carried in a superior current towards the line, while the inferior current flows towards the poles, because then it would equally affect the barometer, which should not, therefore, subside from 30§ inches to 28i, for six weeks together. 2. It cannot be owing to the air having lost all the moisture which was previously dissolved in it, because these warm south-west winds are replete with moisture ; and the cold north-east winds, which weigh up the mercury in the barometer to 31 inches, consist of dry- air. 3. It cannot be carried over the polar regions, and be accumulated on the meridian opposite to us, in its passage towards the line, as such an accumulation would equal one-fifteenth of the whole atmosphere, and cannot be supposed to remain in that situation for six weeks to- gether. 4. It cannot depend on the existence of tides in the atmosphere, since it must then correspond to lunar periods. Nor on accumulations of air from the specific levity of the upper regions of the atmosphere, since its degree of fluidity must correspond with its tenuity, and con- sequently such great mountains of air cannot be supposed to exist for so many weeks together as the south-west winds sometimes continue. 5. It remains, therefore, that there must be, at this time, a great and sudden absorption of air in the polar circle, by some unknown operation ■' that the south wind runs in to supply the de» KotE 33. Winds. «si ficicncy. Now, as this south wind consists of air brought from a part of the earth's surf ice which moves faster than it does in this climate, it must have, at the same time, a direction from the west, by retain- ing part of the velocity it had previously acquired. These south-west winds, coming from a warmer country, and becoming colder by their contact with the earth of this climate, and by their expansion (so great a part of the superincumbent atmosphere having vanished) pre- cipitate their moisture ; and as they continue for several weeks to be absorbed in the polar circle, would seem to receive a perpetual sup- ply from the tropical regions, especially over the line, as will here- after be spoken of. It may sometimes happen that a north-east wind, having passed over us, may be bent down, and driven back, before it has acquired any heat from the climate; and may thus, for a few hours, or a day, have a south-west direction ; and from its descending from a higher region of the atmosphere, may possess a greater degree of cold than an inferior north-east current of air. The extreme cold of January 13, 1709, at Paris, came on with a gentle south wind, and was diminished when the wind changed to the north, which is accounted for by Mr. Homberg, from a reflux of air which had been flowing for some time from the north. Chemical Es- says by R. Watson, vol. v. p. 182. It may happen that a north-east current may, for a day or two, pass over us, and produce incessant rain, by mixing with the inferior south-west current ; but this, as well as the former, is of short dura- tion, as its friction will soon carry the inferior current along with it 3 and dry or frosty weather will then succeed. NORTH-EAST WINDS. The north-east winds of this country consist of regions of air from the north, travelling sometimes at the rate of about a mile in two minutes, during the vernal months, for several weeks together, from the polar regions toward the south, the mercury in the barometer standing above 30. These winds consist of air greatly cooled by the evaporation of the ice and snow over which it passes, and, as they become warmer by their contact with the earth of this climate, are capable of dissolving more moisture as they pass along, and are thence attended with frosts in winter, and with dry hot weather in summer. 1. This great quantity of air cannot be supplied by superior cur- rents passing in a contrary direction from south to north, because such currents must, as they arise into the atmosphere a mile or two- high, become exposed to so great cold as to occasion them to deposit their moisture, which would fall through the inferior current upop the earth in some part of their passage. Part L 2 I BOTANIC GARDEN. Part I. 2. The whole atmosphere must have increased in quantity, because it appears by the barometer that there exists one-fifteenth part bmtc air over us for many weeks together, which could not be thus accu- mulated by difference of temperature in respect to heat, or by any aerostatic laws at present known, or by any lunar influence. From whence it would appear that immense masses of air were set at liberty from their combinations with solid bodies, along with a suf- ficient quantity of combined heat, within the polar circle, or in some region to the north of us ; and that they thus perpetually increase the quantity of the atmosphere ; and that this is again, at certain times, re-absorbed, or enters into new combinations at the line or tropical regions. By which wonderful contrivance the atmosphere is perpetu- ally renewed, and rendered fit for the support of animal and vegeta- ble life* SOUTH-EAST WINDS. The south-east winds of this country consist of air from the north, which had passed by us, or over us, and before it had obtained the velocity of the tarth's surface in this climate, had been driven back, owing to a deficiency of air now commencing at the polar regions. Hence these are generally dry or freezing winds, and if they succeed north-east winds, should prognosticate a change of wind from north- east to south-west : the barometer is generally about 30. They are sometimes attended with cloudy weather, or rain, owing to their having acquired an increased degree of warmth and moisture before they became retrograde ; or to their being mixed with air from the south. 2. Sometimes these south-east winds consist of a vertical eddy of north-east air, without any mixture of south-west air ; in that case the barometer continues above 30, and the weather is dry or frosty for four or five days together. It should here be observed, that air being an elastic fluid, must be more liable to eddies than water, and that these eddies must extend into Cylinders-, or vortexes, of greater diameter, and that if a vertical eddy of north-east air be of small diameter, or has passed but a little way to the south of us before its return, it will not have gained the velocity of the earth's surface to the south of us, and will, in conse- quence, become a south-cast wind. But if the vertical eddy be of large diameter, or has passed much to the south of us, it will have acquired velocity from its friction with the earth's surface to the south of us, and will, in consequence, on its return, become a south-west wind, producing great cold. Note 83, WINDS. NORTH-WEST WINDS, There seem to be three sources of the north-west -winds of this hemisphere of the earth. 1. When a portion of southern air, which was passing over us, is driven back by accumulation of new air in the polar regions. In this case I suppose they are generally moist or rainy winds, with the barometer under 30; and if the wind had pre- viously been in the south-west, it would seem to prognosticate a change to the north-east. 2. If a current of north wind is passing over us but a few miles high, without any easterly direction, and is bent down upon us, it must immediately possess a westerly direction, because it will now move faster than the surface of the earth where it arrives ; and thus becomes changed from a north-east to a north-west wind. The de- scent of a north-east current of air producing a north-west wind, may continue some days with clear or freezing weather, as it may be simply owing to a vertical eddy of north-east air, as will be spoken of below* Tt may otherwise be forced down by a current of south-west wind passing over it ; and in this case it will be attended with rain for a few days, by the mixture of the two airs of different degrees of heat ; and will prognosticate a change of wind from north-east to south-west, if the wind was previously in the north-east quarter. 3. On the eastern coast of North-America the north-west winds bring frost, as the north-east winds do in this country, as appears from variety of testimony. This seems to happen from a vertical spiral eddy made in the atmosphere, between the shore and the ridge of mountains which form the spine, or back-bone, of that continent. If a current of water runs along the hypothenuse of a triangle, an eddy will be made in the included angle, which will turn round like a water-wheel, as the stream passes in contact with one edge of it. The same must happen when a sheet of air, flowing along from the north- cast, rises from the shore, in a straight line, to the summit of the Apalachian mountains ; a part of the stream of north-east air will flow over the mountains, another part will revert, and circulate spi- rally between the summit of the country and the eastern shore, con- tinuing to move toward the south, and thus be changed from a north- east to a north west wind. This vertical spiral eddy, having been in contact with the cold sum- mits of these mountains, and descending from higher parts of the at- mosphere, will lose part of its heat, and thus constitute one cause of Ihe greater coldness of the eastern sides of North-America than of the European shores opposite to them, which is said to be equal to ■.-"•ch-e degrees of north latitude, which is a wonderful fact, nor ether- *ii BOTANIC GARDEN. Part 1. wise easy to be explained, since the heat of the springs at Philadelphia is said to be 32, which is greater than the medium heat of the earth in this country. The existence of vertical eddies, or great cylinders of air rolling on the surface of the earth, is agreeable to the observations of the con- structors of wind-mills, who, on this idea, place the area of the saiis leaning backwards, inclined to the horizon, anil believe that then they have greater power than when they are placed quite perpendicularly. The same kind of rolling cylinders of water obtain in rivers, owing to the friction of the water against the earth at their bottoms, as is known by bodies having been observed to float upon their surfaces quicker than when immersed to a certain depth. These vertical ed- dies of air probably exist all over the earth's surface, but particularly at the bottom or sides of mountains, and more so, probably, in the course of the south-west than of the north-east winds, because the former fall from an eminence, as it were, on a part of the earth >vhere there is a deficiency of the quantity of air, as is shown by the jsinking of the barometer : whereas the latter are pushed or squeezed forward by an addition to the atmosphere behind them, as appears by the rising of the barometer. TRADE-WINDS. A column of heated air becomes lighter than before, and will there- fore ascend, by the pressure of the cold air which surrounds it, like a cork in water, or like heated smoke in a chimney. Now, as the sun passes twice over the equator for once over either tropic, the equator has not time to become cool ; and, on this account, it is in general hotter at the line than at the tropics ; and, therefore, the air over the line, except in some few instances hereafter to be mentioned, continues to ascend at all seasons of the year, pressed up- wards by regions of air brought from the tropics. This air, thus brought from the tropics to the equator, would con-. stitute a north wind on one side of the equator, and a south Mind on the other ; but as the surface of the earth at the equator moves quicker than the surface of the earth at the tropics, it is evident thai of air brought from either tropic to the equator, and which had pre- viously only acquired the velocity of the earth's surface at the tropics, will now move too slow for the earth's surface at the equator, and will thence appear to move in a direction contrary to the motion of the earth. Hence the trade-winds, though they consist of regions of air brought from the north on one side of the line, and from the south on the other, will appear to have the diagonal direction of north-east and south-cast winds. Kote 3G. WINDS. 235 Now, it is commonly believed that there are superior currents of air passing over these north-east and south-east currents in a contrary- direction, and which, descending near the tropics, produce vertical whirlpools of air. An important question here again presents itself: JJ'.'iaf becomes of the moisture which this heated air ought to deposit , as it cools in the upper regions of the atmosphere, in its journey to the tropics? It has been shown by Dr. Priestley and Mr. Ingcnhouz, that the green matter at the bottom of cisterns, and the fresh leaves of plants immersed in water, give out considerable quantities of vital air in the sunshine ; that is, the perspirable matter of plants (which is water much divided in its egress from their minute pores) be- comes decomposed by the sun's light, and converted into two kinds of air, tiie vital and inflammable airs. The moisture contained or dis- solved in the ascending heated air at the line must exist in great tenuity ; and, by being exposed to the great light of the sun in that climate, the water may be decomposed, and the new airs spread on the atmosphere from the line to the poles. 1. From there being no constant deposition of rains in the usual course of the trade-winds, it would appear that the water rising at the line is decomposed in its ascent. 2. From the observations of M. Bouguer, on the mountain Pin- chinca, one of the Cordeliers immediately under the line, there ap- pears to be no condensible vapour above three or four miles high. Now, though the atmosphere at that height maybe cold to a very con- siderable degi'ee, yet its total deprivation of condensible vapour would seem to show, that its water was decomposed, as there are no experi- ments to evince that any degree of cold hitherto known has been able to deprive air of its moisture ; and great abundance of snow is depo- sited from the air that flows to the polar regions, though it is exposed to no greater degrees of cold in its journey thither than probably exists at four miles height in the atmosphere at the line. 3. The hygrometer of Mr. Saussure also pointed to dryness as he ascended into rarer air ; the single hair of which it was constructed contracting from deficiency of moisture. Essais sur l'Hygromet. p. 143. From these observations it appears, either that rare and cold air requires more moisture to saturate it than dense air, or that the moisture becomes decomposed, and converted into air, as it ascends into these cold and rare regions of the atmosphere. 4. There seems some analogy between the circumstance of air be- ing produced or generated in the cold parts of the atmosphere, both, at the line and at the poles. BOTANIC GARDEN. Part L MONSOONS AND TORNADOES. 1. In the Arabian and Indian seas are winds which blow six months one way and six months the other, and are called Monsoons ; by the accidental dispositions of land and sea, it happens, that in some places the air near the tropic is supposed to become warmer when the sun is vertical over it, than at the line. The air in these places con- sequently ascends, pressed upon one side by the north -cast regions of air, and on the other side by the south-west regions of air. For as the air brought from the south has previously obtained the velocity of the earth's surface at the line, it moves faster than the earth's surface near the tropic, where it now arrives, and becomes a south-west wind, while the air from the north becomes a north east wind, as before ex- plained. These two winds do not so quietly join and ascend as the north-east and south-east winds, which meet at the line with equal •warmth and velocity, and form the trade-winds ; but as they meet in contrary directions before they ascend, and cannot be supposed accu- rately to balance each other, a rotatory motion wi.l be produced, a;.- they ascend, like water falling through a hole, and an horizontal or spiral eddy is the consequence : the&e eddies are more or le s rapid, and are called Tornadoes in their most violent state, raising water from the ocean in the west, or sand from the deserts of the east ; in less violent degrees, they only mix together the two currents of north- east and south-west air, and produce, by this means, incessant rains, as the air of the north-east acquires some of the heat from the south- west wind, as explained in note XXV. This circumstance of the eddies produced by the monsoon-winds was seen by Mr. Bruce in Abyssinia : he relates, that for many successive mornings, at the commencement of the rainy monsoon, he observed a cloud, of appa- rently small dimension, whirling round with great rapidity, and, in a few minutes, the heavens became covered with dark ciouds, with con- sequent great rains. See note on Canto III. 1. H.9. 2. But it is not only at the place where the air ascends, at the northern extremity of the rainy monsoon, and where it forms torna- does, as observed above by Mr. Bruce, but over a great tract of country, several degrees in length, in certain parts, as in the Arabian sea, a perpetual rain for several months descends, similar to what happens, for weeks together, in our own climate, in a less degree, during the south-west winds. Another important question presents Itself here: //' the climate to which th arrives ft not colder than that it comes from, why should it (/<,' •journey? If it be a c why does it come - above described can extend but a little Note 33. WINDS. 237 way, and it is not easy to conceive that a superior cold current of air can mi:: with an inferior one, and thus produce showers over ten de- grees of country, since, at about three miles high, there is perpetual frost; and what can induce these narrow and shallow currents to flow over each other so many hundred miles ? Though the earth, at the northern extremity of this monsoon may be more heated by certain circumstances of situation than at the line, yet it seems probable that the intermediate country between that and the line may continue colder than the line (as in other parts of the earth), and hence, that the air coming from the line to supply this ascent, or destruction of air, at the northern extremity of the mon- soon, will be cooled all the way in its approach, and, in consequence, deposit its water. It seems probable, that at the northern extremity of this monsoon, where the tornadoes or hurricanes exist, that the air not only ascends, but is in part converted into water, or otherwise diminished in quantity, as no account is given of the existence of any superior currents of it. As the south-west winds are always attended with a light atmos- phere, an incipient vacancy, or a great diminution of air, must have taken place to the northward of them, in all parts of the earth where- ever they exist ; and a deposition of their moisture succeeds their being cooled by the climate they arrive at, and not by a contrary cur- rent of cold air over them, since, in that case, the barometer would not sink. They may thus, in our own country, be termed monsoons without very regular periods. 3. Another cause of Tornadoes, independent of the monsoons, is ingeniously explained by Dr. Franklin : when, in the tropical coun- tries, a stratum of inferior air becomes so heated by its contact with the warm earth, that its expansion is increased more than is equiva- lent to the pressure of the stratum of air over it ; or when the supe- rior stratum becomes more condensed by cold than the inferior one by pressure, the upper region will descend, and the lower one ascend. In this situation, if one part of the atmosphere be hotter, from some fortuitous circumstances, or has less pressure over it, the lower stratum will begin to ascend at this part, and resemble water falling through a hole, as mentioned above. If the lower region of air was going forwards with considerable velocity, it will gain an eddy by rising up this hole in the incumbent heavy ah', so that the whirlpool, or tornado, has not only its progressive velocity, but its circular one alf.o, which thus lifts up or overturns every thing within its spiral whirl. By the weaker whirlwinds in this country, the trees are sometimes thrown down in a line of only twenty or forty yards in breadth, making a kind of avenue through a country. In the West- Indies the sea rises like a cone in the whirl, and is met by black clouds^ 238 BOTANIC GARDEN. Part h produced by the cMd upper air and the warm lower air being rapidly mixed ; whence are produced the great and sudden rains called water- spouts ; while the upper and lower airs exchange their plus or minui. electricity in perpetual lightnings. LAND AND SEA BREEZES. The sea, being a transparent mass, is less heated at its surface by the sun's rays than the land, and its continual change of surface con- tributes to preserve a greater uniformity in the heat of the air which hangs over it. Hence the surface of the tropical islands is more heated during the day than the sea that surrounds them, and cools more in the night, by its greater elevation ; whence, in the after- noon, when the lands of the tropical islands have been much heated by the sun, the air over them ascends, pressed upwards by the cooler air of the incircling ocean ; in the morning, again, the land becoming cooled more than the sea, the air over it descends by its increased gravity, and blows over the ocean near its shores. CONCLUSION. 1. There are various irregular winds besides those above described, which consist of horizontal or vertical eddies of air, owing to the inequality of the earth's surface, or the juxtaposition of the sea. Other irregular winds have their origin from increased evaporation of water, or its sudden devaporation and descent in showers ; others from the partial expansion and condensation of air by heat and cold ; by the accumulation or defect of electric fluid, or to the air's new production or absorption, occasioned by local causes not yet disco- vered. See notes VII. and XXV. 2. There seem to exist only two original winds : one consisting of air brought from the north, and the other from air brought from the south. The former of these winds has also generally an apparent direction from the east, and the latter from the west, arising from the different velocities of the earth's surface. All the other winds above described are deflections or retrogressions of some parts of these currents of air from the north or south. o. One fifteenth part of the atmosphere is occasionally destroyed, and occasionally reproduced, by unknown causes. These causes are brought into immediate activity over a great part of the surface of thee till, at nearly the same time, but always more powerful to the northward than to the southward of any given place, and would hence Beem v.> have their principal effect in the polar circles; existing, ne- , though with less power, toward the tropics or at the line, Note 33. WINDS. 239 For when the north-east wind blows the barometer rises, sometimes from 28$ inches to 301, which shows a great new generation of air in the north ; and when the south-west wind blows the barometer sinks as much, which shows a great destruction of air in the north. Bur as the north-east winds sometimes continue for five or six weeks, the newly generated air must be destroyed at those times in the war- mer climates to the south of us, or circulate in superior currents, which has been shown to be improbable from its not depositing its water. And as the south-west winds sometimes continue for some weeks, there must be a generation of air to the south at those times, or superior currents, which last has been shown to be improbable. 4. The north-east winds, being generated about the poles, are pushed forwards towards the tropics or line, by the pressure from be- hind, and hence they become warmer, as explained in note VII. as well as by their coming into contact with a warmer part of the earth, which contributes to make these winds greedily absorb moisture in their passage. On the contrary, the south-west winds, as the atmos- phere is suddenly diminished in the polar regions, are drawn, as it were, into an incipient vacancy, and become, therefore, expanded in their passage, and thus generate cold, as explained in note VII. and are thus induced to part with their moisture, as well as by their contact with a colder part of the earth's surface. Add to this, that the difference in the sound of the north-east and south-west winds may depend on the former being pushed forward by a pressure behind, and the latter falling, as it were into a partial or incipient vacancy before; whence the former becomes more condensed, and the latter more rarefied, as it passes. There is a whistle, termed a lark-call, which consists of a hollow cylinder of tin-plate, closed at each end about half an inch in diameter, and a quarter of an inch high, with oppo- site hole.-, about the size of a goose- quill, through the centre of each end; if this brk-whistle be held between the lips, the sound of it is manifestly different when the breath is forcibly blown through it from, within outwards, and when it is sucked from without inwards. Per- haps this might be worthy the attention of organ builders. 5. A stop is put to this new generation of air, when about a fif- teenth of the whole is produced, by its increasing pressure ; and a similar boundary is fixed to its absorption or destruction by the de- crease of atmospheric pressure. As water requires more heat to convert it into vapour under a heavy atmosphere than under a iight one, so in letting off the water from muddy fish-ponds, great quanti- ties of air-bubbles are seen to ascend from the bottom, which were previously confined there by the pressure of the water. Similar bub- bles of inflammable air are seen to arise from lakes in many seasons of the year, when the atmosphere suddenly becomes light. P/.rt I. 2 K BOTANIC GARDEN. Part I. 6. Tlie increased absorptions and evolutions of air must, like its simple expansions, depend much on the presence or absence of heat and light, and will hence, in respect to the times and places of its produc- tion and destruction, be governed by the approach or retrocession of the sun, and on the temperature, in regard to heat, of various lati- tudes, and parts of the same latitude, so well explained by Mr. Kir- wan. 7. Though the immediate cause of the destruction or re-production of great musses of air at certain times, when the wind changes from north to south, or from south to north, cannot yet be ascertained; yet, as there appears greater difficulty in accounting for this change of wind from any other known causes, we may still suspect that there exists in the arctic and antarctic circles, a Bear or Dragon, yet unknown to philosophers, which, at times, suddenly drinks up, and as suddenly, at other times, vomits out one-fifteenth part of the at- mosphere ; and hope that this or some future age will learn how to govern and domesticate a monster which might be rendered of such important service to mankind. INSTRUMENTS* If, along with the usual registers of the weather, observations were made on the winds in many parts of the earth with the three following instruments, which might be constructed at no great expense, some useful information might be acquired. 1. To mark the hour when the wind changes from north-east to south-west, and the contrary. This might be managed by making a communication from the vane of a weather-cock to a clock, in such a manner, that if the vane should revolve quite round, a tooth of its revolving axis should stop the clock, or put back a small bolt on the edge of a Avheel, revolving once in twenty-four hours. 2. To discover whether in a year more air passed from north to south, or the contrary. This might be effected by placing a \\ ind- mill-sail of copper, about nine inches diameter, in a hollow cylinder, about six inches long, open at both ends, and fixed on an eminent situation, exactly north and south. Thence only a part of the north- east and south-west currents would affect the sail so as to turn it ; and if its revolutions were counted by an adapted machinery, as the sail would turn one way with the north currents of air, and the contrary one with the south currents, the advance of the counting finger cither way would show which wind had prevailed most at the end of the year, S. To discover the rolling cylinders of air, the vane of a weather* cock might be so suspended as to dip or rise vertically, as well as to have its horizontal rotation. Note 33.. WINDS, RECAPITULATION. North-east winds consist of air flowing from the novth, where ■St seems to be occasionally produced ; has an apparent direction from the east, owing to its not having acquired in its journey the increasing velocity of the earth's surface : these winds are analogous to the trade- winds between the tropics, and frequently continue, in the vernal months, for four and six weeks together, with a high barometer, and fair or frosty weather. 2. They sometimes consist of south-west air, which had passed by us or over us, driven back by a new accumula- tion of air in the north. These continue but a day or two, and are attended with rain. See note XXV. South-west winds consist of air flowing from the south, and seeming occasionally absorbed at its arrival to the more northern lati- tudes. It has a real direction from the west, owing to its not having lost in its journey the greater velocity it had acquired from the earth's surface, from whence it came. These winds are analogous to the monsoons between the tropics, and frequently continue for four or six weeks together, with a low barometer, and rainy weather. 2. They sometimes consist of north-east air, which had passed by us or over us, which becomes retrograde by a commencing deficiency of air m the north. These winds continue but a day or two, attended with severe frost, with a sinking barometer ; their cold being increased by their expansion, as they return into an incipient vacancy. North-west winds consist, first, of south-west winds, which have passed over us, bent down, and driven back towards the south, by newly generated northern air. They continue but a day or two, and are attended with rain or clouds. 2. They consist of north-east winds bent down from the higher parts of the atmosphere, and having there acquired a greater velocity than the earth's surface, are frosty or fair. 3. They consist of north-east winds formed into a vertical spiral eddy, as on the eastern coasts of North-America, and bring severe frost. South-east winds consist, first, of north-east winds become retro- grade, continued for a day or two ; frosty or fair ; sinking barometer., 2. They consist of north-east winds formed into a vertical eddy, not a spiral one ; frost or fair. North winds consist, first, of air flowing slowly from the north, so that they acquire the velocity of the earth's surface as they ap- proach ; are fair or frosty ; seldom occur. 2. They consist of retro- grade south winds : these continue but a day or two ; are preceded by south-west winds ; and are generally succeeded by north-east winds. } cloudy or rainy ' r barometer rising. BOTANIC GARDEN. p ART J. South winds consist, first, of air flowing slowly from the south, iosing their prerit as w< sterly velocity by the friction of the earth' surface as they approach ; moist ; seldom occur. 2. They consist of retrograde north winds ; these continue but a day or two ; are pre- ceded by north-cast winds, and generally succeeded by south-west winds; colder; barometer sinking. East winds consist of air brought hastily from the north, and not impelled farther southward, owing to a sudden beginning absorp- tion of air in the northern regions; very cold; barometer high ; gene- rally succeeded by south-west winds. West wixds consist of air brought hastily from the sooth, and checked from proceeding further to the north, by a beginning pro- duction of air in the northern regions; warm and moist; generally succeeded by north-east winds. 2. They consist of air bent down from the higher regions of the atmosphere ; if this air be from the south, r.nd brought hastily, it becomes a wind of great velocity, moving perhaps 60 miles in an hour; is warm and rainy: if it consists of northern air bent down, it is of less velocity and colder. jijtfilication of the preceding Theory to some Extracts from a Journal of the Weather. Dec. 1, 1790. The barometer sunk suddenly, and the wind, which had been some days north-east, with frost, changed to south-east, with an incessant though moderate fall of snow. A part of the northern air, which had passed by us I suppose, now became retrograde before k had acquired the velocity of the earth's surface to the south of us, and being attended by some of the southern air in its journey, the moisture of the latter became condensed and frozen by its mixture with the former. Dec. 2, o. The wind changed to north-west, and thawed the snow. A part of the southern air, which had passed by us or over us, with the retrograde northern air above described, was now in its turn driven back, before it had lost the velocity of the surface of the earth to the south of us, and, consequently, became a north-west wind; and not having lost the warmth it brought from the south, produced a thaw. Dec. 4, w. Wind changed to north-east, with frost and a rising barometer.' The air from the north continuing to blow, after it had driven back the southern air as above described, became a north-east wind, having Jess velocity than the surface of the earth in this ciimate. and produced frost from its coldness. Die. f>, 7. Wind now changed to the south-west, with incessant rain and a sinkii!;^ barometer. From unknown causes, I suppose the Quantity of uir to be diminished in the polar regions, and the southern Kote 23. WINDS. 243 air cooled by the earth's surface, which was previously frozen ; de- posits its moisture for a day or two ; afterwards the wind continued south-west without rain, as the surface of the earth became warmer. March 18, 1785. There lias been a long frost ; a few days ago the barometer sunk to 29*, and the frost became more severe. Because the air being expanded, by a part of the pressure being taken off, became colder. This day the mercury rose to 30, and the frost ceased, the wind continuing as before, between north and east. March 19. Mercury above 30. weather still milder, no frost, wind north- east. March 20. The same; for the mercury rising, shows that the air becomes more compressed by the weight above, and, in conse- quence, gives cut warmth. ■Afiril 4, 5. Frost, wind north-east ; the wind changed in the mid. die of the day to the north-west, without rain, and has done so for three or four days, becoming again north-east at night. For the sun now giving greater degrees of heat, the air ascends as the sun passes the zenith, and is supplied below by the air on the western side, as well as on the eastern side of the zenith, during the hot part of the day ; whence, for a few hours, on the approach of the hot part of the day, the air acquires a westerly direction in this longitude. If the north-west wind had been caused by a retrograde motion of some southern air, which had passed over us, it would have been attended with rain or clouds. Jijtril 10. It rained all day yesterday, the wind north-west ; this morning there was a sharp frost. The evaporation of the moisture (which fell yesterday), occasioned by the continuance of the wind, produced so much cold as to freeze the dew. May 12. Frequent showers, with a current of colder wind pre- ceding every shower. The sinking of the rain or cloud pressed away the air from beneath it in its descent, which, having been for a time shaded from the sun by the floating cloud, became cooled in some degree. Jwie 20. The barometer sunk, the wind became south-west, and the whole heaven was instantly covered with clouds. A part of the incumbent atmosphere having vanished, as appeared by the sinking of the barometer, the remainder became expanded by its elasticity, and thence attracted some of the matter of heat from the vapour inter- mixed with it, and thus, in a few minutes, a total devaporation took place, as in exhausting the receiver of an air-pump. See note XXV. At the place where the air is destroyed, currents both from the north and south flow in to supply the deficiency (for it has been shown that there are no other proper winds but these two), and the mixture of these winds yroduces so sudden condensation of the moisture, both by the coldness of the northern air ajid the expansion of both cf them, 24* BOTANIC GARDEN, Part t that lightning is given out, and an incipient tornado takes place i •whence thunder is said frequently to approach against the wind. jlugust 28, 1732. Barometer was at 31, and Dec. 30, in the same year, it was at 28 2-tenths. Medical Essays, Edinburgh, vol. ii. p 7. It appears from these journals that the mercury at Edinburgh varies sometimes nearly three inches, or one-tenth of the whole atmosphere. From the journals kept by the Royal Society at London, it appears seldom to vary more than two inches, or one-fifteenth of the whole atmosphere. The quantity of the variation is said still to decrease nearer the line, and to increase in the more northern latitudes ; which much confirms the idea that there exists, at certain times, a great destruction or production of air within the polar circle. July 2, 1732. The westerly winds in the journal in the Medical Essays, vol. ii. above referred to, are frequently marked with the number three, to show their greater velocity, whereas the easterly winds seldom approach to the number two. The greater velocity of the westerly winds than the easterly ones is well known, I believe, in every climate of the world; which may be thus explained, from the theory above delivered. 1. When the air is still, the higher parts of the atmosphere move quicker than those parts which touch the earth, because they are at a greater distance from the axis of motion. 2. The part of the atmosphere where the north or south wind comes from, is higher than the part of it where it comes to ; hence the more elevated parts of the atmosphere continue to descend towards the earth as either of those winds approach. 3. When southern air is brought to us it possesses a westerly direction also, owing to the velo- city it has previously acquired from the earth's surface ; and if it con- sists of air from the higher parts of the atmosphere descending nearer the earth, this westerly velocity becomes increased. But when north- ern air is brought to us, it possesses an apparent easterly direction also, owing to the velocity which it has previously acquired from the earth's surface being less than that of the earth's surface in this lati- tude : Now, if the north-east wind consists of air descending from higher parts of the atmosphere, this deficiency of velocity will be less. in consequence of the same cause, viz. the higher parts of the atmos- phere descending, as the wind approaches, increases the real velocity of the western winds, and decreases the apparent velocity of the eastern ones. October 22. Wind changed from south-east to south-west^ There »s a popular prognostication, that if the wind changes from the north towards ihc south, passing through the east, it is more likely to con- tinue in the south than if it passes through the west, which may be anted for. If the north-east wind changes to a north-west hows either that a part of the northern air descends upon utk Note 34. VEGETABLE PERSPIRATION. 245- in a spiral eddy, or that a superior current of southern air is driven back; but if a north-east wind be changed into a south-east wind, it shows that the northern air is become retrograde, and that in a day or two, as soon as that part of it has passed which has not gained the velocity of the earth's surface in this latitude, it will become a south wind for a few hours, and then a south-west wind. On the 5th of April, 1799, the wind, which had blown for several days from the N. E. and a great part of that time was very violent, became due E. The barometer sunk nearly an inch, clouds were produced, and much snow fell during the whole day ; and on the next day the wind became again N. E. and the barometer rose again. The same circumstances exactly recurred on the Sth of April ; the wind again changed from N. E. to due E. the barometer sunk, and snow and afterwards rain were the consequence. Which is thus to be explained. On April the 5th the atmosphere became lighter, I suppose, because no more air was supplied from the arctic circle, and the snow was produced from some of the southern air over this country falling down, I suppose, on the lowered current of northern air. But why did the N. E. wind on both these days change to due E ? To this it may be answered, that as no new air was now brought from the N. and in consequence the barometer sunk ; and as air from the S. evidently became mixed with that from the N. whence the clouds and consequent snow ; the further progress of the N. E. air towards the S. was stopped by the opposing air from the S. but its easterly direction was not stopped ; and as this only remained, it became due E. This idea was further countenanced, because the wind on both days became a few points on the southerly oide of the E. for an hour or two before the snow ceased. The writer of this imperfect sketch of anemology wishes it may i ncite some person of greater leisure and ability to attend to this sub- ject, and by comparing the various meteorological journals and ob- servations already published, to construct a more accurate and methodical treatise on this interesting branch of philosophy. NOTE XXX1V.—VEGETABLE PERSPIRATION. And wed the enamour' d Oxygene to Light. Canto IV. 1. 34. WHEN points or hairs are put into spring-water, as. in the experi- ments of Sir B. Thompson, (Phil. Trans. LXXVII.) and exposed to Hzt light ot* the sun, much air, which loosely adhered to the water, •246 BOTANIC GARDEN. Part 7. rises in bubbles, as explained in the note on Fucus, Part II. A still greater quantity of air, and of a purer kind, is emitted by Dr. Priest- ley's green matter, and by vegetable leaves growing in water in sun- shine, according to Mr. Ingenhouz's experiments ; both which I sus- pect to be owing to a decomposition of the water perspired by the plant ; for the edge of a capillary tube of great tenuity may be con- sidered as a circle of points ; and as the oxygene, or principle of vital air, may be expanded into a gas by the sun's light, the hydrogene, or inflammable air, may be detained in the pores of the vegetable. Hence plants growing in the shade are white, and become green by being exposed to the sun's light; for their natural colour being blue, the addition of hydrogene adds yellow to this blue, and tarn them green. I suppose a similar circumstance takes place in animal bodies; their perspirable matter, as it escapes in the sunshine, becomes de- composed by the edges of their pores, as in vegetables, though in less quantity, as their perspiration is less, and the greatest part of it, which exhales from the lungs, n<">t being exposed to the sunshine, and thus, by the hydrogene being retained, the skin becomes tannrd yel- low. In proof of this it must be observed, that both vegetable and animal substances become bleached white by the sun-beams when they are dead, as cabbage-stalks, bones, ivory, tallow, bees-wax, linen and cotton cloth ; and hence, I suppose, the copper-coloured natives of sunny countries might become etiolated, or blanched, by being kept from their infancy in the dark, or removed, for a few generations, to more northerly climates. It is probable that on a sunny morning 1 much pure air becomes sepa- rated from the dew, by means of the points of vegetables, on which it adheres, and much inflammable air imbibed by the vegetable, or com- bined with it ; and by the sun's light thus decomposing water, the effects of it in bleaching linen seems to depend (as described in note X.) the water is decomposed by the light at the ends or points of the cotton or thread, and the vital air unites with the phlogistic or colour- ing matters of the cloth, and produces a new acid, which is either itself colourless, or washes out ; at the same time the inflammable part of the water escapes. Hence there seems a reason why cotton bleaches so much sooner than linen, viz. because its fibres are three or tour times shorter, and therefore protrude so many more points, which seem to facilitate the liberation of the vital air from the inflam- mable part of the water. ax becomes bleached by exposure to the sun and dews, in a similar manner as metals become calcined or rusty, viz. by til >:i their surface being decomposed; and hence the inflammable crfa- terial, which caused the colour, becomes united with ' iway, Kote 34. VEGETABLE PERSPIRATION. 247 Oil, close stopped in a phial not fail, and exposed long to the sun's light, becomes bleached, as, I suppose, by the decomposition of the water it contains ; the inflammab'e air rising above the surface, and the vital air uniting with the colouring matter of the oil. For it is remarkable, that by shutting up a phial of b'eached oil in a dark drawer, it, in a little time, becomes coloured again. The following experiment shows the power of light in separating vital air from another basis, viz. from azote. Mr. Scheele inverted a glass vessel, filled with colourless nitrous acid, into another g'ass, containing the same acid, and, on exposing them to the sun's light, the inverted glass became partly filled with pure air, and the acid, at the same time, became coloured. Scheele, in Crell's Annal. 1786. But if the vessel of colourless nitrous acid be quite full, and stopped, so that no space is left for the air produced to expand itself into, no change of colour takes place. Priestley's Exp. VI. p. 344. See Keir's very excellent Chemical Dictionary, p. 99, new edition. A sun-flower, three feet and a half high, according to the experi- ment of Dr. Hales, perspired two pints in one day (Vegetable Statics), which is many times as much, in proportion to its surface, as is per- spired from the surface and lungs of animal bodies : it follows, that the vital air liberated from the surfaces of plants by the sunshine, must much exceed the quantity of it absorbed by their respiration, and that hence they improve the air in which they live during the light part of the day ; and thus blanched vegetables will sooner become tanned into green by the sun's light, than etiolated animal bodies will become tanned yellow by the same means. It is hence evident, that the curious discovery of Dr. Priestley, that his green vegetable matter, and other aquatic plants, gave out vital air when the sun shone upon them, and the leaves of other plants did the same when immersed in water, as observed by Mr. Ingen= houz, refer to the perspiration of vegetables, not to their respiration. Because Dr. Priestley observed the pure air to come from both sides of the leaves, and even from the stalks of a water-flag ; whereas one side of the leaf only serves the office of lungs, and certainly not the stalks. Exper. on Air, vol. iii. And thus, in respect to the circum- stance in which plants and animals seemed the farthest removed from each other, I mean in their supposed mode of respiration, by which one was believed to purify the air which the other had injured, they seem to differ only in degree, and the analogy between them remains unbroken. Plants are said, by many writers, to grow much faster in the night than in the day, as is particularly observable in seedlings, at their rising out of the ground. This probably is a consequence of their sleep rather than of the absence of light j and in this, I suppose ; they ( also resemble animal bodies. Fart I. 2 L, ( 248 ) NOTE XXXV.— VEGETABLE PLACENTATION. While in bright veins the silvery Safi ascends. Canto IV. 1. 431. AS buds are the vivipai-ous offspring of vegetables, it becomes necessary that they should be furnished with placental vessels for their nourishment, till they acquire lungs, or leaves, for the purpose of elaborating the common juices of the earth into nutriment. These vessels exist in bulbs and in seeds, and supply the young plant with a sweet juice, till it acquires leaves, as is seen in converting barley into malt, and appears from the sweet taste of onions and potatoes when they begin to grow. The placental vessels belonging to the buds of trees are placed about the roots of most, as the vine ; so many roots are furnished with sweet or mealy matter, as fern-root, bryony, carrot, turnip, potatoe, or in the alburnum, or sap-wood, as in those trees which produce manna, which is deposited about the month of August, or in the joints of sugar-cane and grasses : early in the spring the absorbent mouths of these vessels drink up moisture from the earth, with a saccharine matter lodged for that purpose during the preceding autumn, and push this nutritive fluid up the vessels of the alburnum, to every indi- vidual bud, as is evinced by the experiments of Dr. Hales, and of Mr. Walker, in the Edinb. Philosophical Transactions. The former observed, that the sap from the stump of a vine, which he had cut off in the beginning of April, arose twent3 r -one feet high, in tubes affixed to it for that purpose ; but in a few weeks it ceased to bleed at all, and Dr. Walker marked the progress of the ascending sap, and found likewise, that as soon as the leaves became expanded, the sap ceased to rise : the ascending juice of some trees is so copious and so sweet during the sap season, that it is used to make wine, as the birch) betula, and sycamore, acer pseudo-platanus, and particularly the palm, and maple acer. During this ascent of the sap-juice, each individual leaf-bud expands its new leaves, and shoots down new roots, covering, by their inUr- texture, the old bark with a new one; and as soon as these new roots (or bark) arc capable of absorbing sufficient juices from the earth for the support of each bud, and the new leaves are capable of perform- ing their office of exposing these juices to the influence of the air, the placental vessels cease to act, coalesce, and are transformed from sap-wood, or alburnum, into inert wood, serving only for the support of the new tree, which grows over them. Thus, from the pith of the new bud of the horse-chesnut five vessels Note 35. VEGETABLE PLACENTATION, -249 pass out through the circle of the placental vessels above described, and carry with them a minuter circle of those vessels ; these five bun- dles of vessels unite after their exit, and form the foot-stalk or petiole of the new five-fingered leaf, to be spoken of hereafter. This struc- ture is well seen by cutting off a leaf of the horse-chesnut (iEsculus Hippocastanum) in September, before it falls, as the buds of this tree are so large that the flower may be seen in them with the naked eye. After a time, perhaps about midsummer, another bundle of vessels passes from the pith through the alburnum, or sap-vessels, in the bosom of each leaf, and unites, by the new bark, with the leaf, which becomes either a flower-bud or a leaf-bud, to be expanded in the ensu- ing spring ; for which purpose an apparatus of placental vessels are produced, with proper nutriment, during the progress of the summer and autumn ; and thus the vegetable becomes annually increased, ten thousand buds often existing on one tree, according to the estimate of Linnrous. Phil. Bot. The vascular connection of vegetable buds with the leaves in whose bosoms they are formed, is confirmed by the following experiment. (Oct. 20, 1781.) On the extremity of a young bud of the Mimosa (sensitive plant) a small drop of acid of vitriol was put, by means of a pen, and, after a few seconds, the leaf in whose axilla it dwelt closed, and opened no more, though the drop of vitriolic acid was so small as apparently only to injure the summit of the bud. Does not this seem to show that the leaf and its bud have connecting vessels, though they arise at different times, and from different parts of the medulla, or pith ? And, as it exists previously to it, that the leaf is the parent of the bud ? Or did the acid destroy both the parent bud and its fcetus ? This placentation of vegetable buds is clearly evinced from the sweetness of the rising sap, and from its ceasing to rise as soon as the leaves are expanded, and thus completes the analogy between buds and bulbs. Nor need we wonder at the length of the umbilical cords, of buds, since that must correspond with their situation on the tree, in the same manner as their lymphatics and arteries are proportionally elongated. Since the above was first printed, I have thought that these sap- vessels, which bleed so much on being wounded in the vernal months, ought rather to be called umbilical than placental vessels ; as they supply the young bud with nutrition ; whereas the placenta of the animal foetus is a respiratory organ, as shown in Zoonomia, vol. i. sect. 38. .50 ) NOTE XXXVI.— VEGETABLE CIRCULATION And refluent blood in milky eddies bends. Canto IV. 1. 432. THE individuality of vegetable buds was spoken of before, and is confirmed by tbe method of raising all kinds of trees, by Mr. Barnes- (Method of propagating Fruit Trees. 1759. Lond. Baldwin.) He cut a branch into as many piece- as there were buds or leaves upon it, and wiping the two wounded ends dry. he quickly applied to each a cement, previously warmed a little, which consisted principally of pitch, and planted them in the earth. The use of this cement 1 sup- pose to consist in its preventing the bud from bleeding to death, though the author ascribes it to its antiseptic quality. These buds of plants, which are thus each an individual vegetable, in many circumstances resemble individual animals; but as animal bodies are detached from the earth, and move from place to place in search of food and take that \'nn(\ at considerable intervals of time, and prepare it for their nourishment within their own bodies after it is taken, it is evident (hey must require many organs and powers which are not necessary to a stationary bud. As vegetables are immoveably fixed to the soil from whence they draw their nourishment ready pre- pared, and this uniformly, not at returning intervals, it follows, that in examining their anatome, we are not to look for muscles of locomo* tion, as arms and legs ; nor for organs to receive and prepare their nourishment, as a stomach and bowels ; nor for a reservoir for it after it is prepared, as a general system of veins, which, in locomotive animals, contains and returns the superfluous blood which is left after the various organs of secretion have been supplied, by which contri- vance they are enabled to live a long time without new supplies of food. The parts which we may expect to find in the anatome of vegetables, correspondent to those in the animal economy, are, 1. A system ui absorbent vessels, to imbibe the moisture of the earth similar to the lacteal vessels, as in the roots of plants ; and another system of ab- sorbents, similar to the lymphatics of animal bodies, opening its mouths on the internal cells and external surfaces of vegetables; and a third system of absorbent vessels, correspondent with those of the placentalion of the animal foetus. 2. A pulmonary system, pondent to the lungs or gills of quadrupeds and lish, by which the fluid absorbed by the lacteals and lymphatics may be exposed to the influ- ence of the air ; this is done by the green leaves of plants, those in the JUT resembling lungs, ard those in the water resembling gills ; and by Bote 56. VEGETABLE CIRCULATION. 25} the pet:ils of flowers. 3. Arterial systems to convey the fluid thus elaborated to the various glands of the vegetable, for the purposes of its growth, nutrition, and various secretions. 4. The various glands which separate from the vegetable blood the honey, wax, gum, resin, starch, sugar, essential oil, Sec. 5. The organs adapted for their propagation or reproduction. 6. Muscles to perform several motions ©f their parts. I. The existence of that branch of the absorbent vessels of vegeta- bles which resembles the lacteals of animal bodies, and imbibes their nutriment from the moist earth, is evinced by their growth so long as moisture is applied to their roots, and their quickly withering when it is withdrawn. Besides these absorbents in the roots of plants there are others, ■which open their mouths on the external surfaces of the bark and leaves, and on the internal surfaces of all the cells, and between the bark and the alburnum, or sap-wood; the existence of these is shown, because a leaf plucked off, and laid with its under side on water, will not ■wither so soon as if left in the dry air, — the same if the bark alone of a branch which is separated from a tree be kept moist with water,— and, lastly, bv moistening the alburnum or sap-wood alone of a branch detached from a tree, it will not so soon wither as if left in the dry- air. By the following experiment these vessels were agreeably visible by a common magnifying glass : I placed, in the summer of 1781, the foot-stalks of some large fig-leaves, about an inch deep, in a decoction of madder (rubia tinctorum) and others in a decoction of logwood (hsematoxylum campechense), along with some sprigs cut off from a plant of picris ; these plants were chosen because their blood is white ; after some hours, and on the next day, on taking out either of these, and cutting off from its bottom about a quarter of an inch of the stalk, an internal circle of red points appeared, which were the ends of ab- sorbent vessels, coloured red with the decoction, while an external ring of arteries was seen to bleed out hastily a milky juice, and, at once, evinced both the absorbent and arterial system. These absor- bent vesse's have been called by Grew, and Malpighi, and some other philosophers, bronchi, and erroneously supposed to be air-vessels. It is probable that these vessels, when cut through, may effuse their fluids, and receive air, their sides being too stiff to collapse ; since dry wood emits air-bubbles in the exhausted receiver in the same manner as moist wood. The structure of these vegetable absorbents consists of a spiral line, and not of a vessel interrupted with valves like the animal lymphatics, since on breaking almost any tender leaf, and drawing out some of the fibres, which adhere longest, this spiral structure becomes visible, 25i: BOTANIC GARDEN. Part I. even to the naked eye, and distinctly so by the use of a common lens. See Grew, plate 51. In such a structure it is easy to conceive how a vermicular or peris- taltic motion of the vessel, beginning at the lowest part of it, each spiral ring successively contracting itself till it fiUs up the tube, must forcibly push forwards its contents, as from the roots of vines in the bleeding season ; and if this vermicular motion should begin at the upper end of the vessel, it is as easy to see how it must carry its con- tained fluid in a contrary direction. The retrograde motion of the vegetable absorbent vessels is shown, by cutting a forked branch from a tree, and immersing a part of one of the forks in water, which will, for many days, prevent the other from withering ; or, it is shown by planting a willow branch with the wrong end upwards. This struc- ture, in some degree, obtains in the oesophagus, or throat of cows, who, by similar means, convey their food first downwards, and af- terward upwards, by a retrograde motion of the annular muscles, or cartilages, for the purpose of a second mastication of it. II. The fluids thus drank up by the vegetable absorbent vessels from the earth, or from the atmosphere, or from their own cells and inter- stices, are carried to the foot-stalk of every leaf, where the absorbents belonging to each leaf unite into branches, forming so many pulmo- nary arteries, and are thence dispersed to the extremities of the leaf, as may be seen in cutting away, slice after slice, the foot-stalk of a horse-chesnut in September, before the leaf falls. There is then a complete circulation in the leaf; a pulmonary vein receiving the biood from the extremities of each artery, on the upper side of the leaf, and joining again in the foot-stalk of the leaf, these veins produce so many arteries or aortas, which disperse the new blood over the new bark, elongating its vessels, or producing its secretions ; but as a reservoir of blood could not be wanted by a vegetable bud which takes in its nu- triment at all times, I imagine there is no venous system, no veins, properly so called, which receive the blood which was to spare, and return it into the pulmonary or arterial system. The want of a system of veins was countenanced by the following experiment: I cut off several stems of tall spurge (Euphorbia helios- oopia) in autumn, about the centre of the plant, and observed tenfold the quantity of milky juice ooze from the upper than from the lower extremity, which could hardly have happened if there had been a venous system of vessels to return the blood from the roots to the leaves. Thus the vegetable circulation, complete in the lungs, but, probably in the other part of the system deficient, in respect to a system of returning veins, is carried forwards without a heart, like the circuLiT Note 36. VEGETABLE CIRCULATION. 253 tion through the livers of animals, where the blood brought from the intestines and mesentery by one vein is dispersed through the liver by the vena portarum, which assumes the office of an artery. See note XXXVII. At the same time so minute are the vessels in the intertexture of the barks of plants, which belong to each individual bud, that a gene- ral circulation may possibly exist, though we have not yet been able to discover the venous part of it. Since the above opinion was first published, I have again attended to this subject, and now think that the greater discharge of the milky blood from the upper part of the plant, than from the lower part, might be rationally ascribed to the descending arteries of the stem bleeding more rapidly and more copiously than the ascending veins. And yesterday, September 28, 1798, a cupful of decoction of madder, rubia tinctorum, was carried into the garden, and placed near a plant of tragopogon latifolium, or scorzonera, which was then in flower; a large stem of the plant was then cut asunder, and the growing end was bent down and immersed an inch or two in the coloured decoction, along with the lower end of the top, or part cut ofF. After about a minute they were taken out and inspected by a common lens, when an internal circle of red points was visible in both of them, with an external circle of vessels, which continued to effuse white blood ; though this effusion was slower from the root-end than from the sum- mit-end, from whence I conclude, that the arteries of the root-end had ceased to act, and that the returning veins continued to bleed ; and on the contrary, that the veins of the summit part had ceased to act, and that the descending arteries continued to bleed. And, lastly, that the circle of red points in both of them were the mouths of the absorbent system, which continued to act in both directions. And I was thus induced to believe the existence of a venous system corres- ponding to the arterial one in the barks or roots of plants, as well as in their leaves and petals. There is, however, another part of the circulation of vegetable juices visible to the naked eye, and that is in the corol or petals of flowers, in which a part of the blood of the plant is exposed to the in- fluence of the air and light in the same manner as in the foliage, as will be mentioned more at large in notes XXXVII. and XXXIX. These circulations of their respective fluids seem to be carried on in the vessels of plants precisely as in animal bodies, by their irritability to the stimulus of their adapted fluids, and not by any mechanical or che- mical attraction ; for their absorbent vessels propel the juice upwards, which they drink up from the earth, with great violence ; I suppose with much greater than is exerted by the lacteals of animals, probably owing to the greater minuteness of these vessels iu vegetables, and the BOTANIC GARDEN. Part!. greater rigidity of their coats. Dr. Hales, in the spring season, cut off a vine near the ground, and, by fixing tubes on the remaining Rtump of it, found the sap to rise twenty-one feet in the tube, bv the propulsive power of these absorbents of the roots of it. Veget. Stat. p. 102. Such a power cannot be produced by capillary attraction, as that could only raise a fluid nearly to the upper edge of the attracting cylinder, but not enable it to flow over that edge, and much less to rise 21 feet above it. What then can this power be owing to ? Doubtless to the living activity of the absorbent vessels, and to their increased vivacity, from the influence of the warmth of the spring succeeding the winter's cold, and their thence greater suscsptibility to irritation from the juices which they absorb, resembling, in all circumstances, the action of the living vessels of animals. NOTE XXXVII.— VEGETABLE RESPIRATION. While, spread in air, the leaves rehiring play. Caxto IV. 1.453. I. THERE have been various opinions concerning the use of the leaves of plants in the vegetable economy. Some have contended that they are perspiratory organs ; this does not seem probable from an experiment of Dr. Hales. Veget. Stat. p. 30. He found, by cutting off branches of trees with apples on them, and taking off the leaves, that an apple exhaled about as much as two leaves, the surfaces of which were nearly equal to the apple ; whence it would appear that apples have as good a claim to be termed perspiratory organs as leaves. Others have believed them excretory organs of excrcmenti- .ious juices; but as the vapour exhaled from vegetables has no taste, this idea is no more probable than the other ; add to this, that in moist weather they do not appear to perspire or exhale at all. The internal surface of the lungs or air-vessels in men, is said to be equal to the external surface of the whole body, or about fifteen 3quare feet : on this surface the blood is exposed to the influence of the respired air, through the medium, however, of a thin pellicle; by this exposure to the air it has its colour changed from deep red to bright scarlet, and acquires something so necessary to the existence of lite, that we can live scarcely u minute without this wonderful process. The analogy between the leaves of plants and the lungs or gills of ftflhnals s< em i to embrace so many circumstances, that we can scarcely with!- performing similar offices. Note 17. VEGETABLE RESPIRATION. 255 1. The great surface of the leaves, compared to that of the trunk and hninches of trees, is such, that it would seem to be an organ well adapted for the purpose of exposing the vegetable juices to the influ- ence of the air ; this, however, we shall see afterwards, is probably performed only by their upper surfaces ; yet even in this case the sur- face of the haves, in general, bears a greater proportion to the sur- face of the tree than the lungs of animals to their external surfaces. 2. -In the lungs of animals, the blood, after having been exposed to the air in the extremities of the pulmonary artery, is changed in co- lour from deep red to bright scarlet, and certainly in some of its es- sential properties, it is then collected by the pulmonary vein, and re- turned to the heart. To show a similarity of circumstances in the : plants, the following experiment was made, June 24, 1781. A 9ta&, with leaves and seed-vessels, of large spurge (Euphorbia several days placed in a decoction of madder (Rubia tinctorum), so that the lower part of the stem, and two of the undermost leaves were immersed in it. After having washed the im- mersed leaves in clear water, I cculd readily discern the colour of the jmadder passing along the middle rib of each leaf. This red artery was beautifully visible both on the under and upper surface of the leaf; but on the upper side many red branches were seen going from it to the extremities of the leaf, which, on the other side, were not visible, except bv looking through it against the light. On this under bide a system of branching vessels, carrying a pale milky fluid, were seen coming from the extremities of the leaf, and covering the whole under side of it, and joining into two large veins, one on each side of the red artery, in the middle rib of the leaf, and along with it, descend- ing to the foot-stalk or petiole. On slitting one of these leaves with scissars, and having a common magnifying lens ready, the milky blood was seen oozing out of the returning veins on each side of the red artery, in the middle-reb, but none of the red fluid from the artery. All these appearances were more easily seen in a leaf of picris treated in the same manner; for in this milky plant, the stems and middle rib of the leaves are sometimes naturally coloured reddish, and hence the colour of the madder seemed to pass further into the rami- fications of their leaf-arteries, and was there beautifully visible, with the returning branches of milky veins on each side. 3. From these experiments, the upper surface of the leaf appeared to be the immediate organ of respiration, because the coloured fluid was carried to the extremities of the leaf by vessels most conspicuous on the upper surface, and there changed into a milky fluid, which is the blood of the plant, and then returned, by concomitant veins, on ■-.he under surface, which were seen to ooze when divided with scis- P^rtJ. 2M 2St> BOTANIC GARDEN. Part I. 5ars, and which, in picris particularly, render the under surface of the leaves greatly whiter than the upper one. 4. As the upper surface of leaves constitute? the organ of re-pira* tion, on which the sap is exposed, in the terminations of ar'.eries, beneath a thin pellicle, to the action of the atmosphere. th< EC sur- faces, in many plants, strongly repel moisture, as eabbagi whence the particles of rain lying over their surfaces without touch- ing them, as observed by Mr. Melville (Essays Literary and Phi- losoph. Edinburgh), have the appearance of globules of quick-si ver. And hence leaves, laid with the upper surfaces on water, wither as soon as in the dry air, but continue green many days if placed with the under surfaces on water, as appears in the experiments of Mons. Bonnet (Usage des Feuilles). Hence Borne aquatic plants, as the water-lily (Nymphcea), have the lower sides of their 'eaves floating on the water, while the upper surfaces remain dry in the air. 5. As those insects which have many spiracula, or breathing aper- tures, as wasps and flies, are immediately suffocated by pouring oil upon them, I carefully covered with oil the surfaces of several leaves of Phlomis, of Portugal Laurel, and Balsams; and though it would not regularly adhere, I found them all die in ? day or two. Of aquatic leaves, see note on Trapa and on Fucus, in Part II. to which must be added, that many leaves are furnished with muscles about tin ir foot-stalks, to turn their upper surfaces to the air or light, as Mimosa and Hedysarum gyrans. From all these analogies, I think there can be no doubt but that leaves of trees are their lungs, giving out a phlogistic material to the atmosphere, and absorbing oxygene or vital air. 6. The great use of light to vegetation would appear, from this theory, to be, by disengaging vital air from the water which they per* spire, and thence to facilitate its union with their blood, exposed be- neath the thin surface of their leaves ; since, when pure air is thus applied, it is probable that it can be more readily absorbed. Hence, in the curious experiments of Dr. Priestley and Mr. Ingenhouz, some plants purified air less than others, that is, they perspired less in the sunshine ; and Mr. Scheele found, that bv putting peas into water which about half covered them, they converted the vital air into fixed air, or cabonic acid gas, in the same manner as in animal respiration. See note XXXIV. 7. The circulation in the lungs or leaves of plants is very similar to that of fish. In fish, the blood, after having passed through their gills, does not return to the heart, as from the lungs of air-breathing animals; but the pulmonary vein, taking the structure of an artery , after having received the blood from the gills, which there gains ■ Note ST. VEGETABLE RESPIRATION. 257 more florid colour, distributes it to the other parts of their bodies. The same structure occurs in the livers of fish, whence we see, in those animals, two circulations independent of the power of the heart, viz. that beginning at the termination of the veins of the gills, and branching through the muscles, and that which passes through the liver ; both which are carried on by the action of those respective arteries and veins. Monro's Physiology of Fish, p. 19. The course of the fluids in the roots, leaves, and buds of vegetables seems to be performed in a manner similar to both these. First, the absorbent vessels of the roots and surfaces unite at the foot-stalk of the leaf, ami then, like the vena portarum, an artery commences without the intervention of a heart, and spreads the sap, in its nu- merous ramifications, on the upper surface of the leaf : here it changes its colour and properties, and becomes vegetable blood ; and is again collected by a pulmonary vein on the under surface of the leaf. This vein, like that which receives the blood from the gills of fish, as- sumes the office and name of an artery, and, branching again, dis- perses the blood upward to the bud, from the foot-stalk of the leaf, and downward to the roots, where it is all expended in the various secretions, the nourishment and growth of the plant, as fast as it is prepared. 'II. The organ of respiration already spoken of belongs particularly to the shoots or buds ; but there is another pulmonary system, per- haps totally independent of the green foliage, which belongs to the fructification only ; I mean the corol or petals. In this there is an artery belonging to each petal,- which conveys the vegetable blood to its extremities, exposing it to the light and air under a delicate mem- brane, covering the internal surface of the petal, where it often changes its colour, as is beautifully seen in some party-coloured pop- pies ; though it is probable some of the iridescent colours of flowers may be owing to the different degrees of tenuity of the exterior mem- brane of the leaf, refracting the light like soap-bubbles ; the vegetable blood is then returned by correspondent vegetable veins, exactly as in the green foliage, for the purposes of the important secretions of honey, wax, the finer essential oil, and the prolific dust of the anthers* 1. The vascular structure of the corol, as above described, and which is visible to the naked eye, and its exposing the vegetable juices to the air and light during the day, evince that it is a pulmonary organ. 2. As the glands which produce the prolific dust of the anthers, f-he honey, wax, and frequently some odoriferous essential oil, are ge- nerally attached to the corol, and always fall off, and perish with it, it is evident that the blood is elaborated or oxygenated in this pulmc- nary system, for the purpose of these important secretions. m BOTANIC GARDEN. Part i. '. y flowers, as tlic Colchf urn. and Hamamelis, ar' : - Iri autumn, no green leaves appearing till t: log; and many others put forth their flowers, and complete th early in the spring, before the green foliage Mezereon, cherries, pears, which shows that these corols are the lungs belonging to the fructification. 4. This organ does not seem to have been necessary for the of the stamens and pistils, since the calyx of many flowers, : pogon, performs this office ; and, in many flowers, these petals them- selves are so tender as to require being shut up in the calyx during the night; for -what other use then can such an apparatus of vessels be designed ? 5. In the Helleborus nigcr, Christmas-rose, after the seeds are grown o a certain size, the nectaries and stamens drop off, and the beauti- ful large white petals change their colour to a deep green, and grada- ally thus become a calyx, enclosing and defending the ripertin hence it would seem that the white vessels of the corol served the of- fice of exposing the blood to the action of the air, for the purposes of separating or producing the honey, wax, and prolific dust ; and when re no longer wanted, that these vs.- I like the placental vessels of animals after their birth, and thus ceased to per- form that office, and lost, at the same time, their fthite dol< uv. Win should they lose their white colour, unless they, at the s;me time, lost . nr.e other property besides that Of defending die sec they sill continue to defend ? 6. From these observations I am led to doubt whether green leave.-, be absolutely necessary to the progress of the fruit-hud, aft< i year's leaves are fallen off. The green leaves serve as hmj shoots, and foster the new bnds in their bosoms, whether these buds be leaf-buds or fruit-buds ; but, in th< • the fruit-buds expand their covols, which arc their lungs, und seem no Ion I quire green leave*: hence the vine I cut a leaf-bud at another joint without fruit. >ut of the earth, in V. from the Colchicum, are for the purpose of producing the I and its placenta, attd not for the giving maturity to th 6Y gooseberry tr< i n of in- sects, the fruit continues to be 7. V; m these facts Tt appears, that theflower-bu . fills off (whit h is its lungs), atld the growing ■ th to the foot," Note 38. VEGETABLE IMPREGNATION. 259 and which there changes into an artery, for the purpose of distribut- ing the sap for the secretion of the saccharine, or farinaceous, or aces- cent materials, for the use of the embryon. At the same time, as all the vessels of the different buds of trees inosculate or communicate with each other, the fruit becomes sweeter and larger when the green leaves continue on the tree, but the mature flowers themselves (the succeeding fruit not considered), perhaps suffer little injury from the green leaves being taken off, as some florists have observed. 8. That the vessels of different vegetable buds inosculate in various parts of their circulation, is rendered probable by the increased growth of one bud, when others in its vicinity are cut away ; as it thus seems to receive the nourishment which was before divided amongst many. NOTE XXXVIII.— VEGETABLE IMPREGNATION. $ Love out his footer, and leave his life in air. Canto IV. I. 472. FROM the accurate experiments and observations of Spallanzani s it appears, that in the Spartium Junceum, rush-broom, the very mi- nute seeds were discerned in the pod at least twenty days before the flower is in full bloom, that is, twenty days before fecundation. At this time also the powder of the anthers was visible, but glued fast to their summits. The seeds, however, at this time, and for ten days after the blossom had fallen off, appeared to consist of a gelatinous substance. On the eleventh day after the falling of the blossom, the seeds became heart-shaped, with the basis attached by an appendage to the pod, and a white point at the apex : this white point was, on pressure, found to be a cavity including a drop of liquor. On the 25th day, the cavity, which at first appeared at the apex, was much enlarged, and still full of liquor ; it &K-> contained a very Kmall semi-transparent body, of a yellowish colour, gelatinous, and fixed by its two opposite ends to the sides of the cavity. In a month the seed was much enlarged, and its shape changed from a heart to a kidney ; the little body contained in the cavity was increased in bulk, and was less transparent and gelatinous, but there yet appeared no organization. On the 40th day, the cavity, now grown larger, was quite filled with the body, which was covered with a thin membrane : after this membrane was removed, the body appeared of a bright green, and •• divided, by the point of a needle- into two portions, which. ^CO BOTANIC GARDEN. Part I, manifestly formed the two lobes, and within these, attached to the lower part, the exceedingly small plantule was easily perceived. The fo reg oin g observations evince, 1. That the seeds exist in the Ovarium many days before fecundation. 2. That they remain for some time solid, and then a cavity, containing a liquid, is formed in them. .". That after fecundation a body begins to appear within the cavity, fixed by two points to the sides, which, in process of time, proves to be two lobes containing a plantule. 4. That the ripe seed consists of two lobes adhering to a plantule, and surrounded by a thin membrane, which is itself covered with a husk or cuticle. Spallan- cani's Dissertations, vol. ii. p. ?53. The analogy between seeds and eggs has long been observed, and is confirmed by the mode of their production. The egg is known to be formed within the hen long before its impregnation. C. F. Wolf asserts, that the yolk of the egg is nourished by the vessels of the mother, and that it has from those its arterial and venous branches, but that after impregnation these vessels gradually become impervious and obliterated, and that new ones are produced from the foetus, and dispersed into the yolk. Haller's Physiology, torn. viii. p. 94. The young seed, after fecundation, I suppose, is nourished in a similar manner, from the gelatinous liquor, which is previously deposited for that purpose ; the uterus of the plant producing or secreting it into a reservoir or amnios, in which the embryon is lodged, and that the young embrvon is furnished with vessels to absorb a part of it, as in the very early embryon in the animal uterus. The spawn of frogs and of fish is delivered from the female before its impregnation. M. Bonnet says, that the male salamander darts his semen into the water, where it forms a little whitish cloud, which is afterwards received by the swoln anus of the female, and she is fecundated. He adds, that marine plants approach near to these animals, as the male does not project a fine powder, but a liquor, ■which, in like manner, forms a little cloud in the water. And further adds, who knows but the powder of the stamina of certain pi. 'ins may make some impression on certain germs belonging to the animal king- dom ! Letter XLIII. to Sp&llanzani, Qeuvres Philos. Spallanzani found that the seminal fluid of frogs and doc;?, even when diluted with much water, retained its prolific quality. Whether this quality be simply a stimulus exciting the egg into animal action, which may be called a vivifying principle, or whether part of it be conjoined with the egg, is not yet determined, though the lat- ter si-ems more probablei from the frequent resemblance of the foetnt to the male parent. A conjunction, however, of both the male and female influence seems necessary for the purpose i Note 39. VEGETABLE GLANDULATION. 363 throughout all organized nature, as well in hermaphrodite insect?, microscopic animals, and polypi, and exists as well in the formation of the buds of vegetables as in the production of their seeds, which is ingeniously conceived and explained by Linnxus. After having compared the flower to the lava of a butterfly, consisting of petals in- stead of wing.s, calyxes instead of wing-sheaths, with the organs of reproduction; and having shown the use of the farina in fecundating the egg or seed, he proceeds to explain the production of the bud. The calyx of a flower, he says, is an expansion of the outer bark ; the petals proceed from the inner bark or rind, the stamens from the alburnum or woody circle, and the style from the pith. In the production and impregnation of the seed, a commixture of the secre- tions of the stamens and style are necessary ; and for the production of a bud, he thinks the medulla or pith bursts its integuments, and mixes with the woody part or alburnum, and these, forcing their pas~ sage through the rind and bark, constitute the bud or viviparous pro- geny of the vegetable. System of Vegetables translated from Linnseus-j page 8. It has been supposed that the embryon vegetable, after fecundation, by its living activity, or stimulus exerted on the vessels of the parent plant, may produce the fruit or seed-lobes, as the animal fetus pro- duces its placenta, and as vegetable buds may be supposed to produce their umbilical vessels or roots, down the bark of the tree. This, in respect to the production of the fruit surrounding the seeds of trees, has been assimilated to the gall-nuts on oak-leaves, and to the bede- guar on briars ; but there is a powerful objection to this doctrine, viz. that the fruit of figs, all which are female in this country, grow nearly as large without fecundation, and, therefore, the embryon has in theua no self-living principle. NOTE XXXIX VEGETABLE GLANDULATION. Seeks, where fine fiores their dulcet balm distil. Canto IV. 1.533. THE glands of vegetables, which separate from their blood the mucilage, starch, or sugar, for the placentation or support of their seeds, bulbs, and buds ; or those which deposit their bitter, acrid, or narcotic juices for their defence from depredations of insects or larger animals ; or those which secrete resins or wax for their protection from moisture or frosts, consist of vessels too fine for the injection or absorption of coloured fluids, and have not, therefore, yet been ?S2 BOTANIC G \RDEN. Part L exhibited to the inspection even of our glasses, and can, therefore, only be known by their effects ; but one of the most curious and im- portant of all vegetable secretions, that of honey, is apparent to our naked eyes, though, before the discoveries of Linnjcus, the nectar)-, ■r boney gland, had not even acquired a name. The odoriferous essential oils of several (lowers seem to have been designed for their defence against the depredations of insc their beautiful colours were a necessary consequence of the size of the particles of their blood, or of the tenuity of the exterior men. the petal. The use of.the prolific dust is now well ascertained ; the ttich covers the anthers prevents this dust from receiving moisture, which would make it burst prematurely, and thence pre- vent its application to the stigma, as sometimes happens in moist years, and is the cause cf deficient fecundation, both of our fields and orchards. The universality of the production of honey in the vegetable world, and the very complicated apparatus which nature has constructed in many flowers, as well as the acrid or deleterious juices she has fur- nished those flowers with (as in the Aconite) to protect this honey from vain, and from the depredations of insects, seem to imply that this fluid is of very great importance in the vegetable economy ; and also, that it was necessary to expose it to the open air previous to its re- absorption into the vegetable vessels. In the animal system the lachrymal gland separates its fluid into the open air, for the purpose of moistening the eye ; of this fluid, the part which does not exhaie is absorbed by the puncta lachrymalia, and carried into the nostrils; but as this is not a nutritive fluid, the ana-logy goes no further than its secretion into the open air, and its re- absorption into the system ; every other secreted fluid in the animal body is in part absorbed again into the system ; even those which are esteemed excrementitious, as the urine and perspirable matter, of which the latter is secreted, like the honey, into the external air. That the honey is a nutritious fluid, perhaps the most so of any vegeta- ble production, appears from its great similarity to sugar, and from its affording sustenance to such numbers of insects, which live upon it solely during summer, and lay it up for their winter provision. These proofs of its nutritive nature evince the necessity of its re-absorption into the vegetable system, for some useful purpose. This purpose, however, has, as yet, escaped the researches of philosophical botanists. M. Pentedera believes it designed to hibri- cate the vegetable uterus, and compares the horn-like nectaries of some flowers to the appendiele of the cecum intestinum of animals* (Antholog. p. 49.) Others have supposed, that the honey, when re- serve the purpose of the liq Kote 39. VEGETABLE GL.VNDULATION. 36S the egg, as a nutriment for the young embryon, or fecundated seed, in its early state of existence. But as the nectary is found equally general in male flowers as in female ones ; and as the young embryon, or seed, grows before the petals and nectary are expanded, and after they fall off; and, thirdly, as the nectary so soon falls off after the fecundation of the pistillum ; these seem to be insurmountable objec- tions to both the above-mentioned opinions. In this state of uncertainty, conjecture-, may be of use so far as they lead to further experiment and investigation. In many tribes of in- sects, as the silk-worm, and, perhaps, in all the moths and butter- flies, the male and female parents die as soon as the eggs are impreg- nated and excluded ; the eggs remaining to be perfected and hatched at some future time. The same thine; happens in regard to the male and female parts of flowers; the anthers and filaments, which con- stitute the male parts of the flower, and the stigma and style, which constitute the sensitive or amatorial organ of the female part of the flower, fall off and die as soon as the seeds are impregnated, and along with these the petals and nectary. Now, the moths and but- terflies above-mentioned, as soon as they acquire the passion and the apparatus for the reproduction of their species, lose the power of feed- ing iipdn leaves as they did before, and become nourished by what?— by honey alone. Hence we acquire a strong analogy for the use of the nectary, or secretion of honey in the vegetable economy, which is, that the male parts of flowers, and the female parts, as soon as they leave their foetus-state, expanding their petals (which constitute their lungs), be- come sensible to the passion, and gain the apparatus for the reproduc- tion of their species, and are fed and nourished with honey, like the insects above described ; and that hence the nectary begins its office ef producing honey, and dies, or ceases to produce honey, at the same time with the birth and death of the stamens and the pisti's ; whichj ■whether existing in the same or in different flowers, are separate and distinct animated beings. Previous to this time, the anthers with their filaments, and the Stigmas with their stv'es, are, in their fastus-state, sustained by their placental vessels, like the unexpanded leaf-bud, with the seeds exisU ing in the vegetable womb, yet unimpregnated, and the dust, yet un- ripe, in the cells of the anthers. After this period they expand their petals, which have been shown above to constitute the lungs of the flower; the placental vessels, which before nourished the anthers and the stigmas, coalesce, or cease to nourish them ; and they now acquire blood more oxygenated bv the air, obtain the passion and power of re- production, are sensible to heat, and cold, and moisture, and to me- chanic stimulus, and become, in reality, insects fed with Uoney, simi? Part I. 2 N BOTANIC GARDEN. Part I. tar in every respect, except their being attached to the tree on which '.hey were produced. Some experiments I have made this summer by cutting out the nec- taries of several flowers of the aconites, before the petals were open* or had become much coloured : some of these flowers, near the sum- mit of the plants, produced no seeds; others, lower down, produced seeds; but they were not sufficiently guarded from the f.irina of the flowers in their vicinity; nor have I had opportunity to try if these seeds would vegetate. I am acquainted with a philosopher, who, contemplating this sub- ject, thinks it not impossible, that the first insects were the anthers '->r stigmas of flowers ; which had, for some means, loosed themselves from their parent plant, like the male flowers of Vallisneria ; and that many other insects have gradually, in long process of time, been formed from these ; some acquiring wings, others fins, and others claws, from their ceaseless efforts to procure their food, or to secure 1hemselve3 from injury. He contends, that none of these changes are more incomprehensible than the transformation of tadpoles into frogs, and caterpillars into butterflies. There are parts of animal bodies which do not require oxygenated blood for the purpose of their secretions, as the liver, which, for the production of bile, takes its blood from the mesenteric veins, after it must have lost the whole or a great part of its oxygenation, which it had acquired in its passage through the lungs. In like manner the pericrtrpium, or womb of the flower, continues to secrete its proper juices for the present nourishment of the newly animated embryon- seed; and the saccharide, acescent, or starchy matter of the fruit or seed-lobes, for its future growth, in the same manner as these things went on before fecundation ; that is, without any circulation of juices in the petals, or production of honey in the nectary ; these having pe- rished and fallen off, with the male and female apparatus for impreg- nation. It is probable that the depredations of insects on this nutritious fluid must be injurious to the products of vegetation, and would be much more so, but that the plants have either acquired means to defend their honey in part, or have learned to make more than is absolutely sary for their own economy. In the same manner the honey- dew on trees is very injurious to them ; in which disease the nutritive fluid, the vegetable sap-juice, seems to be exuded by a retrograde motion of the cutaneous lymphatics, as in the sweating sickness of the last century. To prevent the depredation of insects on honey, a wealthy man in Italy is said to have poisoned his neighboui perhaps by mixing arsenic with honey, against which there is a most flowery declamation in Quintilian, No. XIII. A; the use ofth Note 39. VEGETABLE GLANDULATION. 9ft is to preserve the dust of the anthers from moisture, which would prematurely burst them, the bees which collect this for the construc- tion of the combs or cells, must, on this account, also injure the vegetation of a country where they too much abound. It is not easy to conjecture whv it was necessary that this secretion of honey should be exposed to the open air in the nectary, or honey- cup, for which purpose so great an apparatus for its defence from insects and from showers became necessary. This difficulty increases when we recollect that the sugar in the joints of grass, in the sugar- cane, and m the roots of beets, and in ripe fruits, is produced with- out exposure to the air. — On supposition of its serving for nutriment to the anthers and stigmas, it may thus acquire greater oxygenation, for the purpose of producing greater powers of sensibility, according to a doctrine lately advanced by a French philosopher, who has en- deavoured to show, that the oxygene, or base of vital air, is the con- stituent principle of our power of sensibility. So caterpillars are fed upon the common juices of vegetables found in their leaves, till they acquire the organs of reproduction, and then they feed on honey ; all, I believe, except the silk-worm, which, in this country, takes no nourishment afcer it becomes a butterfly. Thus also the maggot of the bee, according to the observations of Mr. Hunter, is fed with raw vegetable matter, called bee-bread, which is collected from the anthers of flowers, and laid up in cells for that purpose, till the maggot becomes a winged bee, acquires greater sen- sibility, and is fed with honey. Phil, Trans. 1792. See Zoonomiaj sect. XIII. on vegetable animation. From this provision of honey for the male and female parts of Rowers, and from the provision of sugar, starch, oil, and mucilage, in the fruits, seed-cotyledons, roots, and buds of plants, laid up for the nutriment of the expanding fetus, not only a very numerous class of insects, but a great part of the larger animals procure their food, and thus enjoy life and pleasure without producing pain to others ; for these seeds or eggs, with the nutriment laid up in them, are not yet endued with sensitive life. The secretions from various vegetable glands, hardened in the air, produce gums, resins, and various kinds of saccharine, saponaceous, and wax-like substances, as the gum of cherry or plumb trees, gum tragacanth from the astragalus tragacantha, camphor from the laurus camphora, elemi from amyris elemifera, aneme from hymencea cour- baril, turpentine from pistacia terebinthus, balsam of Mecca from the buds of amyris opobalsamum, branches of which are placed in the temples of the East, on account of their fragrance ; the wood is called xylobalsamum, and the fruit carpobalsamum ; aloe from a plant of the s.amc name, myrrh from a plant not vet described ; th/n BOTANIC GARDEN. Fart J. remarkably elastic resin is brought into Europe principally in the iorm of flasks which look like black leather, and are wonderfully elastic, and not penetrable by water; rectified ether dissolves it; its flexibility is increased by warmth, and destroyed by cold ; the tree which yields this juice is the jatropha elastics; it grows in Guaiasa and the neighbouring tracts of America ; its juice is sail to resemble wax, in becoming soft by heat, but that it acquires no elasticity till that property is communicated to it by a secret art, after which it is poured into moulds, and well dried, and can no longer be rendered, fluid bv heat. — Mr. de la Borde, physician at Cayenne, has given this account. Manna is obtained at Naples from the fraxinus ornus, or manna-ash ; it partly issues spontaneously, which is preferred, and parti) exudes from -wounds made purposely in the month of August; many other plants yield manna more sparingly. Sugar is properly made from the saccharum officinale, or sugar-cane, but is found in the roots of beet and many other plants. American wax is obtained from the myrica cerifera, candlcberry myrtle ; the berries are boiled in water, and a green wax separates; with luke-warm water, the •wax is yellow: the seeds of croton sehiferum are lodged in tallow: there are many other vegetable exudations used in the varit us arts pf dyeing, varnishing, tanning, lacquering, and which supply the shop of the druggist with medicines and with poisons. There is another analogy, which would seem to associate plants with animals, and which, perhaps, belongs to this note on Glandula- tion ; I mean the similarity of their digestive powers. In the roots of growing vegetables, as in the process of making malt, the farina- ceous part of the seed is converted into sugar by the vegetable power ef digestion, in the same manner as the farinaceous matter of seeds is converted into sweet chyle by the animal digestion. The sap-juice which rises in the vernal months from the roots of trees, through the alburnum, or sap-wood, owes its sweetness, 1 suppose, to a similar digestive power of the absorbent system of the young buds. This exists in many vegetables in great abundance, as in vines, sycamore, birch, and most abundantly in the palm-tree (Isert's Voyage to Guinea), and seems to be a similar fluid in all plants, as chyle is simi- lar in all animals. Hence, as the digested food of vegetables, consists principally of sugar, and from that is produced again their mucilage, starch, and oil) and since animals are sustained by these vegetable productions, it would seem, that the sugar-making process carried on in ■ yess< Is was the great source of life to all organized beings. And that, $f our improved chemistry should ever discover the ar( of making SUgaT from fossile or aerial matter, without the assistance < Vjon, food for animals would then become as plentiful as v..: $*ote 39. VEGETABLE QLANDULATION. mankind might live upon the earth as thick as blades of grass, with no restraint to their numbers but the want of local room. It would seem, that roots fixed in the earth, and leaves, innumer- able, waving in the air, were necessary for the decomposition of wa- ter, and the conversion ot it into saccharine matter, which would have been not only cumberous, but totally incompatible with the locomotion of animal bodies. For how could a man or quadruped have carried on his head or back a forest of leaves, or have had long branching lac- teal or absorbent vessels terminating in the earth ? Animals, there- fore, subsist on vegetables ; that is, they take the matter so far pre- pared, and have organs to prepare it further for the purposes of higher animation, and greater sensibility. In the same manner the appara- tus of green leaves and long roots were found inconvenient for the more animated and sensitive parts of vegetable flowers; I mean the anthers and stigmas, which are, therefore, separate beings, endued with the passion and power of reproduction, with lungs of their own, and fed with honey, a food ready prepared by the long roots and green leaves of the plant, and presented to their absorbent mouths. From this outline, a philosopher may catch a glimpse of the gene- ral economy of nature; and, like the mariner cast upon an unknown shore, who rejoiced when he saw the print of a human foot upon thg sand, he may cry out with rapture, " A God dwells here." ( 268 ) VISIT of HOPE TO SIDNEY COVE, NEAR BOTANY-BAY. Referred to in Canto II. 1. 317. WHERE Sidney Cove her lucid bosom swells, And with wide arms the indignant storm repels j High on a rock, amid the troubled air, Hope stood 6ublime, and waved her golden hair ; Calm'd with her rosy smile the tossing deep, And with sweet accents charm 'd the winds to sleep j To each wild plain she stretch'd her snowy hand, High-waving wood, and sea-encircled strand. " Hear me," she cried, '< ye rising realms ! record " Time's opening scenes, and Truth's prophetic word. u There shall broad streets their stately walls extend, " The circus widen, and the crescent bend ; ** There, ray'd from cities o'er the cultured land, " Shall bright canals, and solid roads expand— « There the proud arch, colossus-like, bestride il Yon glittering streams, and bound the chafing tide ; " Embellish'd villas crown the landscape-scene, " Farms wave with gold, and orchards blush between — " There shall tall spires, and dome-capt towers ascend, ** And piers and quays their massy structures blend ; ", While with each breeze approaching vessels glide, " And northern treasures dance on every tide !'* Then ceased the nymph — tumultuous echoes roar, And Joy's loud voice was heard from shore to shore — Her graceful steps, descending, press'd the plain. And Peace, and Art, and Labour, join'd her train. Mr. Wedgwood, having been favoured by Sir Joseph Banks with a specimen of clay from Sidney Cove, has made a few medallions of it, representing Hope encouraging Art and Labour, under the in- fluence of Peace, to pursue the employments necessary for rendering an infant colony secure and happy. The above verses were written by the author of the Botanic Garden, to accompany these medalliouj. THE ECONOMY OF VEGETATION. CONTENTS OF THE ADDITIONAL NOTES. Note I. — Meteors. 1 HERE are four strata of the atmosphere, and four kinds of meteors. 1. Lightning is electric, exists in visible clouds, its short course, and red light. 2. Shooting stars exist in visible vapour, without sound, white light, have no luminous trains. 3. Twilight ; fire-balls move thirty miles in a second, and are about sixty miles high ; have luminous trains, occasioned by an electric spark passing between the aerial and inflammable strata of the atmosphere,, and mixing them and setting them on fire in its passage; attracted by volcanic eruptions ; one thousand miles through such a medium resists less than the tenth of an inch of glass. 4 Northern lights not attracted to a point, but diffused ; their colours ; passage of electric fire in vacuo dubious ; Dr. Frank- lin's theory of northern lights countenanced in part by the supposition of a superior atmosphere of inflammable air ; antiquity of their appearances; de» scribed in Maccabees. Note II. — Primary Colours. The rainbow was in part understood before Sir Isaac Newton ; the seven colours were discovered by him ; Mr. Galton's experiments on colours ; man* ganese and lead produce colourless glass. Note III. — Coloured Clouds. The rays refracted by the convexity of the atmosphere ; the particles of air and of water are blue ; shadow by means of a candle in the day ; halo found the moon in a fog; bright spot in the cornea of the eye ; light from cat's eyes in the dark, from a horse's eyes in a cavern, coloured by the choroid coat within the eye. Note IV. — Comets. Tails of comets from rarified vapour, like northern lights, from electri- city ; twenty millions of miles long ; expected comet - r 72 comets already de* scribed. 270 BOTANIC GARDEN". p ART f, . r. V.— Sun's Rays. Dispute about phlogiston; the sun the fountain from whence all phlo* giston is derived ; i;s rays not luminous till they arrive at our atmosphere ; light owing to their combustion with air, whence an unknown acid ; the sun is on fire only on its surface j the dark spots on it are excavations through iti luminous crust. Note VI. — Central Fires. Sun's heat much less than that from the nre at the earth's centre; sun's heat penetrates but a few feet in summer ; some mines are warm ; warm springs owing to subterraneous fhe ; situations of vokanos on high moun- tains; original nucleus of the earth; deep vallies of the ocean; distant per- ception of earthquakes ; great attraction of mountains; variation of the compass ; countenance the existence of a cavity or fluid lava within the earth. Note VII. — Elementary Heat. Combined and sensible heat; chemical combinations attract heat, solu- tions reject heat ; ice cools boiling water six times as much as cold water cools it ; cold produced by evaporation ; heat by devaporation ; capacities of bodies in respect to heat. 1. Existence of the matter of heat shown from the me- chanical condensation and rarefaction of air, from the steam produced in ex- hausting a receiver, snow from rarified air, cold from discharging an air-gun> heat from vibration or friction. 2. Matter of heat analogous to the electric fluid in many circumstances, explains many chemical phenomena. Note VIII. — Memnon's Lyre. Mechanical impulse of light dubious ; a glass tube laid horizontally be- fore a fire revolves ; pulse-glass suspended on a centre ; black leather contracts in the sunshine ; Memnon's statue broken by Cambyses. Note IX. — Luminous Insects. Eighteen species of glow-worm, their light owirg to their respiration in transparent lungs; Acudia of Surinam gives light enough to read and draw by ; use of its light to the insect ; luminous sea-insects adhere to the skin of those who bathe in the ports of Languedoc ; the light may arise from putrescent slime. Note X.— Phosphorus. Discovered by Kunkcl, Brandt, and Boyle; produced in respiration, and by luminous insects, decayed wood, and calcined shells ; bleaching a slov.' combustion in which the water is decomposed ; rancidity of animal fat owing 1 Co the decomposition of water on its surface ; aerated marine acid does not whiten ox bleach the hand. Note XI. — S team-Engine. Hero of Alexandria Brat applied steam to machinery, n*xt a French writer m 1630, the Marquis of Woxcestej in 1655, Capt, Savoy in 16S9, Newco- CONTENTS OF ADDITIONAL NOTES. 271 faien and Cawley added the piston ; the improvements of Watt and Boulton ; power of one of their large engines equal to two hundred horses. Note XII —Frost. Expansion of water in freezing; injury done by vernal frosts; fish, eggs, seeds, resist congelation ; animals do not resist the increase of heat ; frosts do not meliorate the ground, nor are, in general, salubrious; damp air produces cold on the skin by evaporation ; snow less pernicious to agriculture than heavy rains, for two reasons. Note XIII. — Electricity. 1. Points preferable to knobs for defence of buildings ; why points emit the electric fluid; diffusion of oil on water; mountains are points on the earth's globe ; do they produce ascending currents of air ? 2. Fairy-rings explained ; advantage of paring and burning ground. Note XIV. — Buds and Bulbs. A tree is a swarm of individual plants; vegetables are either oviparous or viviparous ; are all annual productions like many kinds of insects; hyber- nacula ; a new bark annually produced over the old one, in trees and in some herbaceous plants, whence their roots seem end-bitten ; all bulbous roots perish annually ; experiment on a tulip-root ; both the leaf-bulbs and the flower-bulbs are annually renewed. Note XV. — Solar Volcanos. The spots in the sun are cavities, some of them four thousand miles deep, and many times as broad ; internal parts of the sun are not in a state of com- bustion ; volcar.os visible in the sun ; all the planets together are less than one six hundred and fiftieth part of the sun ; planets were ejected from the sun by volcanos ; many reasons showing the probability of this hypothesis ; Mr. BufFon's hypothesis, that planets were struck off from the sun by comets ; why no new planets are ejected from the sun ; some comets, and the Georgium Sidus, may be of later date; sun's matter decreased ; Mr. Ludlam's opinion, that it is possible the moon might be projected from the earth. Note XVI. — Calcareous Earth. High mountains and deep mines replete with shells ; the earth's nucleus covered with lime-stone ; animals convert water into lime-stone ; all the cal- careous earth in the world formed in animal and vegetable bodies ; solid parts of the earth increase ; the water decreases ; tops of calcareous mountains dissolved ; whence spar, marbles, chalk, stalactites ; whence alabaster, fluor, flint, granulated lime-stone, from solution of their angles, and by attrition ; tupha deposited on moss ; lime-stones from shells with animals in them ; liver- stone from fresh-water muscles; calcareous earth from land-animals and vegetables, as marl ; beds of marble softened py fire ; whence Bath-Stone contains lime as well as lime-stone. Part I SO IC GARDEN. Part I. Note XVII.— Morasses. The production of morasses from fallen woods; account by the Earl Cro- martie of a new morass ; morasses lose their salts by solution in water ; then their iron ; their vegetable acid is converted into marine, nitrous, and vitriolic acid-; whence gypsum, alum, sulphur; into fluor-acid, whence fluor; into siliceous acid, whence flint, the sand of the sea, and other strata of siliceous sand and marl ; some morasses ferment like new hay, and, subliming their phlogistic part, form coal-beds above and clay below, which are also produced by elutriation ; shell-fish in some morasses, hence shells sometimes found on coals, and over iron-stone. Note XVIII.— Iron. Calciform ores; combustion of iron in vital air; steel from deprivation of vital air; welding; hardness; britdeness like Rupert's drops; specific levity ; hardness and brittleness compared ; steel tempered by its colours ; modern production of iron, manganese, calamy ; septaria of iron-stone ejected from volcanos ; red-hot cannon-balls. Note XIX.— Flint. 1. Siliceous rods from morasses ; their cements. 2. Siliceous trees ,■ coloured by iron or manganese; Peak-diamonds; Bristol-stones; flint in form of cal- careous spar; has been fluid without much heat; obtained from powdered quartz and fluor-acid by Bergman and by Achard. 3. Agates and onyxes found in sand-rocks ; of vegetable origin ; have been in complete fusion ; their concentric coloured circles not from superinduction, but from congela- tion ; experiment of freezing a solution of the blue-vitriol; iron and manga- nese repelled in spheres, as the nodule of flint cooled ; circular stains of marl in salt-mines; some flint nodules resemble knots of wood or roots. 4. Sand of the sea; its acid from morasses; its base from shells. 5. Ckert cr petrosilex stratified in cooling; their colour and their acid from sea-animals; Labradore- stone from mother-pearl. 6. Flints in cbalk-beJs; their form, colour, and acid, from the flesh of sea-animals ; some are hollow, and lined with crystals ; contain iron ; not produced by injection from without ; coralloids converted to flint ; French mill-stones ; flints sometimes found in solid strata. "• Angles of sand destroyed by attrition and solution in steam; siliceous breccia ce- mented by solution in red-hot water. S. Basaltes and granites are ancient lavas ; basaltes raised by its congelation, not by subterraneous fire. Note XX.— Clay. Fire and water two great agents ; stratification from precipitation; many stratified materials not soluble in water. 1. Stratification of lava from suc- cessive accumulation. 2. Stratifications of lime-stone from the different periods of time in which the shells were deposited. 3. Stratifications of coal, and clay, and sand-stone, and irou-ores, not from currents of water, but from the production of morass-beds, at different periods of time ; morass beds become ignited ; their bitumen and sulphur is sublimed, the clay, limi CONTENTS OF ADDITIONAL NOTES. 273 and iron, remain ; whence sand, marl, coal, white clay in valleys, and gravel- beds, and some ochres, and some calcareous depositions, owing to alluvia- tion ; clay from decomposed granite ; from the lava of Vesuvius ; from vitre- ous lavas. Note XXI. — Enamels. Rose-colour and purple from gold ; precipitates of gold by alkaline salt preferable to those by tin ; aurum fulminans long ground ; tender colours from gold or iron not dissolved, but suspended in the glass ; cobalts ; calces of cobalt and copper require a strong fire ; Ka-o-lin and Pe-tun-tse the same as our own materials. Note XXII. — Portland Vase. Its figures do not allude to private history ; they represent a part of the Eleusinian mysteries ; marriage of Cupid and Psyche ; procession of torches; the figures in one compartment represent Mortal Life in the act of ex- piring, and Humankind attending to her with concern; Adam and Eve hieroglyphic figures ; Abel and Cain other hieroglyphic figures : on the other compartment is represented Immortal Life ; the Manes, or Ghost, de- scending into Elysium, is led on by Divine Love, and received by Immor- tal Life, and conducted to Pluto; Trees of Life and Knowledge are emblematical ; the figure at the bottom is of Atis, the first great Hierophant, pr teacher of mysteries. Note XXIII.— Coal. 1. A fountain of fossile tar in Shropshire; has been distilled from the coal-beds beneath, and condensed in the cavities of a sand-rock; the coal be- neath is deprived of its bitumen in part; bitumen sublimed at Matlock, into cavities lined with spar. 2. Coal has been exposed to heat ; woody fibres and vegetable seeds in coal at Bovey and Polesworth ; upper part of coal-beds more bituminous at Beaudesert; thin stratum of asphaltum near Caulk; upper part of coal-bed worse at Alfreton ; upper stratum of no value at "IViddrington ; alum at West-Hallum ; at Bilston. 3. Coal at Colebrook- Dale has been immersed in the sea, shown by sea-shells ; marks of violence in the colliery at Mendip and at Ticknal ; lead-ore and spar in coal-beds ; gravel over coal near Lichfield; coal produced from morasses, shown by fern- leaves, and bog-shells, and muscle-shells ; by some parts of coal being still woody ; from Loch Neigh, and Bovey, and the Temple of the Devil ; fixed alkali ; oil. Note XXIV.— Granite. Granite the lowest stratum of the earth yet known; porphyry, trap, rnoor-stone, whin-stone, slate, basaltes, all volcanic productions dissolved in red-hot water ; volcanos in granite strata ; differ from the heat of morasses from fermentation ; the nucleus of the earth ejected from the sun ; was the sun originally a planet ? supposed section of the globe. 274 BOTANIC CAH Past I Note XXV.— Evapot I. 1. Solution of water in air; in the matter of heat; pulie-glass. 2 Heat is the principal causs of evaporation ; thermometer cooled by evapora- tion of ether; heat given from steam to the worm-tub ; warmth accompany- ing rain. 3. Steam condensed on the eduction of heat; moisture on cold vails; south-west and north-east winds. 4. Solution of salt and of blue vitriol in the matter of heat. II. Other vapours may precipitate steam and form rain. 1. Cold the principal cause of devaporation ; hence the steam dissolved in heat is precipitated, but that dissolved in air remains even in frosts; south-west wind. 2. North-east winds mixing with south-west winds produce rain ; because the cold particles of air from the north-east acquire seme of the matter of heat from the south-west winds. 3. Devaporation from mechanical expansion of air, as in the receiver of an air-pump ; sum- mer clouds appear and vanish ; when the barometer sinks without change of wind the weather becomes colder. 4. Solution of water in electric fluid du- bious. 5. Barometer sinks from the lessened gravity of the air, and from the rain having less pressure as it falls; a mixture of a solution of water in calo- irique, with an aerial solution of water, is lighter than dry air; breath of animals in cold weather, why condensed into visible vapour and dissolved again. Note XXVI.— Springs. Lowest strata of the earth appear on the highest hills ; springs from dews sliding between them ; mountains are colder than plains ; 1. From their being insulated in the air; 2. From their enlarged surface ; 3. From the rarity of the air it becomes a better conductor of heat ; 4. By the air on mountains being mechanically rarefied as it ascends; 5. Gravitation of the matter of heat ; 6. The dashing of clouds against hills; of fogs against trees; springs stronger in hot days with cold nights ; streams from subterranean caverns; from beneath the snow on the Alps. Note XXVII.— Shell-Fish. The armour of the Echinus moveable ; holds itself in storms to stones, by 1200 or 2000 strings; Nautilus rows and sails; renders its shell buoyant: Pinna and cancer; Byssus of the ancients was the beard of the Pinna ; as fine as the silk is spun by the silk-worm; gloves made of it; the beard of muscles produces sickness ; Indian-weed ; tendons of rats' tails. Note XXVIII.— Stuhgeox. Sturgeon's mouth like a purse; without teeth ; tendrils lik-e worms hang icfore his lips, which entice small fish and sea-insects, mistaking them for worms; his skin used for covering carriages; isinglass made from it ; caviare spawn. CONTENTS OF ADDITIONAL NOTES. 575 Note XXIX.— Oil on Water. Oil and water do not touch; a second drop of oil will not diffuse itself on the preceding pne; hence it st.lls the waves; divers for pearl c?rry oil in their mouths; oil on water produces prismatic colours; oiled cork circulates on water; a phial of oil and water made to oscillate. Note XXX.— Ship-Worm. The Teredo has calcareous jaws; a new enemy; they perish when they meet together in their ligneous canals ; United Provinces alarmed for the piles of the banks of Zealand ; were destroyed by a severe winter. Note XXXI.— Maelstrom. A whirlpool on the coast of Norway ; passes through a subterraneous cavity; less violent when the tide is up ; eddies become hollow in the middle; heavy bodies are thrown out by eddies ; light ones retained ; oil and water whirled in a phial; hurricanes explained. Note XXXII.— Glaciers. Snow in contact with the earth is in a state of thaw; ice-houses; rivers from beneath the snow; rime, in spring vanishes by its contact with the <=arth ; and snow by its evaporation and contact with the earth ; moss vege. tates beneath the snow; and Alpine plants perish at Upsal for want of Note XXXIII.— Winds. Air is perpetually subject to increase and to diminution ; oxygene is per- petually produced from vegetables in the sunshine, and from clouds in the light, and from water ; azote is perpetually produced from animal and vegeta- ble putrefaction, or combustion ; from springs of water; volatile alkali ; fixed alkali; sea-water; they are both perpetually diminished by their contact with the soil, producing nitre ; oxygene is diminished in the production of all acids ; azote by the growth of animal bodies ; charcoal in burning consumes double its weight of pure air ; every barrel of red-lead absorbs 2000 cubic feet of vital air ; a';r obtained from variety of substances by Dr. Priestley ; oflicina aeris in the polar circle, and at the line. Soutfo-gous to the rudiments of stamens above described ; viz. two little knobs are found placed, each on a stalk or peduncle, generall) under a little arched scale ; which appear to be rudiments of hinder tiled b) Linnaeus halteres, or poisers, a term of his intro- A. T. Bludh. Ama.u. Acad. V. 7. Other animals have marks of C fuadta Canto I. LOVES OF THE PLANTS. 15 Four beardless youths the obdurate beauty move With soft attentions of Platonic love. u With vain desires the pensive Alcea burns;, And, like sad Eloisa, loves and mourns. 70 The freckled Iris owns a fiercer flame, And three un jealous husbands wed the dame. Cupressus dark disdains his dusky bride, One dome contains them, but two beds divide. having, in a long process of time, undergone changes in some parts of their bodies, which may have been effected to accommodate them to new ways of procuring their food. The existence of teats on the breasts of male animals, and which are generally replete with a thin kind of milk at their nativity, is a wonderful instance of this kind. Perhaps all the productions of nature are in their progress to greater perfection ! an idea countenanced by the modern discoveries and deductions concerning the progressive formation of the solid parts of the terraqueous globe, and consonant to the dignity of the Creator of all things. Alcea. I, 69. Flore pleno. Double hollyhock. The double flowers, so much admired by the florists, are termed, by the botanist, vegetable monsters ; in some of these the petals are multiplied three or four times, but without ex- cluding the stamens ; hence they produce some seeds, as Campanula- and Stramonium ; but in others the petals become so numerous as totally to ex- clude the stamens, or males, as Caltha, Peonia, and Algea ; these produce no seeds, and are termed eunuchs. Philos. Botan. No. 150. These vegetable monsters are formed in many ways : 1st. By the multi- plication of the petals, and the exclusion of the nectaries, as in larkspur. 2d. By the multiplication of the nectaries, and exclusion of the petals, as in columbine. 3d. In some flowers growing in cymes, the wheel-shape flowers in the margin are multiplied to the exclusion of the bell-shape flowers in the centre, as in gelder-rose. 4th. By the elongation of the florets in the centre. Instances of both these are found in daisy and feverfew. For other kinds of vegetable monsters, see Plantago. The perianth is not changed in double flowers ; hence the genus, or family, may be often discovered by the calyx, as in Hepatica, Ranunculus, Alcea. In those flowers which have many petals, the lowest series of the petals re- mains unchanged in respect to number ; hence the natural number of the petals is easily discovered, a& in poppies, roses, and Nigella, or devil in a bush. Phil. Bot. p. 128. Iris. I, 71. Flower de Luce. Three males, one female. Some of the species have a beautifully freckled flower ; the large stigma, or head of the female, covers the three males, counterfeiting a petal with its divisions. Cupressus. 1.73. Cypress. One house. The males live in separate flowers, but on the same plant. The males of some of these plants, w hich are in separate flowers from the females, have an elastic membrane ; which disperses their dust to a considerable distance, when the anthers burst open- This dust, on a fine day, may often be seen like a cloud hanging round the common nettle. The males and females of all the cone-bearing plants are in separate flowers, either on the same or on different plants ; they produce resins, and many of them arc supposed to supply the most durable timber : what is called 10 BOTANIC GARDEN. Fart EL The proud Osyris flics his angry lair, 7^ Two houses hold the fashionable pair. " With strange deformity Plantago treads, A monster-birth! and lifts his hundred heads j Yet with soft love a gentle belle he charms, And clasps the beauty in his hundred arms. 80 So hapless Desdemoxa, fair and young, Won by Othello's captivating tongue* Sigh'd o'er each strange and piteous tale, distress'd, And sunk,' enamour'd, on his sooty breast. " Txvo gentle shepherds, and their sister-wives, 85 With thee, Axthoxa! lead ambrosial lives j Venice-turpentine is obtained from the larch by wounding the bark about two feet from the ground, and catching it as it exudes ; Sandarach is procured from common juniper ; and incense from a juniper with yellow fruit. The unperishable chests, which contain the Egyptian mummies, were of Cypress ; and the Cedar, with which black-lead pencils are covered, is not liable to be eaten by worms. See Miln's Bot. Diet. art. Conifers. The gates of St. Peter's church at Rome, which had lasted from the time of Constantine to that of Pope Eugene the Fourth, that is to say, eleven hundred years, were of Cypress, and had in that time suffered no decay. According to Thucy- dides, the Athenians buried the bodies of their heroes in coffins of Cypress, as being not subject to decay. A similar durability has also been ascribed to Cedar. Thus Horace, ■ speramns carmina Jingi Posse Unenda cedro iSf Uvi servanda cupresso. Osyris. 1.75. Two houses. The males and females are on different plants. There are many instances on record where female plants have been impreg- nated at very great distance from their male; the dust discharged from the anthers is very light, small, and copious, so that it may spread very wide in the atmosphere, and be carried to the distant pistils, without the supposition of any particular attraction; these plants resemble some insects, as the ants and cochineal insect, of which the males have wings, but not the females. Plantago. 1. 77. Rosea. Rose-Plantain. In this vegetable monster the bractes, or divisions of the spike, become wonderfully enlarged ; and are con- verted into leaves. The chaffy scales of the calyx in Xcranthemum, and in a species of Dianthus, and the glume in some alpine grasses, and the scales of the anient in the Salix Rosea, rose-willow, grow into leaves, and produce other kinds of monsters. The double flowers become monsters by the mul- tiplication of their petals or nectaries. See note on ithnm. 1. 86. Vernal grass. Two males, two females. The iwers of this grass give the [Yagrai [ am \u ntl] \ \\ iparou ■ that is, tha id of seeds, which, after.* Canto I. LOVES OF THE PLANTS. 17 Where the wide heath in purple pride extends, And scatter'd furze its golden lustre blends, Closed in a green recess, unenvy'd lot ! The blue smoke rises from their turf-built cot ,- 90 Bosom'd in fragrance blush their infant train, Eye the warm sun, or drink the silver rain. " The fair Osmund a seeks the silent dell, The ivy canopy, and dripping cell ; There, hid in shades, clandestine rites approves,. 95 Till the green progeny betrays her loves. " With charms despotic fair Chondrilla reigns O'er the soft hearts oi Jive fraternal swains; If sighs the changeful nymph, alike they mourn j And, if she smiles, with rival raptures burn. 100 So, tuned in unison, Eolian Lyre ! Sounds in sweet symphony thy kindred wire ; time, drop oft", and strike root into the ground. This circumstance is said to obtain in many of the alpine grasses, whose seeds are perpetually devoured by small birds. The Festuca- Dumetorum, fescue grass of the bushes, pro- duces bulbs from the sheaths of its straw. The Allium Magicum, or magi- cal onion, produces onions on its head, instead of seeds. The Polygonum Viviparum, viviparous bistort, rises about a foot high, with a beautiful spike of flowers, which are succeeded by buds or bulbs, which fall off and take root. There is a bush frequently seen on birch-trees, like a bird's nest, which seems to be a similar attempt of nature, to produce another tree, which, falling off, might take root in spongy ground. There is an instance of this double mode of production in the animal king- dom, which is equally extraordinary : the same species of Aphis is viviparous in summer, and oviparous in autumn. A. T. Bladh. Amsen. Acad. V. 7- Osmundu. 1. 93. This plant grows on moist rocks; the parts of its flower or its seeds are scarce discernible; whence Linnreus has given the name of clandestine marriage to this class. The younger plants are of a beautiful vivid green. Cbondnlla. 1. 97. Of the class Confederate Males. The numerous flo- rets, which constitute the disk of the flowers in this class, contain in each five males suriounding one female, which are connected at top, whence the name of the class. An Italian writer, in a discourse on the irritability of flowers, asserts, that if the top of the floret be touched, all the filaments which support the cylindrical anther will contract themselves, and that, by thus raising or depressing the anther, the whole of the prolific dust is col- lected on the stigma. He adds, that if one filament be touched after it is separated from the floret, that it will contract like the muscular fibres of animal bodies: his experiments were tried on the Centaurea Calcitrapoides, and on artichokes and globe-thistles* Discourse on the irritability of plants. Dodsley. Part II. C 18 BOTANIC GARDEN. Part II. Now, gently swept by Zephyr's vernal wings, Sink in soft cadences the love-sick strings ; And now with mingling chords, and voices higher, 105 Peal the full anthems of the aerial choir. " Five sister-nymphs, to join Diana's train, With thee, fair Lychnis ! vow, — but vow in vain; Beneath one roof resides the virgin band, Flies the fond swain, and scorns his offer'd hand ; 110 But when soft hours on breezy pinions move, And smiling May attunes her lute to love, Each wanton beauty, trick'd in all her grace, Shakes the bright dew-drops from her blushing face ; In gay undress displays her rival charms, 115 And calls her wondering lovers to her arms. " When the young Hours, amid her tangled hair, Wove the fresh rose-bud, and the lily fair, Proud Gloriosa led three chosen swains, The blushing captives of her virgin chains — 120 Lychnis. 1. 108. Ten males and five females. The flowers which con- tain the rive females, and those which contain the ten males, are found on different plants, and often at a great distance from each other. Five of the ten males arrive at their maturity some days before the other five, as may be seen by opening the corol before it naturally expands itself When the females arrive at their maturity, they rise ab;>ve the petals, as if looking abroad for their distant husbands: the scarlet ones contribute much to the beauty of our meadows in May and J-une. Gloriosa. 1. 119. Superba. Six males, one female. The petals of this beautiful flower, with three of the stamens, which are first mature, stand up in apparent disorder; and the pistil bends at nearly a right angle, to insert its stigma amongst them. In a few days, as these decline, the other three stamens bend over, and approach the pistil. In the Fntillaria Persica, the six stamens are of equal lengths, and the anthers lie at a distance from the pistil, and three alternate ones approach first ; and, when these decline, the other three approach: in the Lithium Salicaria (which has twelve males and one female), a beautiful red flower, which grows on the banks of rivers, six of the males arrive at maturity, and surround the female some time before the Other six; when these decline, the other six rise up, and supply their places. Several other flowers have, in a similar manner, two sets of stamens of different ages, as Adoxa, Lychnis, Saxifraga. See Genista Perhaps a difference in the time of their maturity obtains in all these Bowers, which have numerous stamens. In the Kahnia, the ten stamens lie round the pistil like the radii of a wheel, and each anther is concealed in a nich of the corol, tt protect it from cold and moisture 5 these anthers rise separately from tteis ywric&a < ////t<' j'/w Canto I. LOVES OF THE PLANTS. ly When Time's rude hand a bark of wrinkles spread Hound her weak limbs, and silver'd o'er her head. Three other youths her riper years engage, The flatter'd victims cf her wily age. " So, in her wane of beauty, Ninon won 125 With fatal smiles her gay unconscious son.— Clasp'd in his arms, she own'd a mother's name,-— . " Desist, rash youth ! restrain your impious flame, " First on that bed your infant-form was press'd, " Born by my throes, and nurtured at my breast."— 130 Back as from death he sprung, with wild amaze Fierce on the fair he fix'd his ardent gaze ; Dropp'd on one knee, his frantic arms outspread, And stole a guilty glance toward the bed ; Then breathed from quivering lips a whisper'd vow, 135 And bent on heaven his pale repentant brow ; " Thus, thus !" he cried, and plunged the furious dart, And life and love gush'd, mingled, from his heart* " The fell Silene, and her sisters fair, Skill'd in destruction, spread the viscous snare, 140' The harlot-band ten lofty bravoes screen, And, frowning, guard the magic nets unseen.— » niches, and approach the pistil for a time, and then recede to their former situations. Silene. I. 139. Catphfly. Three females and ten males inhabit each flower ,• the viscous material, which surrounds the stalks under the flowers of this plant, and of the Cuaibalus Qtites, is a curious contrivance to prevent various insects from plundering the honey, or devouring the seed. In the Diona^a Muscipula there is a still more wonderful contrivance to prevent the depreda- tions of insects; the leaves are armed with long teeth, like the antenna of insects, and lie spread upon the ground round the stem ; and are so irritable, that when an insect creeps upon them, they fold up, and crush or pierce it to death. The last Professor Linnxus, in his Supplementum Plantarum, gives the following account of the Arum Muscivorum. The flower has the smell of carrion ; by which the flies are invited to lay their eggs in the chamber of the flower, but in vain endeavour to escape, being prevented by the hairs pointing inwards., and thus perish in the flower; whence its name of fly- eater. P. 411. In the Dypsacus is another contrivance for this purpose : a bason of water is placed round each joint of the stem. In the Drosera is another kind of fly-trap. See Dypsacus and Drosera. The flowers of Silene and Cucubalus are closed all day, but are open, and give an agreeable odour in the night. See Cerea. See additional notes at the end of the poem. 20 BOTANIC GARDEN. Part II Haste glittering nations, tenants of the air, Oh, steer from hence your viewless course afar ! If with soft words, sweet blushes, nods, and smiles, 1-1' The three dread Syrens lure you to their toils, Limed by their art in vain you point your stings, In vain the efforts of vour whirring wings ! — Go, seek your gilded mates and infant hives, Nor taste the honey purchased with your lives ! 15C " When heaven's high vault condensing clouds deform, Fair Amaryllis flies the incumbent storm, Seeks with unsteady step the shelter' d vale, - And turns her blushing beauties from the gale.-— Amaryllis. 1. 152. Formosissima. Most beautiful Amaryllis. Six malt;, one female. Some of the bell-flowers close their apertures at night, or in rainy or cold weather, as the convolvulus, and thus protect their included stamens and pistils. Other bell-flowers hang their apertures downwards, as many of the lilies ; in those the pistil, when at maturity, is longer I stamens ; and by this pendant attitude of the bell, when the anthers burst, their dust falls on the stignia ; and these are, at the same time, sheltered as with an umbrella from rain and dews. But, as a free exposure to the air is necessary for their fecundation, the style and filaments in many of these flowers continue to grow longer after the bell is open, and hang down below its rim. In others, as in the Martagon, the bell is deeply divided, and the divisions are reflected upwards, that they may not prevent the access of air, and, at the same time, afford some shelter from peipendicular rain cr dew.' Other bell-flowers, as the Hemerocallis and Amaryllis, have their bells nod- ding only, as it were, or hanging obliquely towards the horizon; which, as their stems are slender, turn like a weathercock from the wind, and thus very effectually preserve their enclosed stamens and anthers from the rain and cold. Many of these flowers, both before and after their season of fecunda- tion, erect their heads perpendicular to the horizon, like the Meadia, which cann6t be explained from mere mechanism. The Amaryllis Formosissima is a flower of the last-mentioned kind, and affords an agreeable example of art in the vegetable economy. 1. The pistil is of great length compared with the stamens; and this I suppose to have been the most unchangeable part of the flower, as in Meadia, which see. J. To counteract this circumstance, the pistil and stamens are made to de- cline downwards, that the prolific dust might fall from the anthers on the stigma. 3. To produce this effect, and to secure it when produced, the corol is lacerated, contrary to what occurs in other flowers of this genus, and the lowest division, with the two next lowest ones, are wrapped closely over the style and filaments, binding them forcibly down lower towards the horizon, than the usual inclination of the bell in this genus, and thus constitutes a most elegant flower. There is another contrivance for this purpose in the Hemerocallis Flava : the long pistil often is bent somewhat like the capital letter ^, with design to shorten it, and thus to brir.g the stigma amongst the r// 1, 1/-?///,,, /, w/// f > /;/.///;,,/ Canto I. LOVES OF THE PLANTS. Six rival youths, with soft concern impressed, Calm all her fears, and charm her cares to rest. — So shines at eve the sun-illumined fane, Lifts its bright cross, and waves its golden vane ; From every breeze the polish'd axle turns, And high in air the dancing meteor burns. " Four of the giant brood with Ilex stand, Each grasps a thousand arrows in his hand ; A thousand steely points on every scale Form the bright terrors of his bristly mail.— So arm'd, immortal Moore uncharm'd the spell, And slew the wily dragon of the well. — Sudden with rage their injured bosoms burn, Retort the insult, or the wound return ; Unwrong'd* as gentle as the breeze that sweeps The unbending harvests or undimpled deeps, They guard, the Kings of Needwood's wide domains, Their sister-wives and fair infantine trains ; Ilex. 1.161. Holly. Four males, four females. Many plants, like many animals, are furnished with arras for their protection ; these are either aculei, prickles, as in rose and barberry, which are formed from the outer bark of the plant ; or spins, thorns, as in hawthorn, which are an elongation of the wood, and hence more difficult to be torn off than the former ; or stimuli, stings, as in the nettles, which are armed with a venomous fluid for the 1 annoyance of naked animals. The shrubs and trees which have prickles or thorns, are grateful food to many animals, as gooseberry and gorse; and would be quickly devoured if not thus armed ; the stings seem a protection against some kinds of insects, as well as the naked mouths of quadrupeds, Many plants lose their thorns by cultivation, as wild animals lose their feroci- ty, and some of them their horns. A curious circumstance attends the large hollies in Needwood forest ; they are armed with thorny leaves about eight feet high, and have smooth leaves above, as if they were conscious that horses and cattle could not reach their upper branches. See note on Meadia, and on Mancinella. The numerous dumps of hollies in Needwood forest serve as land-marks to direct the travellers across it in various directions ; and as a shelter to the deer and cattle in winter; and, in scarce seasons, supply them with much food. For when the upper branches, which are without prickles, are cut down, the deer crop the leaves and peel off the bark. The bird-lime made from the bark of hollies seems to be a very similar material to the elastic gum, or Indian rubber, as it is called. There is a fossile elastic bitumen found at Matlock, in Derbyshire, which much resembles these sub- stances in its elasticity and inflammability. The thorns of the Mimosa Cor- nigera resemble cows' horns in appearance as well as in use. System of Vegetables, p. 782. S2 BOTANIC GARDEN. Part H, Lead the lone pilgrim through the trackless glade, Or guide in leaf}- wilds the wandering maid. " So Wright's bold pencil from Vesuvio's hight 175 Hurls his red lavas to the troubled night ; From Calpc starts the intolerable flash, Skies burst in flames, and blazing qceans dash ;— Or bids in sweet repose his shades recede, Winds the still vale, and slopes the velvet mead; 18$ On the pale stream expiring Zephyrs sink, And Moonlight sleeps upon its hoary brink. " Gigantic Nymph! the fair Kleinhovia reigns, The grace and terror of Orixa's plains ; O'er her warm cheek the blush of beauty swims, 185 And nerves Herculean bend her sinewy limbs ; With frolic eye she views the affrighted throng, And shakes the meadows as she towers along ; With playful violence displays her charms, And bears her trembling lovers in her arms. 190 So fair Thalestris shook her plumy crest, And bound in rigid mail her jutting breast ; Poised her long lance amid the walks of war, And Beauty thunder'd from Bellona's car ; Greece arnVd in vain, her captive heroes wove 195 The chains of conquest with the wreaths of love* Hurls bis red lavas. I. 176. Alluding to the grand paintings of the erup- tions of Vesuvius, and of the destruction of the Spanish vessels before Gib- raltar; and to the beautiful landscapes, and moonlight scenes, by Mr. Wright, of Derby. Kleinhcma. 1 183. In this class the males in each flower are supported by the female. The name of the class may be translated " Viragoes," or " Feminine Males." The largest tree perhaps in the world is of the same natural order as Kleinhovia ; it is the Adansonia, or Ethiopian Sour-gourd, or African Cala- bash-tree. Mr. Adanson says the diameter of the trunk frequently exceeds 25 feet, and the horizontal branches are from 45 to 55 feet long, and so large that each branch is equal to the largest trees of Europe. The breadth of the top is from l'JO to IjO feet; and one of the roots bared only in part, by the washing awa) of the earth from the river, near which it grew, measured 1 LO Feet long ; and yet these stupendous trees never exceed 70 feet in height. Voyage to Senegal. Canto I. LOVES OF THE PLANTS. 23 " When o'er the cultured lawns and dreary wastes Retiring Autumn flings her howling blasts, Bends in tumultuous waves the struggling woods, And showers their leafy honours on the floods, 200 In withering heaps collects the flowery spoil, And each chill insect sinks beneath the soil ; Quick flies fair Tulipa the loud alarms, And folds her infant closer in her arms j In some lone cave, secure pavilion, lies, 205 And waits the courtship of serener skies. — So, six cold moons, the Dormouse charm'd to rest, Indulgent Sleep ! beneath thy eider breast, In fields of Fancy climbs the kernel'd groves, Or shares the golden harvest with his loves. 210 Then bright from earth, amid the troubled sky, Ascends fair Colchica with radiant eye, Warms the cold bosom of the hoary year, And lights with Beauty's blaze the dusky sphere. Tulipa. 1. 203. Tulip. What is, in cammon language, called a bulbous- root, is, by Linnxus, termed the Hybernacle, or Winter-lodge of the young plant. As these bulbs, in every respect, resemble buds, except in their being produced under ground, and include the leaves and flower in miniature, which are to be expanded in the ensuing spring. By cautiously cutting, in winter, through the concentric coats of a tulip-root, longitudinally from the top to the base, and taking them oif successively, the whole flower of the next summer's tulip is beautifully seen by the naked eye, with its petals, pistil, and stamens ; the flowers exist in other bulbs in the same manner as in Hya- cinths ; but the individual flowers of these being less, they are not so easily dissected, or so conspicuous to the naked eye. In the seeds of the Nymphaea Nelumbo, the leaves of the plant are seen so distinctly, that Mr. Ferber found out by them to what plant the seeds belong- ed. Amxn. Acad. V. vi. No. 120. He says, that Mariotte first observed the future flower and foliage in the bulb of a tulip ; and adds, that it is pleasant to see in the buds of the Hepatica and Pedicularis hirsuta, yet lying in the earth ; and in the gems of Daphne Mezereon ; and at the base of Os- munda Lunaria, a perfect plant of the future year, complete in all its parts. Ibid. Colchicum auturtxnale. 1. 212. Autumnal Meadow saffron. Six males. three females. The germ is buried within the root, which thus seems to con- stitute a part of the flower. Families of Plants, p. 242. These singular flowers appear in the autumn without any leaves ; whence, in some countries, they are called Naked Ladies : in the March following the green leaves spring up, and in April the seed-vessel rises from the ground ; the seeds ripen in May, contrary to the usual habits of vegetables which flower in the spring and ripen their seeds in the autumn. Miller's Diet. The juice of the root of this plant is so acrid as to produce violent effects on the human constitution, ■which also prevents it from being eaten by subterranean insects, and thus 24 BOTANIC GARDEN. Canto I. Three blushing Maids the intrepid Nymph attend, And six gay Youths, enamour'd train ! defend. So shines with silver guards the Georgian star, And drives on Night's blue arch his glittering car ; Hangs o'er the billowy clouds^his lucid form, Wades through the mist, and dences in the storm. 220 " Great Helianthus guides o'er twilight plains In gay solemnity his Dervise-trains ; Marshall'd in Jives each gaudy band proceeds, Each gaudy band a plumed Lady leads ; With zealous step he climbs the upland lawn, And bows in homage to the rising dawn ; Imbibes with eagle eye the golden ray, And watches, as it moves, the orb of day. u Queen of the marsh, imperial Drosera treads Rush-fringed banks, and moss-embroider'd beds ; 230 guards the seed-vessel during the winter. The defoliation of deciduous trees is announced by the flowering of the Colchicum ; of these the ash is the lasr that puts forth its leaves, and the first that loses them. Phil. Bot. p. 276. The Hamamelis, Witch Hazel, is another plant which flowers in autumn; when the leaves fell off, the flowers come out in clusters from the joints of the branches, and in Virginia ripen their seed in the ensuing spring, but in this country their seeds seldom ripen. Lin. Spec. Plant. Miller's Diet. Helianthus. 1 221. Sun-flower. The numerous florets, which constitute the disk of this flower, contain in each five males surrounding one female ; the five stamens have their anthers connected at top ; whence the name of the class " Confederate Males:" see note on Chondrilla. The sun-flower fol- lows the course of the sun by nutation, not by twisting its stem. (Hale's Veg. Stat.) Other plants, when they are confined in a room, turn the shin- ing surface of their leaves, and bend their whole branches to the light. See Mimosa. A plumed Lady leads. I. 224. The seeds of many plants of this class are furnished with a plume, by which admirable mechanism, they are dissemi- nated by the winds far from their parent stem, and look like a shuttlecock, as they fly. Other seeds are disseminated by animals ; of these some attach themselves to their hair or feathers by a gluten, as mislcto ; others by hooks, as cleavers, burdock, hounds'-tongue ; and others are swallowed whole for the sake of the fruit, and voided uninjured, as the hawthorn, juniper, and some grasses. Other seeds again disperse themselves by means of an clastic seed- vi set, as oats, geranium, and impatiens; and the seeds of aquatic plants, md I those which grow on the banks of rivers, are carried man} miles by th« currents, into which they fall. See Impatiens, Zostera, Cassia, Carlina Drfisera. 1.229. Sun-dew. Five males, live females. The leaves marsh-plant are pm Canto I. LOVES OF THE PLANTS. 25 Redundant folds of glossy silk surround Her slender waist, and trail upon the ground ; Five sister-nymphs collect with graceful ease, Or spread the floating purple to the breeze ; And Jive fair youths with duteous love comply 235 With each soft mandate of her moving eye. As with sweet grace her snowy neck she bows, A zone of diamonds trembles round her brows j Bright shines the silver halo, as she turns ; And, as she steps, the living lustre burns. 240 " Fair Lonicera prints the dewy lawn, And decks with brighter blush the vermil dawn * tions. And, which is curious, at the point of every thread of this erect fringe stands a pellucid drop of mucilage, resembling an earl's coronet. This mucus is a secretion from certain glands, and, like the viscous material round the flower-stalks of Silene (catchfly), prevents small insects from infesting the leaves. As the ear-wax in animals seems to be in part designed to prevent fleas and other insects from getting into their ears. See Silene. Mr. Wheat- ly, an eminent surgeon in Cateaton-street, London, observed these leaves to bend upwards, when an insect settled on them, like the leaves of the Mus- cipula Veneris, and pointing all their globules of mucus to the centre, that they completely entangled and destroyed it. M. Broussonet, in the Mem. de l'Acad. des Sciences, for the year 1784, p. 615, after having described the motion of the Dionaea, adds, that a similar appearance has been observed in the leaves of two species of Drosera. Lonicera. 1. 241. Caprifolium, Honeysuckle. Five males, one female. Nature has, in many flowers, used a wonderful apparatus to guard the nec- tary, or honey-gland, from insects. In the honeysuckle the petal terminates in a long tube, like a cornucopias, or horn of plenty ; and the honey is pro- duced at the bottom of it. In Aconitum, monks-hood, the nectaries stand upright, like two horns covered with a hood, which abounds with such acrid jnatter that no insects penetrate it. In Helleborus, hellebore, the many necta- ries are placed in a circle like little pitchers, and add much to the beauty of the flower. In the columbine, Aquilegia, the nectary is imagined to be like the neck and body of a bird, and the two petals standing upon each side to represent wings ; whence its name of columbine, as if resembling a nest of young pigeons fluttering whilst their parent feeds them. The importance of the nectary in the economy of vegetation, is explained at large in the notes on. part the first. Many insects are provided with a long and pliant proboscis, for the pur- pose of acquiring this grateful food, as a variety of bees, moths, and butter- flies ; but the Sphinx Convolvuli, or unicorn moth, is furnished with the most remarkable proboscis in this climate. It carries it rolled up in concen- tric circles under its chin, and occasionally extends it to above three inches in length. This trunk consists of joints and muscles, and seems to have more versatile movements than the trunk of the elephant ; and near its termination is split into two capillary tubes. The excellence of this contrivance for rob-, bing the flowers of their honev, keeps this beautiful insect fat and bulky, Part II. D 26 BOTANIC GARDEN. Part IL Winds round the shadowy rocks, and pansied vales, And scents with sweeter breath the summer-gales ; With artless grace and native ease she charms, 24-5 And bears the horn of plenty in her arms-. Five rival swains their tender cares unfold, And watch with eye askance the treasured gold. " Where rears huge Tenerif his azure crest y Aspiring Drab a builds her eagle nest; 250 Her pendant eyry icy caves surround, Where erst Volcanos mined the rocky ground. Pleased round the Fair four rival Lords ascend The shaggy steeps, truo menial vouths attend. High in the setting ray the beauty stands, 25£ And her tall shadow waves on distant lands, " Oh! stay, bright habitant of air, alight, Celestial Vise a, from thy angel-flight ! — though it flies only in the evening, when the flowers have closed their petals, and are thence more difficult of access ; and, at the same time, the brilliant colours of the moth contribute to its safety, by making it mistaken by the late sleeping birds for the flower it rests on. Besides these, there is a curious contrivance attending the Ophrvs, com- monly called the Bee-orchis, and the Fly-orchis, with some kinds of the Del- phinium, called Bee-larkspurs, to preserve their honey ; in these the nectary and petals resemble, in form and colour, the insects which plunder them ; and thus it may be supposed, they often escape these hourly robbers, by having the appearance of being pre-occupicd. See note on Rubia, and Con- ferva Polymorpha, and on Epidendrum. Draba. 1. 250. Alpina. Alpine Witlow-grass. One female and six males. Four of these males stand above the other two ; whence the name of the class " four powers." I have observed in several plants of this class, that the two lower males arise, in a few days after the opening of the flower, to the same height as the other four, not being mature as soon as the higher ones. See note on Gloriosa. All the plants of this class possess similar vir- tues; they are termed acrid and antiscorbutic in their raw states, as mustard, watercress ; when cultivated and boiled, they become a mild wholesome food, as cabbage, turnip. There was formerly a volcano on the Peak of Tenerif, which became extinct about the year 1684. Philos. Trans. In many excavations of the mountain, much below the summit, there is now found abundance of ice at all seasons. Tench's Expedition to Botany-Bay, p. 12. Are these congela- tions in consequence of the daily solution of the hoar-frost, which is produced on the summit during the night ? Viscum. 1. 258. Misletoe. Two houses. This plant never grows upon '.he ground ; the foliage is yellow, *nd the berries milk-white: the berries are Canto I. LOVES OF THE PLANTS. 27 —Scorning the sordid soil, aloft she springs, Shakes her white plume, and claps her golden wings ; 260 High o'er the fields of boundless ether roves, And seeks amid the clouds her soaring loves f " StretchM on her mossy couch, in trackless deeps, Queen of the corol groves, Zostera sleeps ; The silvery sea-weed matted round her bed, 265 And distant surges murmuring o'er her head.— High in the flood her azure dome ascends, The crystal arch on crystal columns bends ; Roof'd with translucent shell the turrets blaze, And far in ocean dart their colour'd rays ; 270 O'er the white floor successive shadows move, As rise and break the ruffled waves above.— Around the nymph her mermaid-trains repair, And weave with orient pearl her radiant hair; so viscous as to serve for bird-lime ; and when they fall, adhere to the branches of the tree on which the plant grows, and strike root into its bark, or are car- ried to distant trees by birds. The Tillandsia, or wild pine, grows on other trees, like the misletoe, but takes little or no nourishment from them, having large buckets in its leaves to collect and retain the rain-water. See note on Dypsacus. The mosses, which grow on the bark of trees, take much nourish- ment from them ; hence it is observed, that trees which are annually cleared from moss by a brush, grow nearly twice as fast. (Philos. Trans.) In the cider countries the peasants brush their apple-trees annually. See Epidendrum. Zostera. 1. 264. Grass-wrack. Class, Feminine Males. Order, many Males It grows at the bottom of the sea, and, rising to the surface when in flower, covers many leagues; and is driven, at length, to the shore. During its time of floating on the sea, numberless animals live on the under surface of it; and, being specifically lighter than the sea-water, or being repelled by it, have legs placed, as it were, on their backs, for the purpose of walking under it, as the Scylloea. See Barbut's Genera Vermium. It seems necessary that the marriages of plants should be celebrated in the open air, either because the powder of the anther, or the mucilage on the stigma, or the reservoir of honey, might receive injury from the water. Mr. Needham observed, that in the ripe dust of every flower, examined by the microscope, some vesicles are perceived, from which a fluid had escaped; and that those which still retain it, explode if they be wetted, like an eolo- pile suddenly exposed to a strong heac. These observations have been ve- rified by Spallanzani and others. Hence rainy seasons make a scarcity of -grain, or hinder its fecundity, by bursting the pollen before it arrives at the moist stigma of the flower. Spallanzani's Dissertations, vol. ii. p. 321. Thus the flowers of the male Vallisneria are produced under water, and, when ripe, detach themselves from the plant, and, rising to the surface, are wafted by the air to the female flowers. See Vallisneria. «fl BOTANIC GARDEN. Part II. With rapid fins she cleaves the watery way, %T5 Shoots like a silver meteor up to dav ; Sounds a loud conch, convokes a scaly band, Her sea-born lovers, and ascends the strand. " E'en round the pole the flames of Love aspire, And icy bosoms feel the secret fire !— 280 Cradled in snow, and fann'd by arctic air, Shines, gentle Barometz ! thy golden hair ; Rooted in earth each cloven hoof descends. And round and round her flexile neck she bends ; Crops the grey coral moss, and hoary thyme, 285 Or laps with rosy tongue the melting rime ; Eyes with mute tenderness her distant dam, Or seems to bleat, a Vegetable Lamb. > — So, warm and buoyant in his oily mail, Gambols on seas of ice the unwieldy Whale ; 290 Barometz. 1. 282. Polypodium Barometz. Tartarian Lamb. Clandes- tine Marriage. This species of Fern is a native of China, with a decumbent root, thick, and every where covered with the most soft and dense wool, intensely yellow. Lin. Spec. Plant. This curious stem is sometimes pushed out of the ground in its horizontal situation, by some of the inferior branches of the root, so as to give it some jresemblance to a Lamb standing on four legs; and has been said to destroy all other plants in its vicinity. Sir Hans Sloane describes it under the name of Tartarian Lamb, and has given a print of it. Philos. Trans, abridged, vol. ii. p. 646 ; but thinks some art had been used to give it an animal appear- ance. Dr. Hunter, in his edition of the Terra of Evelyn, has given a more curious print of it, much resembling a sheep. The down is used in India ex- ternally for stopping hemorrhages, and is called golden moss. The thick downy clothing of some vegetables seems designed to protect them from the injuries of cold, like the wool of animals. Those bodies which are bad conductors of electricity, are also bad conductors of heat, as glass, wax, air. Hence, either of the two former of these may be melted by the flame of a blow-pipe very near the fingers which hold it, without burn- ing them ; and the last, by being confined on the surface of animal bodies, in the interstices of their fur or wool, prevents the escape of their natural ■warmth ; to which should be added, that the hairs themselves arc imperfect conductors. The fat or oil of whales, and other northern animals, seems de- signed for the same purpose of preventing the too sudden escape ot the heat of the body in cold climates. Snow protects vegetables which are covered by it from cold, both because it is a bad conductor of heat itself, and con- tains much air in its pores. If a piece of camphor bo immersed in a snow- ball, except one extremity of it, on setting fire to this, as the snow melts, the ■water becomes absorbed into the surrounding snow by capillary attraction ; on this account, when living animals are buried in snow, they arc not mois- tened by it ; but the cavity enlarges as the snow dissolves, affording ther.t both a dry and warm habitation. J?/,- c 7 r, ■(/„/:. S6 BOTANIC GARDEN. Part It E'en Beauty pleads in vain with smiles and tears, Nor Flattery's self can pierce his pendant ears. Two Sister-Nymphs to Ganges' flowery brink Bend their light steps, the lucid water drink, 230 Wind through the dewy rice, and nodding canes, (As eight black Eunuchs guard the sacred plains,) With playful malice watch the scaly brood, And shower the inebriate berries on the flood. — Stay in your crystal chambers, silver tribes ! 235 Turn your bright eyes, and shun the dangerous bribes ; The tramel'd net with less destruction sweeps Your curling shallows, and your azure deeps ; With less deceit, the gilded fly beneath, Lurks the fell hook unseen, — to taste is death ! 240 — Dim your slow eyes, and dull your pearly coat, Drunk on the waves your languid forms shall float, On useless fins in giddy circles plav, And Herons and Otters seize you for their prey.— So, when the Saint from Padua's graceless land 245- In silent anguish sought the barren strand, High on the shatter'd beech sublime he stood, Still'd with his waving arm the babbling flood ; " To Man's dull ear," he cry'd, " I call in vain, " Hear me, ye scaly tenants of the main !" — 250 Misshapen Seals approach in circling flocks, In dusky mail the Tortoise climbs the rocks, Torpedoes, Sharks, Rays, Porpus, Dolphins, pour Their twinkling squadrons round the glittering shore; With tangled fins, behind, huge Phocse glide, 255 And Whales and Grampi swell the distant tide. Then kneel'd the hoary Seer, to Heaven address'd His fiery eyes, and smote his sounding breast ; 7w> Sistcr-Kyvifi/js. 1.229. Menispermum, Cocculus. Indian berry. Two boil es, twelve Mies. In the female flower there arc two styles and eight filaments without anthers on their summits; which are called by Linna-us, eunuchs. Seethe note on Curcuma. The berry intoxicates fish. St. An- Padua, when the people refused to hear him, preached to the fish, and converted them. Addison's Travels in Italy. Canto II. LOVES OF THE PLANTS. 5? " Bless ve the Lord !" with thundering voice he cry'd, ** Bless ye the Lord !" the bending shores reply'd ! 260 The winds and waters caught the sacred word, And mingling echoes shouted " Bless the Lord !" The listening shoals the quick contagion feel, Pant on the floods, inebriate with their zeal, Ope their wide jaws, and bow their slimy heads, 265 And dash with frantic fins their foamy beds. Sopha'd on silk, amid her charm-built towers, Her meads of asphodel, and amaranth bowers, Where Sleep and Silence guard the soft abodes, In sullen apathy Papaver nods. 270 Faint o'er her couch in scintillating streams Pass the thin forms of Fancy and of Dreams ; Froze by enchantment on the velvet ground, Fair youths and beauteous ladies glitter round ; On crystal pedestals they seem to sigh, 275 Bend the meek knee, and lift the imploring eye. —And now the Sorceress bares her shrivel'd hand, And circles thrice in air her ebon wand ; Flush'd with new life descending statues talk, The pliant marble softening as they walk : 280 With deeper sobs reviving lovers breathe, Fair bosoms rise, and soft hearts pant beneath ; With warmer lips relenting damsels speak, And kindling blushes tinge the Parian cheek ; To viewless lutes aerial voices sing, 285 And hovering loves are heard on rustling wing. — She waves her wand again ! — fresh horrors seize Their stiffening limbs, their vital currents freeze ; Papaver. L 270. Poppy. Many males, many females. The plants of this class are almost all of them poisonous ; the finest opium is procured by wounding the heads of large poppies with a three-edged knife, and tying muscle-shells to them to catch the drops. In small quantities it exhilarates the mind, raises the passions, and invigorates the body: in large ones it is succeeded by intoxication, languor, stupor, and death. It is customary in India for a messenger to travel above a hundred miles without rest or food, except an appropriated bit of opium for himself, and a larger one for his horse at certain stages. The emaciated and decrepid appearance, with the ridiculous and idiotic gestures of the opium-eaters in Constantinople, is well described in the Memoirs of Baron de Tott. "Part II. H 08 BOTANIC GARDEN. Part II. By each cold nymph her marble lover lies, And iron slumbers seal their glassy eyes. 290 So with his dread Caduceus Hermes led From the dark regions of the imprison'd dead, Or drove in silent shoals the lingering train To Night's dull shore, and Pluto's drear}' reign. So with her waving pencil Crewe commands 295 The realms of Taste, and Fancy's fairy lands ; Calls up with magic voice the shapes, that sleep In Earth's dark bosom, or unfathom'd deep j That, shrined in air, on viewless wings aspire, Or, blazing, bathe in elemental fire. 300 As with nice touch her plastic hand she moves, Rise the fine forms of Beauties, Graces, Loves J Kneel to the fair enchantress, smile or sigh, And fade or flourish, as she turns her eye. Fair Cista, rival of the rosy dawn, 305 Call'd her light choir, and trod the dewy lawn ; Hail'd with rude melodv the new-bom May, As cradled yet in April's lap she lay. So •mizh her waving pencil. 1. 295. Alluding to the many beautiful paintings by Miss Emma Chewe, to whom the author is indebted for the very elegant Frontispiece, where Flora, at play with Cupid, is loading him with garden- tools. Cistus labdaniferus. 1.305. Many males, one female. The petals of this beautiful and fragrant shrub, as well as of the CEnothera, tree-primrose, and others, continue expanded but a few hours, falling oil" about noon, or soon af- ter, in hot weather. The most beautiful flowers of the Cactus grandiflorus, (see Cerea) are of equally short duration, but have their existence in the night. And the flowers of the Hibiscus trionum are said to continue but a single hour. The courtship between the males and females in these flowers might be easily watched ; the males are said to approach and recede from the fe- males alternately. The flowers of the Hibiscus sinensis, mutable rose, live in the West-Indies, their native climate, but one day ; but have this remarkable property, they are white at their first expansion, then change to deep red, and become purple as they decay. The gum or resin of this fragrant vegetable is collected from extensive un- derwoods of it in the East by a singular contrivance. Long leathern thongs arc tied to poles and cords, and drawn over the tops of these shrubs about noon ; which thus collect the dust of the anthers, which adheres to the lea- ther, and is occasionally scraped oil'. Thus, in some degree, is the manner imitated, in which the bee collects on his thighs and legs the same material for the construction of his combs. Canto II. LOVES OF THE PLANTS, & I " Born in yon blaze of orient sky, " Sweet May ! thy radiant form unfold ; 310 " Unclose thy blue voluptuous eye, " And wave thy shadowy locks of gold. II. " For thee the fragrant zephyrs blow, " For thee descends the sunny shower; " The rills in softer murmurs flow, 315 " And brighter blossoms gem the bower. III. " Light graces dress'd in flowery wreaths, " And tiptoe Joys their hands combine ; " And love his sweet contagion breathes, " And laughing dances round thy shrine. -320 IV. u Warm with new life, the glittering throngs, " On quivering fin and rustling wing, " Delighted join their votive songs, " And hail thee Goddess of the Spring." O'er the green brinks of Severn's oozy bed, S2i In changeful rings, her sprightly troops she led ; Pan tripp'd before, where Eudness shades the mead. And blew with glowing lip his sevenfold reed ; Emerging Naiads swell'd the jocund strain, And aped with mimic step the dancing train. — * 3SQ " I faint, I fall !" — at noon the Beauty cried, " Weep o'er my tomb, ye Nymphs !"— and sunk, and died. — Thus, when white Winter o'er the shivering clime Drives the still snow, or showers the silver rime ; As the lone shepherd o'er the dazzling rocks 355 Prints his steep step, and guides his vagrant flocks ; Views the green holly yeil'd in net-work nice, Her vermil clusters twinkling in the ice ; Admires the lucid vales, and slumbering floods, Suspended cataracts, and crystal woods, 340 Sevenfold reed. 1. 328. The sevenfold reed, with which Pan is frequently ^escribed, seems to indicate, that he was the inventor of the musical gamut. so BOTANIC GARDEN. Part Iv» Transparent towns, with seas of milk between, And eves with transport the refulgent scene : f f breaks the sunshine o'er the spangled trees, Or flits on tepid wing the western breeze, In liquid dews descends the transient glare, 3±5 And all the glittering pageant melts in air. Where Andes hides his cloud-wreath'd crest in snow, And roots his base on burning sands below , Cinchona, fairest of Peruvian maids, To Health's bright Goddess in the breezv glades, 350 On Quito's temperate plain an altar rear'd, Trill'd the loud hymn, the solemn prayer preferr'd : Each balmy bud she cull'd, and honey'd flower, And hung with fragrant wreaths the sacred bower ; Each pearly sea she search'd, and sparkling mine, 355 And piled their treasures on the gorgeous shrine ; Her suppliant voice for sickening Loxa raised, Sweet breathed the gale, and bright the censor blazed. — " Divine Hygeia ! on thy votaries bend " Thy angel-looks, oh, hear vis, and defend! 3GO " While streaming o'er the night with baleful glare " The star of Autumn rays his misty hair ; " Fierce from his fens the giant Ague springs, il And wrapp'd in fogs descends on vampire wings ; ** Before, with shuddering limbs cold Tremor reels, 365 *" And Fever's burning nostril dogs his heels } " Loud claps the grinning Fiend his iron hands, " Stamps with black hoof, and shouts along the lands , " Withers the damask check, unnerves the strong, " And drives with scorpion-lash the shrieking throng. 370 " Oh, Goddess ! on thy kneeling votaries bend " Thy angel-looks, oh, hear us, and defend!" —Hygeia, leaning from the blest abodes, The crystal mansions of the immortal gods, Cinchona. 1. 349. Peruvian bavk-tree. Five males and one female. Several of these trees were felled for other purposes into a lake, when an epidemic fever of a very mortal kind prevailed at Loxa, in Pern, and the woodmen accidentally drinking the waicr, were cured ; and thus were discovered the virtue:; of this famous dru£. Canto II. LOVES OF THE PLANTS. 61 Saw the sad Nymph uplift her dewy eyes, 375 Spread her white arms, and breathe her fervid sighs ; Call'd to her fair associates, Youth and Joy, And shot all radiant through the glittering sky ; Loose waved behind her golden train of hair, Her sapphire mantle swam diffused in air. — 380 O'er the grey matted moss, and pansied sod, With step sublime the glowing Goddess trod, Gilt with her beamy eye the conscious shade, And with her smile celestial bless'd the maid. ^ Come to my arms," with seraph voice she cries, 385 " Thy vows are heard, benignant Nymph ! arise ; " Where yon aspiring trunks fantastic wreath " Their mingled roots, and drink the rill beneath, " Yield to the biting axe thy sacred wood, " And strew the bitter foliage on the flood." 390 In silent homage bow'd the blushing maid, — Five youths athletic hasten to her aid, O'er the scar'd hills re-echoing strokes resound, And headlong forests thunder on the ground. Round the dark roots, rent bark, and shatter'd boughs, 395 From ocherous beds the swelling fountain flows ; With streams austere its winding margin laves, And pours from vale to vale its dusky waves. i — rAs the pale squadrons, bending o'er the brink, View with a sigh their alter'd forms, and drink ; 400 Slow-ebbing life with refluent crimson breaks O'er their wan lips, and paints their haggard cheeks ; Through each fine nerve rekindling transports dart, Light the quick eye, and swell the exulting heart. — Thus Israel's heaven-taught chief o'er trackless sands 405 Led to the sultry rock his murmuring bands. Bright o'er his brows the forky radiance blazed, And high in air the rod divine he raised. — t Wide yawns the cliff! — amid the thirsty throng Rush the redundant waves, and shine along ; 410 With gourds, and shells, and helmets, press the bands, Ope their parch'd lips, and spread their eager hands, Snatch their pale infants to the exuberant shower, Kneel on the shatter'd rock, and bless the Almighty Power* BOTANIC GARDEN. Part IL Bolster'd with down, amid a thousand wants, 415 Pale Drops v rears his bloated form, and pants ; " Quench me, ye cool pellucid rills !" he cries, Wets his parch'd tongue, and rolls his hollow eyes. So bends tormented Tantalus to drink, While from his lips the refluent waters shrink ; 420 Again the rising stream his bosom laves, And thirst consumes him 'mid circumfluent waves. — Divine Hygeia, from the bending sky Descending, listens to his piercing cry ; Assumes bright Digitalis' dress and air, 425 Her ruby cheek, white neck, and raven hair. Four youths protect her from the circling throng, And like the Nymph the Goddess steps along. — O'er him she waves her serpent-wreathed wand, Cheers with her voice, and raises with her hand, 430 Warms with rekindling bloom his visage wan, And charms the shapeless monster into man. So when Contagion with mephitic breath, And wither'd famine urged the work of death ; Marseilles' good Bishop, London's generous Mayor, 435 With food and faith, with medicine and with prayer, Digitalis. I. 425. Of the class Two Powers. Four males, one female Foxglove. The effect of this plant in that kind of Dropsy which is termed anasarca, where the legs and thighs are much swelled, attended with great difficulty of breathing, is truly astonishing. In the ascites, accompanied with anasarca, of people past the meridian of life, it will also sometimes suc- ceed. The method of administering it requires some caution, as it is liable. in greater doses, to induce very violent and debilitating sickness, which con- tinues one or two days, during which time the dropsical collection, however, disappears One large spoonful, or half an ounce, of the following decoc- tion, given twice a day, will generally succeed in a few days. But in more robust people, one large spoonful every two hours, till four spoonfuls arc taken, or till sickness occurs, will evacuate the dropsical swellings with greater certainty, but is liable to operate more violently. Boil four ounces o( tin fresh leaves of purple Foxglove (which leaves may be had at all seasons of the year) from two pints of water to twelve ounces ; add to the strained liquor, while yet warm, three ounces of rectified spirit of wine. A theory or the fffects of this medicine, with many successful eases, may be seen in a pam- phlet, called, " Experiments on Mucilaginous and Purulent Matter," pub- lished by Dr. Darwin in 1780. m' good Bishop. 1.435. In the year 1720 and 1722, the plague made dreadful havock at Marseilles; at which time the Bishop was indefa tigahlfi in the execution of his pastoral office, visiting, relieving, encouraging. Cakto II. LOVES OF THE PLANTS. M Raised the weak head, and stayed the parting sigh, Or with new life relumed the swimming eye. — — And now, Philanthropy ! thy rays divine Dart round the globe from Zembla to the Line ; 440 O'er each dark prison plays the cheering light, Like northern lustres o'er the vault of night. — From realm to realm, with cross or crescent crown'd. Where'er Mankind and Misery are found, O'er burning sands, deep waves, or wilds of snow, 445 Thy Howard, journeying, seeks the house of woe. Down many a winding step to dungeons dank, Where anguish wails aloud, and fetters clank ; To caves bestrew'd with many a mouldering bone, And cells, whose echoes only leam to groan ; 450 Where no kind bars a whispering friend disclose, No sunbeam enters, and no zephyr blows, He treads, inemulous of fame or wealth, Profuse of toil and prodigal of health ; With soft assuasive eloquence expands . 455 Power's rigid heart, and opes his clenching hands ; Leads stern-eyed Justice to the dark domains, If not to sever, to relax the chains ; Or guides awaken'd Mercy through the gloom, And shows the prison, sister to the tomb ! — 460 Gives to her babes the self-devoted wife, To her fond husband liberty and life ! — > — The spirits of the Good, who bend from high Wide o'er these earthly scenes their partial eye, and absolving the sick with extreme tenderness; and though perpetually ex- posed to the infection, like Sir John Lawrence, mentioned below, they both are said to have escaped the disease. London '&■ generous Mayor : 1.435. During the great plague at London in the year 1665, Sir John Lawrence, the then Lord Mayor, continued the whole time in the city ; heard complaints, and redressed them ; enforced the wisest regulations then known, and saw them executed. The day after the disease was known with certainty to be the plague, above 40,000 servants were dismissed, and turned into the streets to perish, for no one would receive them into their houses; and the villages near London drove them away with pitch-forks and fire-arms. Sir John Lawrence supported them all, as well as the needy who were sick, at first by expending his own fortune, till sub- scriptions could be solicited and received from all parts of the nation, Jour- nal of the Plague-year. Printed fur E. Nutt, Wc. at the Royal JSxchtWge, 1722. 64. BOTANIC GARDEN. Part IL When first, arravM in Virtue's purest robe, 465 They saw her Howard traversing the globe; Saw round his brows her sun-like Glory blaze In arrowy circles of unwearied rays ; Mistook a Mortal for an Angel-Guest, And ask'd what Seraph-foot the earth imprest. 470 — Onward he moves ! — Disease and Death retire, And murmuring Demons hate him, and admire." Here paused the Goddess, — on Hygeia's shrine Obsequious Gnomes repose the lyre divine ; Descending Sylphs relax the trembling strings, 47.1 And catch the rain-drops on their shadowy wings. —And now her vase a modest Naiad fills With liquid crystal from her pebbly rills ; Piles the dry cedar round her silver urn, (Bright climbs the blaze, the crackling faggots burn), 480 Culls the green herb of China's envied bowers, In gaudy cups the steamy treasure pours ; And sweetly smiling, on her bended knee Presents the fragrant quintessence of Tea. INTERLUDE II. Bookseller. JL HE monsters of your Botanic Garden are as surprising as the bulls with brazen feet, and the fire-breathing dragons, which guarded the Hesperian fruit ; yet are they not disgusting, nor mischievous : and in the manner you have chained them together in your exhibition, they succeed each other amusingly enough, like prints of the London Cries, wrapped upon rollers, with a glass before them. In this, at least, the}- resemble the monsters in Ovid's Metamorphoses ; but your similies, I suppose, are Homeric ? Poet. The great Bard well understood how to make use of this kind of ornament in Epic Poetry. He brings his valiant heroes into the field with much parade, and sets them a fight- ing with great fury ; and then, after a few thrusts and parries, he introduces a long string of similies. During this the battle is supposed to continue ; and thus the time necessary for the action is gained in our imaginations, and a degree of proba- bility produced, which contributes to the temporary deception or reverie of the reader. But the similies of Homer have another agreeable charac- teristic ; they do not quadrate, or go upon all fours (as it is called), like the more formal similies of some modem writers ; any one resembling feature seems to be, with him, a sufficient excuse for the introduction of this kind of digression. He then proceeds to deliver some agreeable poetry on this new subject, and thus converts every similie into a kind of short episode. B. Then a similie should not very accurately resemble the subject ? P. No; it would then become a philosophical analogy; it would be ratiocination instead of poetry: it need only so far resemble the subject, as poetry itself ought to resemble nature. It should have so much sublimity, beauty, or novelty, as to interest the reader ; and should be expressed in picturesque language, so as to bring the scenery before his eye; and should, Part II. I 66 INTERLUDE II. lastly, bear so much vcri-similitude as not to awaken him by the violence of improbability or incongruity. B. May not the reverie of the reader be dissipated or dis- turbed by disagreeable images being presented to his imagina- tion, as well as by improbable or incongruous ones? P. Certainly; he will endeavour to rouse himself from a disagreeable reverie, as from the nightmare. And from this may be discovered the line of boundary between the Tragic and the Horrid ; which line, however, will veer a little this way or that, according to the prevailing manners of the age or countiy, and the peculiar association of ideas, or idiosyncracy of mind, of individuals. For instance, if an artist should re- present the death of an officer in battle, by showing a little blood on the bosom of his shirt, as if a bullet had there pene- trated, the dying figure would affect the beholder with pity 9 and if fortitude was at the same time expressed in his coun- tenance, admiration would be added to our pity. On the con- trary, if the artist should choose to represent his thigh as shot away by a cannon ball, and should exhibit the bleeding flesh and shattered bone of the stump, the picture would introduce into our minds ideas from a butcher's shop, or a surgeon's operation room, and we should turn from it with digust. So, if characters were brought upon the stage with their limbs dis- jointed by torturing instruments, and the floor covered with clotted blood and scattered brains, our theatric reverie would be destroyed by disgust, and we should leave the play-house with detestation. The Painters have been more guilty in this respect than the Poets. The cruelty of Apollo in flaying Marsyas alive is a favourite subject with the ancient artists : and the tortures of expiring martyrs have disgraced the modern ones. It re- quires little genius to exhibit the muscles in convulsive action, either by the pencil or the chissel, because the interstices are deep, and the lines strongly defined: but those tender grada- tions of muscular action, which constitute the graceful attitudes of the body, are difficult to conceive or to execute, except by a master of nice discernment and cultivated taste. B. By what definition would you distinguish the Horrid from the Tragic ? P. I suppose the latter consists of Distress attended with INTERLUDE II. 67 Pity, which is said to be allied to Love, the most agreeable of all our passions ; and the former, in Distress, accompanied with Disgust, which is allied to Hate, and is one of our most disagreeable sensations. Hence, when horrid scenes of cru- elty are represented in pictures, we wish to disbelieve their ex- istence, and voluntarily exert ourselves to escape from the de- ception : whereas the bitter cup of true Tragedy is mingled with some sweet consolatory drops, which endear our tears, and we continue to contemplate the interesting delusion with a de- light which is not easy to explain. B. Has not this been explained by Lucretius, where he describes a shipwreck, and says, the spectators receive plea- sure from feeling themselves safe on land ? and by Akenside, in his beautiful poem on the Pleasures of Imagination, who ascribes it to our finding objects for the due exertion of our passions ? P. We must not confound our sensations at the contem- plation of real misery with those which we experience at the isenical representations of tragedy. The spectators of a ship- wreck may be attracted by the dignity and novelty of the object ; and from these may be said to receive pleasure ; but not from the distress of the sufferers. An ingenious writer, who has criticised this dialogue in the English Review, for August, 1 789, adds, that one great source of our pleasure from scenical dis- tress arises from our, at the same time, generally contemplat- ing one of the noblest objects of nature, that of Virtue trium- phant over difficulty and oppression, or supporting its votary under every suffering: or, where this does not occur, that our minds are relieved by the justice of some signal punish- ment awaiting the delinquent. But, besides this, at the exhi- bition of a good tragedy, we are not only amused by the dig- nity, and novelty, and beauty, of the objects before us, but, if any distressful circumstances occur too forcibly for our sensi- bility, we can voluntarily exert ourselves, and recollect, that the scenery is not real ; and thus not only the pain, which we had received from the apparent distress, is lessened, but a new source of pleasure is opened to us, similar to that which we frequently have felt on awaking from a distressful dream: we are glad that it is not true. We are, at the same time, unwilling to relinquish the pleasure which we receive from the other tfB INTERLUDE II. interesting circumstances of the drama ; and, on that account, quickly permit ourselves to relapse into the delusion ; and thus alternatelv believe and disbelieve, almost every moment, the existence- of the objects represented before us. B. Have those two sovereigns of poetic land, Homer and Shakespeare, kept their works entire from the Horrid? — or even yourself, in your third Canto ? P. The descriptions of the mangled carcases of the com- panions of Ulysses, in the cave of Polypheme, is, in this re- spect, certainly objectionable, as is well observed by Scaliger. And in the play of Titus Andronicus, if that was written by Shakespeare (which, from its internal evidence, I think very improbable), there are many horrid and disgustful circumstan- ces. The following Canto is submitted to the candour of the critical reader, to whose opinion I shall submit in silence. BOTANIC GARDEN. LOVES OF THE PLANTS, CANTO III. AND now the Goddess sounds her silver shell, And shakes with deeper tones the enchanted dell ; Pale, round her grassy throne, bedew'd with tears, Flit the thin forms of Sorrows, and of Fears j Soft sighs, responsive, whisper to the chords, And Indignations half-unsheath their swords. " Thrice round the grave Circe a prints her tread, And chaunts the numbers which disturb the dead ; Circaa. 1. 7. Enchanter's Nightshade. Two males, one female. It was much celebrated in the mysteries of witchcraft, and for the purpose of rais- ing the devil, as its name imports. It grovvs amid the mouldering bones and decayed coffins in the ruinous vaults of Sleaford church, in Lincolnshire. The superstitious ceremonies or histories belonging to some vegetables have been truly ridiculous: Thus the Druids are said to have cropped the Misletoe with a golded axe or sickle ; and the Bryony, or Mandrake, was said to utter a scream when its root was drawn from the ground ; and that the animal which drew it up became diseased, and soon died : on which account, when it was wanted Cor the purpose of medicine, it was usual to loosen and remove the earth about the root, and then to tie it, by means of a cord, to a dog's tail, who was whipped to pull it up, and was then supposed to suffer for the impiety of the action. And even at this day bits of dried root of Foeny are rubbed smooth, and strung, and sold under the name of Anodyne ^necklaces, and tied round the necks of children, to facilitate the growth of their teeth : add to this, that in Price's History of Cornwall, a book publish- ed about ten years ago, the Virga Divinatoria, or Divining Rod, has a de- gree of credit given to it. This rod is of hazle, or other light wood, and lield horizontally in the hand, and is said to bow towards the ore when- ever the Conjuror walks over a mine. A very few years ago, in France, and even in England, another kind of divining rod has been used to discover springs of water in a similar manner, and gained some credit. And in this very year, there were many in France, and some in England, who under- went an enchantment without any divining rod at all, and believed thern- jselves to be affected by an invisible agent, which the Enchanter called Ani- mal Magnetism ! 70 BOTANIC GARDEN. Part II. Shakes o'er the holv earth her sable plume, Waves her dread wand, and strikes the echoing tomb ! 10 — Pale shoot the stars across the troubled night, The timorous moon withholds her conscious light ; Shrill scream the famish'd bats, and shivering owls, And loud and long the dog of midnight howls ! — < — Then yawns the bursting ground ! — two imps obscene 15 .Rise on broad wings, and hail the baleful queen ; Each with dire grin salutes the potent wand, And leads the Sorceress with his sooty hand ; Onward they glide, where sheds the sickly yew, O'er many a mouldering bone, its nightly dew ; 20 The ponderous portals of the church unbar, — Hoat-se on their hinge the ponderous portals jar ; As through the colour'd glass the moon-beam falls, Huge shapeless spectres quiver on the walls ; Low murmurs creep along the hollow ground, 25 And to each step the pealing aisles resound ; By glimmering lamps, protecting saints among, The shrines all trembling as they pass along, O'er the still choir with hideous laugh they move, (Fiends yell below, and angels weep above !) 30 Their impious march to God's high altar bend, With feet impure the sacred steps ascend ; With wine unbless'd the holy chalice stain, Assume the mitre, and the cope profane : To heaven their eyes in mock devotion throw, S5 And to the cross with horrid mummery bow ; Adjure by mimic rites the powers above, And plight alternate their Satanic love. " Avaunt, ye Vulgar ! from her sacred groves, With maniac step the Pythian Laura moves ; 4C Lcura. 1. 40. Pninus. Lauro-ccrasus. Twenty males, one female. The Pythian priestess is supposed to have been made drunk with infusion of laurel- leaves when she delivered her oracles. The intoxication or inspiration is finely described by Virgil, Mn, lib. vi. The distilled water from laurel-loaves is, perhaps, the most sudden poison we are acquainted with in this country. I haye Been about two spoonfuls of it destroy a large pointer dog in less than ten minutes. In a smaller dose it is said to produce intoxication : on this ac- count there is reason to believe it acts in the same manner as opium and vin- J I /f///////f//-- Canto III. LOVES OF THE PLANTS. Full of the God her labouring bosom sighs, Foam on her lips, and fury in her eyes, Strong writhe her limbs, her wild dishevell'd hair Starts from her laurel-wreath, and swims in air. — While twenty Priests the gorgeous shrine surround, Cinctured with ephods, and with garlands crown'd, Contending hosts and trembling nations wait The firm immutable behests of Fate ; — She speaks in thunder from her golden throne, With words umviWd, and wisdom not her own. " So on his Nightmare, through the evening fog, Flits the squab Fiend o'er fen, and lake, and bog ; Seeks some love-wilder'd Maid with sleep oppress'-, Alights, and, grinning, sets upon her breast. — Such as of late, amid the murky sky, Was mark'd by Fuseli's poetic eye ; Whose daring tints, with Shakespeare's happiest grace, Gave to the airy phantom form and place. — Back o'er her pillow sinks her blushing head, Her snow-white limbs hang helpless from the bed ; While with quick sighs, and suffocative breath, Her interrupted heart-pulse swims in death. —Then shrieks of captured towns, and widows' tears, Pale lovers stretch'd upon their blood-stain'd biers, The headlong precipice that thwarts her flight, The trackless desert, the cold starless night, And stern-eyed Murderer, with his knife behind, In dread succession agonize her mind. O'er her fair limbs convulsive tremors fleet, Start in her hands, and struggle in her feet : In vain to scream with quivering lips she tries, And strains in palsied lids her tremulous eyes ; ous spirit; but that the dose is not so well ascertained. See note on Tremella. It is used in the Ratifia of the distillers, by which some dram-drinkers have been suddenly killed. One pint of water, distilled from fourteen pounds of black cherry stones bruised, has the same deleterious effect, destroying as suddenly as laurel-water. It is probable Apricot-kernels, Peach-leaves, Wal^ nut-leaves, and whatever possesses the kernel-flavour, may have similar qua- 7Z BOTANIC GARDEN. Part II, In vain she wills to run, fly, swim, walk, creep - T The Will presides not in the bower of Sleep. — On her fair bosom sits the Demon- Ape 7$ Erect, and balances his bloated shape ; Rolls in their marble orbs his Gorgon-eyes, And drinks with leathern ears her tender cries. " Arm'd with her ivory beak, and talon-hands, Descending Fica dives into the sands ; SO Chamber'd in earth, with cold oblivion lies ; Nor heeds ye Suitor-train, your amorous sighs ; Erewhile with renovated beauty blooms, Mounts into air, and moves her leafy plumes. — Where Hamps and Manifold, their cliffs among, 85 Each in his flinty channel winds along ; The Will presides not. 1. 74. Sleep consists in the abolition of all voluntary- power, both over our muscular motions and our ideas; for we neither walk nor reason in sleep. But, at the same time, many of our muscular motions, and many of our ideas, continue to be excited into action in consequence of internal irritations and of internal sensations ; for the heart and arteries con- tinue to beat, and we experience variety of passions, and even hunger and thirst, in our dreams. Hence I conclude, that our nerves of sense are not torpid or inert during sleep ; but that they are only precluded from the per- ception of external objects, by their external organs being rendered unfit to "ransmit to them the appulses of external bodies, during the suspension of the power of volition ; thus the eye-lids are closed in sleep, and, 1 suppose, the tympanum of the ear is not stretched, because they are deprived of the volun- tary exertions of the muscles appropriated to these purposes ; and it is pro- bable something similar happens to the external apparatus of our other organs of sense, which may render them unfit for their office of perception during sleep ; for milk put into the months of sleeping babes occasions them to swal- low and suck ; and, if the eye-lid is a little opened in the day-light by the ex- ertions of disturbed sleep, the person dreams of being much dazzled. See first Interlude. When there arises in sleep a painful desire to exert the voluntary motions, it is called the Nightmare, or Incubus. When the sleep becomes so imper- fect that some muscular motions obey this exertion of desire, people have walked about, and even performed some domestic offices in sleep ; one of these sleep-walkers I have frequently seen: once she smelt of a tube-rose, and sung, and drank a dish of tea in this state; her awaking was always attended with prodigious surprize, and even fear : this disease had daily periods, and seemed to be of the epileptic kind. Ficus indica. 1. 80. Indian Fig-tree. Of the class Polygamy. This large tree rises with opposite branches on all sides, with long edged leaves; each branch emits a slender flexile depending appendage from its summit, like a cord, which roots into the earth, and rises again. Sloan. Hist, of Jamaica Lin. Spec. Plant. See Capri -ficus. Canto III. LOVES OF THE PLANTS. 73 With lucid lines the dusky moor divides, Hum ing to intermix their sister tides : Where still their silver -bosom'd Nymphs abhor The blood-smear 'd mansion of gigantic Thor, — ■ 90 — Erst, fires volcanic in the marble womb Of cloud-wrapp'd Wetton raised the massy dome ; Rocks rear'd on rocks in huge disjointed piles Form the tall turrets, and the lengthen'd aisles ; Broad ponderous piers sustain the roof, and wide 95 Branch the vast rainbow ribs from side to side. While from above descends, in milky streams, One scanty pencil of illusive beams, Suspended crags and gaping gulfs illumes, And gilds the horrors of the deepen'd glooms. 10t> — Here oft the Naiads, as they chanced to play Near the dread Fane on Thor's returning day, Saw from red altars streams of guiltless blood Stain their green reed-beds, and pollute their flood j Heard dying babes in wicker prisons wail, 105 And shrieks of matrons thrill the affrighted Gale ; Gigantic Thor. 1. 90. Near the village of Wetton, a mile or two above Dove-Dale, near Ashburn, in Derb> shire, there is a spacious cavern about the middle of the ascent of the mountain, which still retains the name of Thor's house ; below it is an extensive and romantic cemmon, where the ri- vers Hamps and Manifold sink into the earth, and rise again in Ham gardens, the seat of John Port, Esq. about three miles below. Where these rivers rise again, there are impressions resembling Fish, which appear to be of Jasper bedded in Lime-stone. Calcareous Spars, Shells converted into a kind of Agate, corallines in Marble, ores of Lead, Copper, and Zink, and many strata of Flint, or Chert, and of Toadstone, or Lava, abound in this part of the country. The Druids are said to have offered human sacrifices enclosed in wicker idols to Thor. Thursday had its name from this Deity. The broken appearance of the surface of many parts of this country, with the Swallows, as they are called, or basons on some of the mountains, like volcanic Craters, where the rain-water sinks into the earth; and the numer- ous large stones, which seem to have been thrown over the land by volcanic explosions ; as well as the great masses of Toadstone, or Lava, evince the ex- istence of violent earthquakes at some early period of the world. At this time the channels of these subterraneous rivers seem to have been formed when a. long tract of rocks were raised by the sea flowing in upon the central fires, and thus producing an irresitible explosion of steam ; and when these rocks again subsided, their parts did not exactly correspond, but left a long cavity arched over in this operation of nature. The cavities at Castleton and Buxton, in Derbyshire, seem to have had a similar origin, as well as this cavern termeri Thor's house. See Mr. Whitehurst's and Dr, Hutton's Theories, of the earth. Part II. K 74 BOTANIC GARDEN. Part II. "While from dark caves infernal Echoes mock, And Fiends triumphant shout from every rock ! — So still the Nymphs emerging lift in air Their snow-white shoulders and their azure hair ; 110 Sail with sweet grace the dimpling streams along, Listening the Shepherd's or the Miner's song ; But, when afar they view the giant-cave, On timorous fins they circle on the wave, With streaming eyes and throhbing hearts recoil, 115 Plunge their fair forms, and dive beneath the soil. — Closed round their heads reluctant eddies sink, And wider rings successive dash the brink.— Three thousand steps in sparry clefts they stray, Or seek through sullen mines their gloomy way ; 120 On beds of Lava sleep in coral cells, Or sigh o'er jasper fish, and agate shells. Till, where famed Ilam leads his boiling floods Through flowery meadows and impending woods, Pleased with light spring they leave the dreary night, 125' And 'mid circumfluent surges rise to light ; Shake their bright locks, the widening vale pursue, Their sea-green mandes fringed with pearly dew ; In playful groups by towering Thorp they move, Bound o'er the foaming wears, and rush into the Dove. 130 " With fierce distracted eye Impatiens stands, Swells her pale cheeks, and brandishes her hands, Impatiens. 1. 151. Touch me not. The seed-vessel consists of one cell with five divisions; each of these, when the seed is ripe, on being touched suddenly, folds itself into a spiral form, leaps from the stalk, and disperses the seeds to a great distance by its elasticity. The capsule of the geranium and ihe beard of wild oats are twisted for a similar purpose, and diskxlge their seeds on wet days, when the ground is best fitted to receive them. Hence one of these, with its adhering capsule or beard fixed on a s'and, serves the purpose of an !■ _■ /'.meter, twisting itself more or less according to the mois- ture of the air The awn of barley is furnished with stiff po'nts, which, like the teeth of a saw, are all turned towards one end of it; as this long awn lies upon the. ground, it exten Is itself in the moist air of night, anJ pushes forwards the barleycorn, which it adheres to; in the day it shortens as it dries; and as these points prevent it from receding, it draws up its pointed end ; and thus,, creeping like a worm, will travel many feet from the parent stem. That very ingenious Mechanic Philosopher, Mr. Edgworth, once made on this principle a wooden automaton; its back consisted oi sou Fir-wood, about Canto III. LOVES OF THE PLANTS. JT5 With rage and hate the astonish'd groves alarms, And hurls her infants from her frantic arms. — So when Media left her native soil 13$ Unawed by danger, unsubdued by toil ; Her weeping sire and beckoning friends withstood, And launch'd enamour'd on the boiling flood ; One ruddy boy her gentle lips caress'd, And one fair girl was pillow'd on her breast ; 140 While high in air the golden treasure burns, And Love and Glory guide the prow by turns. But, when Thessalia's inauspicious plain Received the matron-heroine from the main ; While horns of triumph sound, and altars burn, i45 And shouting nations hail their Chief's return ; Aghast, she saw new-deck'd the nuptial bed, And proud Creusa to the temple led; Saw her in Jason's mercenary arms Deride her virtues, and insult her charms j i50 Saw her dear babes from fame and empire torn., In foreign realms deserted and forlorn ; Her love rejected, and her vengeance braved, By him her beauties won, her virtues saved. — « With stern regard she eyed the traitor -king, 155 And felt, Ingratitude! thy keenest sting; u Nor Heaven," she cried, " nor Earth, nor Hell can hold " A Heart abandon'd to the thirst of Gold !" Stamp'd with wild foot, and shook her horrent brow, And call'd the furies from their dens below. 160 i — Slow out of earth, before the festive crowds, On wheels of fire, amid a night of clouds, Drawn by fierce fiends, arose a magic car, Received the Queen, and hovering flamed in air. — * an inch square and four feet long, made of pieces cut the cross way in re- spect to the fibres of the wood, and glued together: it had two feet before,, and two behind, which supported the back horizontally; but were placed with their extremities, which were armed with sharp points of iron, bend- ing backwards. Hence, in moist weather, the back lengthened, and the two foremost feet were pushed forwards ; in dry weather the hinder feet were drawn after, as the obliquity of the points of the feet prevented it from receding. And thus, in a month or two, it walked across the room which it inhabited. Might not this machine be applied as an Hygrometer to some me- teorological purpose ? 76 BOTANIC GARDEN. Part II. As with raised hands the suppliant traitors kneel, 16 J And fear the vengeance they deserve to feel, Thrice with parch'd lips her guiltless bahes she press'd, And thrice she clasp'd them to her tortured breast ; Awhile with white uplifted eyes she stood, Then plunged her trembling poniards in their blood. 1 TO " Go, kiss your sire ! go, share the bridal mirth !" She cry'd, and hurl'd their quivering limbs on earth. Rebellowing thunders rock the marble towers, And red-tongued lightnings shoot their arrowy showers ; Earth yawns ! — the crashing ruin sinks ! — o'er all 175 Death with black hands extends his mighty Pall ; Their mingling gore the Fiends of Vengeance quaff. And Hell receives them with convulsive laugh, " Round the vex'd isles where fierce tornadoes roar, Or tropic breezes sooth the sultry shore, 1 8c What time the eve her gauze pellucid spreads O'er the dim flowers, and veils the misty meads ; Slow o'er the twilight sands or leafy walks, With gloomy dignity Dictamna stalks ; Dktamr.us. 1. 184. Fraxinella. In the still evenings of dry seasons this plant emits an inflammable air or gas, and flashes on the approach of a can- dle. There are instances of human creatures who have taken fire spontane- ously, and been totally consumed. Phil. Trans. The odours of many flowers, so delightful to our sense of smell, as well as the disagreeable scents of others, are owing to the exhalation of their essential oils. These essential oils have greater or less volatility, and are all inflam- mable ; many of them are poisons to us, as those of Laurel and Tobacco ; others possess a narcotic quality, as is evinced by the oil of cloves instantly yelieving slight tooth-achs ; from oil of cinnamon relieving the hiccup : and balsam of Peru relieving the pain of some ulcers. They are all deleterious to certain insects, and hence their use in the vegetable economy being produced in flowers or Jeaves to protect them from the depredations of their voracious enemies. One of the essential oils, that of turpentine, is recommended by M. de Thosse, for the purpose of destroying insects which infect both vege- tables and animals. Having observed that the trees were attacked by multi- tudes of small insects of different colours (pucins ou pucerons), which injured their young branches, he destroyed them all entirely in the following man- lier : he put into a bowl a few handfuls of earth, on which he poured a small quantity of oil of turpentine ; he then beat the whole together with a spa- tula, pouring on it water till it became of the consistence of soup : with this mixture lie moistened the ends of the branches, and both the insects and their rgp;s wire destroyed, and other insects kept aloof by the scent of the turpen- tine. He adds, that he destroyed the fleas of his puppies by once bathing them in warm water, impregnated with oil of turpentine. Mem, d'Agriculr Canto III. LOVES OF THE PLANTS. 77 In sulphurous eddies round die weird dame 185 Plays the light gas, or kindles into flame. If rests the traveller his weary head, Grim Mancinella haunts the mossy bed, Brews her black hebenon, and, stealing near, Pours the curst venom in his tortured ear. — 190 Wide o'er the mad'ning throng Urtica flings Her barbed shafts, and darts her poison'd stings. And fell Lobelia's suffocating breath Loads the dank pinion of the gale with death. tuve, An. l"8r. Tremest. Prmtemp. p. 109. I sprinkled some oil of turper.. tine, by means of a brush, on some branches of a nectarine tree, which was covered with the aphis, but it killed both the insect and the branches : a so- lution of arsenic much diluted did the same. The shops of medicine are sup- plied with resins, balsams, and essential oils; and the tar and pitch, for me- chanical purposes, are produced from these vegetable secretions. Mancine'da. 1. 188. Hippomane. With the milky juice of this tree the Indians poison their arrows ; the dew-drops which fall from it are so caustic as to blister the skin, and produce dangerous ulcers ; whence many have found their death by sleeping under its shade. Variety of noxious plants abound in all countries ; in our own, the deadly nightshade, henbane, hounds-tongue, and many others, are seen in almost every high road, untouched by animals. Some have asked, what is the use of such abundance of poisons? The nau- seous or pungent juices of some vegetables, like the thorns of others, are given them for their defence from the depredations of animals; hence the thorny plants are, in general, wholesome and agreeable food to graniverous animals. See note on Ilex. The flowers or petals of plants are, perhaps, in general, more acrid than their leaves ; hence they are much seldomer earen by insects. This seems to have been the use of the essential oil in the vegetable economy, as observed above, in the notes on Dictamnus and Ilex. The fragrance of plants is thus a part of their defence. These pungent or nauseous juices of vegetables have supplied the science of medicine with its principal materials, such as purge, vomit, intoxicate, &c, Urtica. 1. 191. Nettle. The sting has a bag at its base, and a perforation near its point, exactly like the stings of wasps and the teeth of adders. Hook, Microgr. p. 142. Is the fluid contained in this bag, and pressed through the perforation into the wound made by the point, a caustic essential oil, or a concentrated vegetable acid ? The vegetable poisons, like the animal ones, produce more sudden and dangerous ehects, when instilled into a wound, than when taken into the stomach ; whence the families of Marsi and Psilli, in ancient Rome, sucked the poison, without injury, out of wounds made by vipers, and were supposed to be indued with supernatural powers for this pur- pose. By the experiments related by JBeccaria, it appears, that four or five times the quantity, taken by the mouth, had about equal effects with that in- fused into a wound. The male flowers of the nettle are separate from the fe- male, and the anthers are seen, in fair weather, to burst with force, and to discharge a dust, which hovers about the plant like a cloud. Lobelia. 1. 193. Longiflora. Grows in the West-Indies, and spreads such deleterious exhalations around it, that an oppression of the breast is felt on ap- proaching it a,t many feet distance, when placed in the coiner of a room ov 78 BOTANIC GARDENS Part IL > — With fear and hate they blast the affrighted groves, 195 Yet own with tender care their kindred Loves / — " So, where Palmira, 'mid her wasted plains, Her shatter'd aqueducts, and prostrate fanes, (As the bright orb of breezy midnight pours Long threads of silver through her gaping towers, 200 O'er mouldering tombs, and tottering columns gleams, And frosts her deserts with diffusive beams), Sad o'er the mighty wreck in silence bends, Lifts her wet eyes, her tremulous hands extends.—- If from lone cliffs a bursting rill expands 205 Its transient course, and sinks into the sands ; O'er the moist rock the fell Hyaena prowls, The Leopard hisses, and the Panther growls ; On quivering Aving the famish'd Vulture screams, Dips his dry beak, and sweeps the gushing streams ; 210 With foaming jaws, beneath, and sanguine tongue, Laps the lean Wolf, and pants, and runs along ; Stern stalks the Lion, on the rustling brinks Hears the dread Snake, and trembles as he drinks ; , Quick darts the scaly Monster o'er the plain, 215 Fold, after fold, his undulating train ; And bending o'er the lake his crested brow, Starts at the Crocodile that gapes below. " Where seas of glass with gay reflection smile Round the green coast of Java's palmy isle ; 220 hot-house. Ingenhouz, Exper. on Air, p. 146. Jacquini hort. botanic. Vin- deb. The exhalations from ripe fruit, or withering leaves, are proved much to injure the air in which they are confined ; and it is probable, all those ve- getables which emit a strong scent may do this in a greater or less degree, from the Rose to the Lobelia; whence the unwholesomeness in living perpe- tually in such an atmosphere of perfume as some people wear about their hair, or cany in their handkerchiefs. Either Boevhaave or Dr. Mead have af- firmed, they were acquainted with a poisonous fluid, whose vapour would presently destroy the person who sat near it. And it is well known, that the gas from fomenting liquors, or obtained from lime-stone, will destroy animals immersed in it, as well as the vapour of the Grotto del Cani, near Naples. So, where Palmira. 1. 197. Among the ruins of Palmira, which are dis- persed not only over the plains, but even in the deserts, there is one single colonade above 2600 yards long, the bases of the Corinthian columns of which exceed the height of a man ; and yet this row is only a small part of the re- mains of that one edifice. Volney's Travels. Canto III. LOVES OF THE PLANTS. 79 A spacious plain extends its upland scene, Rocks rise on rocks, and fountains gush between ; Soft zephyrs blow, eternal summers reign, And showers prolific bless the soil, — in vain ! —No spicy nutmeg scents the vernal gales, 225 Nor towering plantain shades the mid-day vales ; No grassy mantle hides the sable hills, No flowery chaplet crowns the trickling rills ; Nor tufted moss, nor leathery lichen creeps In russet tapestry o'er the crumbling steeps. 230 —No step retreating, on the sand impress'd, Invites the visit of a second guest ; No refluent fin the unpeopled stream divides, No revolant pinion cleaves the airy tides ; Nor handed moles, nor beaked worms return, 235 That mining pass the irremeable bourn.— Fierce in dread silence on the blasted heath Fell Upas sits, the Hydra-Tree of death. Lo ! from one root, the envenom'd soil below, A thousand vegetative serpents grow, 240 In shining rays the scaly monster spreads O'er ten square leagues his far-diverging heads j Or in one trunk entwists his tangled form, Looks o'er the clouds, and hisses in the storm. Steep'd in fell poison, as his sharp teeth part, 245 A thousand tongues in quick vibration dart ; Snatch the proud Eagle towering o'er the heath, Or pounce the Lion, as he stalks beneath j Upas. 1. 258. There is a poison-tree in the island of Java, which is said, by its effluvia, to have depopulated the country for 12 or 14 miles round the place of its growth. It is called, in the Malayan language, Bohon-Upas; with the juice of it the most poisonous arrows are prepared ; and, to gain this, the condemned criminals are sent to the tree, with proper direction both to get the juice, and to secure themselves from the malignant exhalations of the tree ; and are pardoned if they bring back a certain quantity of the poison. But, by the registers there kept, not one in four are said to return. Not only animals of all kinds, both quadrupeds, fish, and birds, but all kinds of vegetables also, are destroyed by the effluvia of the noxious tree ; so that, in a district of 12 or 14 miles round it, the face of the earth is quite barren! and rocky, intermixed only with the skeletons of men and animals, affording a scene of melancholy beyond what poets have described or painters deline- ated. Two younger trees of its own species are said to grow near it. See London Magazine for 1784 or 1783. Translated from a description of the poison-tree of the island of Java, written in Dutch, by N. P. Foersch, For a further account of it, see a note at the end of the work. SO BOTANIC GARDEN. Ram II. Or strew, as marshall'd hosts contend in vain, With human skeletons the whiten'J plain. 250 — Chain'd at liis foot two scion-demons dwell, Breathe the faint hiss, or try the shriller yell ; Rise, fluttering in the air on callow wings, And aim at insect-prey their little stings. So Time's strong arms widi sweeping scythe erase 255 Art's cumberous works, and empires, from their base: While each young Hour its sickle fine employs, And crops the sweet buds of domestic joys ! " With blushes bright as morn fair Orchis charms, And lulls her infant in her fondling arms ; 260 Orchis. I. 259. The Orchis morio, in the circumstance of the parent-root shrivelling up and dying, as the young one increases, is not only analogous tu tither tuberous or knobby roots, but also to some bulbous roots, as the tulip. The manner of the production of herbaceous plants from their various peren- nial roots, seems to want further investigation, as their analogy is not yet clearly established. The caudex, or true root, in the orchis, lies above the knob ; and from this part the fibrous roots and the new knob are produced. In the tulip the caudex lies below the bulb ; from whence proceed the fibrous roots and the new bulbs: the root, after it has flowered, dies like the orchis- root ; for the stem of the last year's tulip lies on the outside, and not in the centre of the bulb ; which, I am informed, does not happen in the three or four first years when raised from seed, when it only produces a stem, and slender leaves without flowering. In the tulip-root, dissected in the early spring, just before it begins to shoot, a perfect flower is seen in its centre ; and between the first and second coat the large next year's bulb is, I believe, produced ; between the second and third coat, and between this and the fourth coat, and perhaps further, other less and less bulbs are visible, all adjoin- ing to the caudex at the bottom of the mother bulb ; and which, I am told, require as many years before they will flower as the number of the coats with which they are covered. This annual re-production of the tulip-root induces some florists to believe that tulip-roots never die naturally, as they lose so few of them ; whereas the hyacinth-roots, I am informed, will not last above five or seven years after they have flowered. The hyacinth-root differs from the tulip-root, as the stem of the last year's flower is al a ays found in the centre of the root, and the new offsets arise from the caudex below the bulb, but not beneath any of the concentric coats of the root, except the external one ; hence Mr. Eaton, an ingenious florist of Der- by, to whom I am indebted for most of the observations in this note, con- cludes, that the hyacinth-root does not perish annually after it has flowered '■ike the tulip. Mr. Eaton gave me a tulip-root which had been set too deep in She earth, and the caudex had elongated itself near an inch, and the new bulb was tunned above the old one, and detached from it, instead of adhering tu Us side. See additional notes to Part I. No. XIV. The caudex of the ranunculus, cultivated by the florists, lies above the claw* . in this the old root or claws die annually, like the tulip and orchil, and tl i.<-v. claws, which are seen above the old ones, draw down the cau- said to happen to S Canto III. LOVES OF THE PLANTS. 81 Soft plays Affection round her bosom's throne, And guards his life, forgetful of her own. So wings the wounded deer her headlong flight, Pierced by some ambush'd archer of the night, Shoots to the woodlands with her bounding fawn, 265 And drops of blood bedew the conscious lawn ; There, hid in shades, she shuns the cheerful day, Hangs o'er her young, and weeps her life away. " So stood Eliza on the wood-crown'd height, O'er Minden's plain, spectatress of the fight : €7"0 Sought with bold eye amid the bloody strife Her dearer self, the partner of her life ; From hill to hill the rushing host pursued, And vicw'd his banner, or believed she view'd. Pleased with the distant roar, with quicker tread 275 Fast by his hand one lisping boy she led ; And one fair girl amid the loud alarm Slept on her 'kerchief, cradled by her arm ; While round her brows bright beams of Honour dart, And Love's warm eddies circle round her heart. 280 i — Near and more near the intrepid Beauty press'd, Saw through the driving smoke his dancing crest ; Saw on his helm, her virgin-hands inwove, Bright stars of gold, and mystic knots of love ; Heard the exulting shout, " they run ! they run !" 285 " Great God !" she cried, " he's safe ! the battle's won !" — A ball now hisses through the airy tides, (Some Furj' wing'd it, and some Demon guides !) Parts the fine locks her graceful head that deck, Wounds her fair ear, and sinks into her neck ; 290 The red stream, issuing from her azure veins, Dyes her white veil, her ivory bosom stains.— — " Ah me !" she cried, and, sinking on the ground, Kiss'd her dear babes, regardless of the wound ; bit, and some other plants, as valerian and greater plantain ; the new fibrous roots rising round the caudex above the old ones, the inferior end of the root becomes stumped, as if cut off, after the old fibres are decayed, and the caudex is drawn down into the earth by these new roots. Se« Arum and Tulipa. Part IL L an BOTANIC GARDEN. Part II. w Oh, cease not vet to beat, thou Vital Urn ! " Wait, gushing Life, oh, wait my Love's return ! — " Hoarse barks the wolf, the vulture screams from far ! — " The angel, Pity, shuns the walks of war ! — " Oh, spare, ye War-hounds, spare their tender age ! — M On me, on me," she cried, •* exhaust your rage !" — 300 Then with weak arms her weeping babes caress'd, And, sighing, hid them in her blood-stain'd vest. " From tent to tent the impatient warrior flies, Fear in his heart, and frenzv in his eyes ; Eliza's name along the camp he calls, 305 Eliza echoes through the canvass walls ; Quick through the murmuring gloom his footsteps tread 0*er groaning heaps, the dying and the dead, Vault o'er the plain, and in the tangled wood, Lo ! dead Eliza weltering in her blood ! — 310 — Soon hears his listening son the welcome sounds, With open arms and sparkling eyes he bounds : — " Speak low," he cries, and gives his little hand, " Eliza sleeps upon the dew-cold sand ; " Poor weeping babe with bloody fingers press'd, 3 1 J " And tried with pouting lips her milkless breast ; " Alas ! we both with cold and hunger quake — " Why do you weep ? — Mamma will soon awake." ->— u She'll wake no more !" the hopeless mourner cried, Upturn'd his eyes, and clasp'd his hands, and sigh'd ; 320 Stretch'd on the ground awhile entranced he lay, And press'd warm kisses on the lifeless clay; And then upsprung with wild convulsive start, And all the Father kindled in his heart ; " Oh, Heavens !" he cried, " my first rash vow forgive? 325 " These bind to earth, for these I pray to live !" — Round his chill babes he wrapp'd his crimson vest, And clasp'd them sobbing to his aching breast. " Two Harlot-Nymphs, the fair Cuscutas, please With labour'd negligence, and studied ease ; 330 Cusaita. 1.329. Dodder. Four males, two females. This parasite plant (the seed splitting without cotyledons) protrudes a spiral boJ>, and not endea- Canto III. LOVES OF THE PLANTS. 8.8 In the meek garb of modest worth disguised, The eye averted, and the smile chastised, With sly approach they spread their dangerous charms, And round their victim wand their wiry arms. So by Scamander when Laocoon stood, 335 Where Troy's proud turrets glitter'cl in the flood, Raised high his arm, and with prophetic call, To shrinking realms announced her fated fall ; WhhTd his fierce spear with more than mortal force, And pierced the thick ribs of the echoing horse ; 340 Two Serpent-forms incumbent on the main, Lashing the white waves with redundant train, Arch'd their blue necks, and sbook their towering crests, And plough'd their foamy way with speckled breasts ; Then, darting fierce amid the affrighted throngs, 345 Roll'd their red eyes, and shot their forked tongues,— ? vouring to root itself in the earth, ascends the vegetables in its vicinity, spi- rally W. S. E. or contrary to the movement of the sun ; and absorbs its nou- rishment by vessels apparently inserted into its supporters. It bears no leaves, except here and there a scale, very small, membraneous, and close under t,he branch. Lin. Spec. Plant, edit, a Reichard, vol. i. page 352. The Rev. T. Martyn, in his elegant letters on botany, adds, that, not content with sup- port, where it lays hold, there it draws its nourishment; and at length, in gratitude for all this, strangles its entertainer. Letter xv. A contest for air and light obtains throughout the whole vegetable world ; shrubs rise above herbs, and, by precluding the air and light from them,, injure or destroy them ; trees suffocate or incommode ^hrubs ; the parasite climbing plants, as Ivy, Clematis, incommode the taller trees; and other parasites which exist without having roots on the ground, as Misletoe, Tillandsia, Epidendrum, and the mosses and funguses, incommode them all. Some of the plants with voluble stems ascend other plants spirally east- south-west, as Humulus, Hop, Lonicera, Honey-suckle, Tamus, black Bry- ony, Helxine. Others turn their spiral stems west-south-east, as Convolvu- lus, Corn-bind, Phaseolus, Kidney-bean, Basella, Cynanche, Euphorbia, Eu- patorium. The proximate or final causes of this difference have not been in- vestigated. Other plants are furnished with tendrils for the purpose of climbing ; if the tendril meets with nothing to lay hold of in its first revolu- tion, it makes another revolution ; and so on till it wraps itself quite up like a cork-screw: hence, to a careless observer, it appears to move gradually back- wards and forwards, being seen sometimes pointing eastward and sometimes westward. One of the Indian grasses, Panicum arborescens, whose stem is no thicker than a goose-quill, rises as high as the tallest trees in this contest for light and air. Spec. Plant, a Reichard, vol. i. p. 161. The tops of many climbing plants are tender from their quick growth ; and, when deprived of their acrimony by boiling, are an agreeable article of food. The Hop-tops are in common use. I have eaten the tops of white Bryony, Bryonia alba, and found them nearly as grateful as Asparagus, and think this plant might be profitably cultivated as an early garden-vegetable.- The Tamus (called black. Bryony) was less agreeable to the taste when boiled. See Galanthus. 84 BOTANIC GARDEN. Part II. — Two daring youths to guard the hoary sire, Thwart their dread progress, and provoke their ire. Round sire and sons the scaly monsters roll'd, Ring above ring, in many a tangled fold, 35< Close and more close their writhing limbs surround, And fix with foamy teeth die envenom'd wound. — With brow upturn'd to heaven, the holy Sage In silent agony sustains their rage ; While each fond youth, in vain, with piercing cries, 355 Bends on the tortured Sire his dying eyes. " Drink deep, sweet youths," seductive Vitis cries, The maudlin tear-drop glittering in her eyes ; Green leaves and purple clusters crown her head, And the tall Thyrsus stays her tottering tread. 360 — Five hapless swains, with soft assusive smiles, The harlot meshes in her deathful toils ; " Drink deep," she carols, as she waves in air The mantling goblet, " and forget your care." — O'er the dread feast malignant Chemia scowls, 365 And mingles poison in the nectar' d bowls ; Fell Gout peeps, grinning, through the flimsy scene, And bloated Dropsy pants behind unseen ; Wrapp'd in his robe white Lepra hides his stains, And silent Frenzy, writhing, bites his chains. 3 TO " So when Prometheus braved the Thunderer's ire, Stole from his blazing throne ethereal fire, Vitk. 1 357. Vine. Five males, one female. The juice of the ripe grape is a nutritive and agreeable food, consisting chiefly of sugar and mucilage. The chemical process of fermentation converts this sugar into spirit; converts food into poison! And it lias thus become the curse of the Christian world, producing more than half of <>ur chronical diseases ; which Mahomet ( bserved, and forbade the use of it to his disciples. The Arabians invented distillation ; and thus, by obtaining the spirit of fermented liquors in a less diluted state, added to its destructive quality. A theory of the Diabetes and Dropsy, pro- duced by drinking fermented or spirituous liquors, is explained in a Treatise on the inverted Motions of the Lymphatic System, published by Dr Darwin. Pronwtbrus. 1.371. The ancient story of Prometheus, who concealed iii hia bosom the fire he had stolen, and afterwprds bad a vulture perpetually knawing his liver, affords so apt an allegory for the effects of drinking spiri- •-^ous liquors, that one should be induced to think the art of distillation, as well Canto III. LOVES OF THE PLANTS. And lantern'd in his breast, from realms of day Bore the bright treasure to his Man of clay ; — High on cold Caucasus by Vulcan bound, The lean impatient Vulture fluttering round, His writhing limbs in vain he twists and strains To break or loose the adamantine chains. The gluttonous bird, exulting in his pangs, Tears his swoln liver with remorseless fangs. The gentle Cyclamen, with dewy eye, Breathes o'er her lifeless babe the parting sigh ; And, bending low to earth, with pious hands Inhumes her dear departed in the sands, " Sweet Nursling ! withering in thy tender hour, " Oh, sleep," she cries, " and rise a fairer flower !" — So when the Plague o'er London's gasping crowds Shook her dank wing, and steer'd her murky clouds ; When o'er the friendless bier no rites were read, No dirge slow-chaunted, and no pall out-spread ; While Death and Night piled up the naked throng, And Silence drove their ebon cars along ; Six lovely daughters, and their father, swept To the throng'd grave Cleone saw, and wept ; as some other chemical processes (such as calcining gold), had been known in times of great antiquity, and lost again. The swallowing drams cannot be better represented in hieroglyphic language than by taking lire into one's bo- som ; and certain it is, that the general effect of drinking fermented or spiritu- ous liquors is an inflamed schirrous, or paralytic liver, with its various criti- cal or consequential diseases, as leprous eruptions on the face, gout, dropsy, epilepsy, insanity. It is remarkable, that all the diseases from drinking spi- rituous or fermented liquors are liable to become hereditary, even to the third generation, gradually increasing, if the cause be continued, till the family be- comes extinct. Cyclamen. 1.381. Shew-bread, or Show -bread. When the seeds are ripe the stalk of the flower gradually twists itself spirally downwards till it touches the ground, and, forcibly penetrating the earth, lodges its seeds, which are thought to receive nourishment from the parent root, as they are said not to be made to grow in any other situation. The Trifolium subterraneum, subterraneous trefoil, is another plant which buries its seeds, the globular head of the seed penetrating the earth; which, however, in this plant, may be only an artempt to conceal its seeds from the ravages of birds ; for there is another trefoil, the Trifolium Globosum, or glo- bular woolly-headed trefoil, which has a curious manner of concealing its seeds; the lower florets only have corols, and are fertile; the upper ones wither into a kind of wool, and, forming a head, completely conceal the fertile calyxes. Lin. Spec Plant, a Reichard. 86 BOTANIC GARDEN. Part II. Her tender mind, with meek Religion fraught, 395 Drank, all-resign'd, Affliction's bitter draught; Alive, and listening to the whisper'd groan Of others' woes, unconscious of her own ! — One smiling hoy, her last sweet hope, she warms, Hush'd on her bosom, circled in her arms 400 Daughter of woe! ere morn, in vain caress'd, Clung the cold babe upon thy milkless breast, With feeble cries thy last sad aid required, Stretch'd its stiff limbs, and on thv lap expired ! — — Long with wide eye-lids, on her child she gazed, 405 And long to Heaven their tearless orb she raised ; Then with quick foot and throbbing heart she found Where Chartreuse open'd deep his holy ground ; I3ore her last treasure through the midnight gloom, And, kneeling, dropp'd it in the mighty tomb : 410 4i I follow next!" the frantic mourner said, And, living, plunged amid the festering dead, u Where vast Ontario rolls his brmeless tides, And feeds the trackless forests on his sides, Fair Cassia, trembling, hears the howling woods, 415 And trusts her tawny children to the floods. — Where Chartreuse. I. 408. During the plague in London, 1665, one pit to receive the dead was dug in the Charter-house, 40 feet long, 16 feet wide, and about 20 feet deep; and in two weeks received 1114 bodies. During this dreadful calamity there were instances of mothers carrying their own children to those public graves, and of people delirious, or in despair from the loss of their friends, who threw themselves alive into these pits. Jour- nal of the Plague-year in 1665, printed for E. Nutt, Royal Exchange. Rolls his brineless tides. 1. 413. Some philosophers have believed that the continent of America was not raised out of the great ocean at so early a pe- riod of time as the other continents. One reason for this opinion was, be- cause the great lakes, perhaps nearly as large as the Mediterranean Sea, con- sist of fresh water. And, as the sea-salt stems to have its origin from the destruction of vegetable and animal bodies, washed down by rains, and carried by rivers into lakes or seas, it would seem that this source of sea-salt had not so long existed in that country. There is, however, a more satisfactory way of explaining this circumstance; which is, that the American lakes lie above i'the ocean, and are hence perpetually desalited by the rivers which ■ un hrough them ; which is not the case with the Mediterranean, into which a current fn m the main ocean perpetually passes. 11 i. T n mal ;, one f« male. 1 he .seeds are black, the stamens This is one of the American fruits which are annual I) thrown ts of Norway: and are frequently in so recent a state as t< vege- Cite, whei i The fruit of the anaciudium, cashew-nut; Canto III. LOVES OF THE PLANTS. 87 Cinctured with gold, while ten fond brothers stand, And guard the beauty on her native land ; Soft breadu-s the gale, the current gently moves, And bears to Norway's coasts her infant loves. 420 oFcucuibi:a lagenaria, bottle-gourd ; of the mimosa scandens, cocoons ; of the piscidia erythrina, logwood-tree ; and cocoa-nuts are enumerated by Dr. Tonaing (Amxn. Acad. 149), amongst these emigrant seeds. The fact is truly wonderful, and cannot be accounted for but by the existence of tinder Currents in the depths of the ocean ; or from vortexes of water passing from one country to another through caverns of the earth. Si Hans SI ane has given an account of four kinds of seeds, which are frequently thrown by the sea upon the coasts of the islands of the northern pans of Scotland. Phil. Trans, abridged, vol. iii. p. 540. Which seeds arc natives of the West-Indies, and seem to be brought thither by the Gulf- stream described below. One of these is called, by Sir H. Sloane, Phaseolu-r, maximus perennis, which is often thrown also on the coasts of Kerry, in Ireland; another is called, in Jamaica, Horse-eye-bean ; and a third is called Nikcr, in Jamaica. He adds, that the Lemicula marina, or Sargosso, grows on the rocks about Jamaica, is carried by the winds and current towards the toasts of Florida, and thence into the North- American ocean, where it lies very thick on the surface of the sea. Thus a rapid current passes from the Gulf of Florida to the N. E. along the coast of North- America, known to seamen by the name of the Gulf- Stream. A chart of this was published by Dr. Franklin in 1768, from the information principally of Captain Folger. This was confirmed by the inge- nious experiments of Dr. Blaguen, published in 1781; who found that the water of the Gulf-stream was from six to eleven degrees warmer than the wa'er of the sea through which it ran ; which must have been occasioned by its being brought from a hotter climate. He ascribes the origin of this cur- rent to the power of the trade-winds, which, blowing always in the same di- rection, curry the waters of the Atlantic ocean to the westward, till they are stopped by the opposing continent on the west of the Gulf of Mexico, and arc thus accumulated there, and run down the Gulf of Florida. Phil. Trans, vol. Ixxi. p. 335. Governor Pownal has given an elegant map of this Gulf- stream, tracing it from the Gulf of Florida, northward, as far as Cape-Sable, in Nova-Scotia, and then across the Atlantic ocean to the coast of Africa, between the Canary islands and Senegal, increasing in breadth, as it runs, till it occupies rive or six degrees of latitude. The Governor likewise ascribes this current to the force of the trade-winds protruding the waters westward, till they are opposed by the continent, and accumulated in the Gulf of Mex- ico. He very ingeniously observes, that a great eddy must be produced in the Atlantic ocean, between this Gulf-stream and the westerly current protruded by the tropical winds; and in this eddy are found the immense fields of float- ing vegetables, culled Saragosa weeds, and Gulf weeds, and some light- woods, which circulate in these vast eddies, or are occasionally driven out of them by the winds. Hydraulic and Nautical Observations, by Governor Pow- nal, \7'37. Other currents are mentioned by the Governor in this ingenious work, as those in the Indian Sea, northward of the line, which are ascribed to the influence of the Monsoons. It is probable that, in process of time, the narrow tract of land on the west of the Gulf of Mexico, may be worn away by this elevation of water dashing against it, by which this immense current would cease to exist, and a wonderful change take place in the Gulf of Mex- ico and West-Indian islands, by the subsiding of the sea, which might pro- bably lay all those islands into one, or join them to the comment. 88 BOTANIC GARDEN. — So the sad mother, at the noon of night, From Woody Memphis stole her silent flight ; Wrapp'd her dear babe beneath her folded vest, And clasp'd the treasure to her throbbing breast, With soothing whispers hush'd its feeble crv, 425 Pressed the soft kiss, and breathed the secret sigh. — — With dauntless step she seeks the winding shore, He ars unappall'd the glimmering torrents roar ; With Paper-flags a floating cradle weaves, And hides the smiling boy in Lotus-leaves ; 430 Gives her white bosom to his eager lips, The salt-tears mingling with the milk he sips ; Waits on the red-crown'd brink with pious guile, And trusts the scalv monsters of the Nile. — — Erewhile, majestic, from his lone abode, 435" Embassador of Heaven, the Prophet trod ; Wrench'd the red scourge from proud Oppression's hands, And broke, curst Slaver} 7 ! thy iron bands. Hark ! heard ye not that piercing cry, Which shook the waves and rent the sky ? — 440 E'en now, e'eri now, on yonder Western shores Weeps pale Despair, and writhing Anguish roars : E'en now in Afric's groves with hideous yell Fierce Slavery stalks, and slips the dogs of hell; From vale to vale the gathering cries rebound, 445 And sable nations tremble at the sound ! — Ye bands of Senators! whose suffrage sways Britannia's realms, whom either Ind obeys ; Who right the injured, and reward the brave, Stretch your strong arm, for ye have power to save I 450 Throned in the vaulted heart, his dread resort, Inexorable Conscience holds his court; With still small voice the plots of Guilt alarms, Bares his mask'd brow, his lifted hand disarms ; But, wrapp'd in night with terrors all his own, 455 He speaks in thunder, when the deed is done. Hear him t ye Senates ! hear this truth sublime, " He t who allows Oppression, shares the crime" Canto III. LOVES OF THE PLANTS. 89 " No radiant pearl, which crested Fortune wears, No gem, thut twinkling hangs from Beauty's ears, 460 Not the bright stars, which Night's blue arch adorn, Nor rising suns that gild the vernal mom, Shine with such lustre as the tear that flows Down Virtue's manly cheek for others' woes." Here ceased the Muse, and dropp'd her tuneful shell, 465 Tumultuous woes her panting bosom swell; O'er her flush'd cheek her gauzy veil she throws, Folds her white arms, and bends her laurel'd brows ; For human guilt awhile the Goddess sighs, And human sorrows dim celestial eyes, 470 Part II. M INTERLUDE III. Boohe/lcr. 1 OETRY has been called a sister-art both to Painting and to Music : I wish to know what are the particu- lars of their relationship ? Poet. It has been already observed, that the principal part of the language of poetry consists of those words which are expressive of the ideas, which we originally receive by the or- gan of sight ; and, in this, it nearly, indeed, resembles paint- ing ; which can express itself in no other way, but by exciting the ideas or sensations belonging to the sense of vision. But besides this essential similitude in the language of the poetic pen and pencil, these two sisters resemble each other, if I may so say, in many of their habits and manners. The painter, to produce a strong effect, makes a few parts of his picture large, distinct, and luminous, and keeps the remainder in shadow, or even beneath its natural size and colour, to give eminence to the principal figure. This is similar to the common manner of poetic composition, where the subordinate characters are kept down, to elevate and give consequence to the hero or he- roine of the piece. In the south aisle of the cathedral church at Lichfield, there is an ancient monument of a recumbent figure ; the head and neck of which lie on a roll of matting, in a kind of niche or cavern in the wall ; and about five feet distant horizontally, in another opening or cavern in the wall, are seen the feet and ankles, with some folds of garment, lying also on a matt ; and though the intermediate space is a solid stone-wall, yet the imagination supplies the deficiency, and the whole figure seems to exist before our eyes. Does not this resemble one of the arts both of the painter and the poet ? The former often shows a muscular arm amidst a groupe of figures, or an impassioned face ; and, hiding the remainder of the body behind other ob- jects, leaves the imagination to complete it. The latter, de- 92 INTERLUDE III. scribing a single feature or attitude in picturesque words, pro- ducts before the mind an image of the whole. I remember seeing a print, in which was represented a shrivelled hand, stretched through an iron grate, in the stone floor of a prison-yard, to reach at a mess of porrage, which affected me with more horrid ideas of the distress of the pri- soner in the dungeon below, than could have been, perhaps, produced by an exhibition of the whole person. And, in the foil -wing beautiful scenery from the Midsummer-night'? Dream (in which I have taken the liberty to alter the place of a comma), the description of the swimming step and prominent belly bring the w r hole figure before our eyes with the distinct* ness of reality. When we have laugh'cl to see the sails conceive, And grow big-bellied with the wanton wind ; Which she with pretty and with swimming gate, Following her womb (then rich with my young squire), Would imitate, and sail upon the land. There is a third sister-feature, which belongs both to the pictorial and poetic art; and that is, the making sentiments and passions visible, as it were, to the spectator : this is done in both arts by describing or pourtraying the effects or changes which those sentiments or passions produce upon the bodv. At the end of the unaltered play of Lear, there is a beautiful example of poetic painting : the old King is introduced as dy- ing from grief for the loss of Cordelia : at this crisis, Shakes- peare, conceiving the robe of the King to be held together by a clasp, represents him as only saying to an attendant courtier, in a faint voice, " Pray, Sir, undo this button, — thank you. Sir," and dies. Thus, by the art of the poet, the oppression at the bosom of the dying King is made visible, not described in words. B. What are the features in which these sister-arts do not resemble each other? P. The ingenious Bishop Berkeley, in his Treatise on Vision, a work of great ability, has evinced, that the colours which we see, are only a language suggesting to our minds the ideas of solidity and extension, which we had before received by th'; INTERLUDE III. 9£ tense of touch. Thus, when we view the trunk of a tree, our eye can onlv acquaint us with the colours or shades; and from the previous experience of the sense of touch, these suggest to us the cylindrical form, with the prominent or depressed Wrinkles on it. From hence it appears, that there is the strictest analogy between colours and sounds ; as they are both but languages, which do not represent their correspondent ideas, but only suggest them to the mind, from the habits or associa- tions of previous experience. It is, therefore, reasonable to conclude, that the more artificial arrange incuts of these two languages, by the poet and the painter, bear a similar analog}-. But, in one circumstance, the pen and the pencil differ widely from each other ; and that is, the quantity of time which they can include in their respective representations. The former can unravel a long series of events, which may constitute the history of days or years ; while the latter can exhibit only the actions of a moment. The poet is happier in describing sue* cessive scenes; the painter in representing stationary ones: both have their advantages. Where the passions are introduced, as the poet, on one hand, has the power gradually to prepare the mind of his reader by previous climacteric circumstances, the painter, on the other hand, can throw stronger illumination and distinctness on the principal moment or catastrophe of the action ; besides the advantage he has in using an universal language, which can be read in an instant of time. Thus, when a great number of figures are all seen together, supporting or contrasting each other, and contributing to explain or aggrandize the principal effect, we view a picture with agreeable surprize, and contem- plate it with unceasing admiration. In the representation of the sacrifice of Jeptha's daughter, a print done from a paint- ing of Ant. Coypel, at one glance of the eye we read all the interesting passages of the last act of a well-written tragedy ; so much poetry is there condensed into a moment of time. B. Will you now oblige me with an account of the relation- ship between Poetry and her other sister Music ? P. In the poetry of our language I don't think we are to look for any thing analogous to the notes of the gamut ; for, except, perhaps, in a few exclamations or interrogations, we are at liberty to raise or sink our voice an octave or wo at 94 INTERLUDE III. pleasure, without altering the sense of the words, Henee, \i either poetry or prose be read in melodious tones of voice, as is done in recitativo, or in chaunting, it must depend on the speaker, not on the writer : for though words may be selected which are less harsh than others, that is, which have fewer sudden stops, or abrupt consonants amongst the vowels, or with fewer sibilant letters, yet this does not constitute melody, which consists of agreeable successions of notes referable to the gamut ; or harmony, which consists of agreeable combina- tions of them. If the Chinese language has many words of similar articulation, which yet signify different ideas, when spoken in a higher or lower musical note, as some travellers aflirm, it must be capable of much finer effect, in respect to the audible part of poetry, than any language we are acquainted with. There is, however, another affinity in which poetry and music more nearly resemble each other than has generally been un- derstood, and that is in their measure or time. There are but two kinds of time acknowledged in modern music, which are called triple time and common time. The former of these is divided bv bars, each bar containing three crotchets, or a pro- portional number of their subdivisions into quavers and semi- quavers. This kind of time is analogous to the measure of our heroic or iambic verse. Thus the two following couplets are each of them divided into five bars of triple time, each bar consisting of two crotchets and two quavers ; nor can they be divided into bars analogous to common time, without the bars interfering with some of the crotchets, so as to divide them. ."> Soft warbling beaks | in each bright bios | som move, T And vo | cal rosebuds thrill | the enchanted grove. | In these lines there is a quaver and a crotchet alternately m every bar, except in the last, in which the in make two semi- quavers ; the e is supposed, by Grammarians, to be cut off, which any one's ear will readily determine not to be true. :; Life buck or breathes | from Indus to | the | ~ And the | va? INTERLUDE III. 95 In these lines there is a quaver and a crotchet alternately in the first bar ; a quaver, two crotchets, and a quaver, make the second bar. In the third bar there is a quaver, a crotchet, and a rest after the crotchet, that is, after the word poles, and two quavers begin the next line. The fourth bar consists of qua- vers and crotchets alternately. In the last bar there is a qua- ver, and a rest after it, viz. after the word kindles; and then two quavers and a crotchet. You will clearly perceive the truth of this, if you prick the musical characters above mentioned under the verses. The common time of musicians is divided into bars, each of which contains four crotchets, or a proportional number of their subdivisions into quavers and semiquavers. This kind of mu- sical time is analogous to the dactyle verses of our language, the most popular instances of which are in Mr. Anstie's Bath- Guide. In this kind of verse the bar does not begin till after the first or second syllable ; and where the verse is quite com- plete, and written by a good ear, these first syllables, added to the last, complete the bar, exactly, in this also, corresponding with many pieces of music : 2 Yet | if one may guess by the j size of his calf, Sir, 4 He | weighs above twenty-three | stone and a half, Sir. 2 Master | Mamozet's head was not | finish'd so soon, 4 For it j took up the barber a | whole afternoon. In these lines each bar consists of a crotchet, two quavers, another crotchet, and two more quavers ; which are equal to four crotchets, and, like many bars of common time in music, mav be subdivided into two, in beating time without disturbing the measure. The following verses from Shenstone belong likewise te common time: 2 A | river or a sea | *4 Was to him a dish | of tea, And a king | dom bread and butter. The first and second bars consist each of a crotchet, a quaver, a crotchet, a quaver, a crotchet. The third bar consists of a 96 INTERLUDE III. quaver, two crotchets, a quaver, a crotchet. The last bar is not complete tuthout adding the letter A, which begins the first line, and then it consists of a quaver, a crotchet, a quaver, a crotchet, two quavers. It must be observed, that the crotchets in triple time are, in general, played by musicians slower than diose of common time, and hence minuets are generally pricked in triple time, and country dances generally in common time. So the verses above related, which are analogous to triple time, are generally read slower than those analogous to common time; and are thence generally used for graver compositions. I suppose all the different kinds of verses to be found in our odes, which have any measure at all, might be arranged under one or other of these two musical times ; allowing a note or two sometimes to precede the commencement of the bar, and occasional rests, as in musical compositions : if this was attended to by those who set poetry to music, it is probable the sound and sense would oftener coincide. Whether these musical times can be applied to the lvric and heroic verses of the Greek and Latin poets, I do not pretend to determine ; certain it is, that the dactyle verse of our language, when it is ended with a double rhvme, much resembles the measure of Homer and Virgil, except in the length of the lines. B. Then there is no relationship between the other two of these sister-ladies, Painting and Music ? P. There is at least a mathematical relationship, or, per- haps, I ought rather to have said, a metaphysical relation- ship, between them. Sir Isaac Newton has observed, that the breadths of the seven primary colours in the Sun's image, re- fracted by a prism, are proportional to the seven musical notes of the gamut, or to the intervals of the eight sounds contained in an octave, that is, proportional to the following numbers : Sol. La. Fa. Sol. La. Mi. Fa. Sol. Red. Orange. Yellow. Green. Blue. Indigo. Violet. 1 1 1 1 1 1 1 9 1G 10 9 10 16 9 Newton's Optics, Bool: I. part 2. prop. 3 and 6. Dr. Smith, INTERLUDE III. 9f in his Harmonics, has an explanatory note upon this happy discovery, as he terms it, of Newton. Sect. 4. Art. 7. From this curious coincidence, it has been proposed to pro- duce a luminous music, consisting of successions or combina- tions of colours, analogous to a tune in respect to the propor- tions above-mentioned. This might be performed by a strong light, made by means of Mr. Argand's lamps, passing through coloured glasses, and falling on a defined part of a wall, with moveable blinds before them, which might communicate with the keys of a harpsichord, and thus produce, at the same time, visible and audible music in unison with each other. The execution of this idea is said, by Mr. Guyot, to have been attempted by Father Caffel, without much success. If this should be again attempted, there is another curious coincidence between sounds and colours, discovered by Dr. Darwin, of Shrewsbury, and explained in a paper on what he calls Ocular Spectra, in the Philosophical Transactions, vol. Ixxvi. which might much facilitate the execution of it. In this treatise the Doctor has demonstrated, that we see certain co- lours, not Only with greater ease and distinctness, but with relief and pleasure, after having for some time contemplated other certain colours; as green after red, or red after green; orange after blue, or blue after orange ; yellow after violet, or violet after yellow. This, he shows, arises from the ocular spectrum of the colour last viewed coinciding with the irritation of the colour now under contemplation. Now, as the pleasure we receive from the sensation of melodious notes, independent of the previous associations of agreeable ideas with them, must arise from our hearing some proportions of sounds after others more easily, distinctly, or agreeably ; and as there is a coinci- dence between the proportions of the primary colours, and the primary sounds, if the}' may be so called, he argues, that the same laws must govern the sensations of both. In this circum- stance, therefore, consists the sisterhood of Music and Paint- ing ; and hence they claim a right to borrow metaphors from each other; musicians to speak of the brilliancy of sounds, and the light and shade of a concerto ; and painters of the harmony of colours, and the tone of a picture. Thus it is not quite so absurd as was imagined, when the blind man asked if the colour scarlet was like the sound of a trumpet. As the coinci- Part II. N ys INTERLUDE III. dence or opposition of these ocular spectra (or colours which remain in the eye after we have, for some time, contemplated a luminous object), are more easily and more accurately ascer- tained, now their laws have been investigated by Dr. Darwin, than the relicts of evanescent sounds upon the ear, it is to be wished that some ingenious musician would further cultivate this curious field of science : for if visible music can be agree- ably produced, it would be more easy to add sentiment to it, by representations of groves and Cupids, and sleeping Nymphs amid the changing colours, than is commonly done by the words of audible music. B. You mentioned the greater length of the verses of Ho- fner and Virgil. Had not these poets great advantage in the superiority of their languages compared to our own ? P. It is probable, that the introduction of philosophy into a country must gradually affect the language of it ; as philoso- phy converses in more appropriated and abstracted terms ; and thus, by degrees, eradicates the abundance of metaphor, which is used in the more early ages of societv. Otherwise, though the Greek compound words have more vowels, in proportion to their consonants, than the English ones, yet the modes of compounding them are less general, as may be seen by variety of instances given in the preface of the translators, prefixed to the System of Vegetables by the Lichfield Society ; which happv property of our own language rendered that translation of Linnaeus as expressive and as concise, perhaps more so, than the original. And, in one respect, I believe the English language serves the purpose of poetry better than the ancient ones ; I mean in the greater ease of producing personifications ; for as our nouns have, in general,' no genders affixed to them in prose-compo- sitions, and in the habits of conversation, they become easily personified only by the addition of a masculine or feminine pronoun ; as, Tule Melancholy sits, and round far tlirowr, A death-like silence, and a dread repose. Pope's And, secondly, as most of our nouns have the article a or the prefixed to them in prose-writing and in conversation, they, in INTERLUDE III. 99 general, become personified even by the omission of these arti- cles ; as in the bold figure of Shipwreck in Miss Seward's Elegy- on Capt. Cook: But round the steepy rocks and dangerous strand Rolls the white surf, and Shipwreck guards the land. Add to this, that if the verses in our heroic poetry be shorter than those of the ancients, our words likewise are shorter; and, in respect to their measure or time, which has erroneously been called melody and harmony, I doubt, from what has been said above, whether we are so much inferior as is generally believed ; since many passages, which have been stolen from ancient poets, have been translated into our language without losing any thing of the beauty of the versification. The fol- lowing line, translated from Juvenal by Dr. Johnson, is mud} superior to the original : Slow rises Worth by Poverty depress'd. The original is as follows : Difficile emergunt, quorum virtut^bus o,bstat Res angusta domi. B. I am glad to hear you acknowledge the thefts of the modern poets from the ancient ones, whose works, I suppose, have been reckoned lawful plunder in all ages. But have not you bornnved epithets, phrases, and even half a line occasion- all}', from modern poets ? P. It may be difficult to mark the exact boundary of what should be termed plagiarism : where the sentiment and expres- sion are both borrowed without due acknowledgment, there can be no doubt ; — single words, on the contrary, taken from other authors, cannot convict a writer of plagiarism : they are lawful game, wild by nature, the property of all who can cap- ture them ; — and, perhaps, a few common flowers of speech may be gathered, as we pass over our neighbour's enclosure, without stigmatizing us with the title of thieves ; but we must not, therefore, plunder his cultivated fruit. 100 INTERLUDE IIL The four lines at the end of the plant Upas are imitated from Dr. Young s Night Thoughts. The line in the episode adjoined to Cassia, " The salt tears mingling with the milk he sips," is from an interesting and humane passage in Langhorne's Justice of Peace. There are probably many others, which, if I could recollect them, should here be acknowledged. As it is, like exotic plants, their mixture with the native ones, I hope, adds beauty to my Botanic Garden: and such as it is, Mr. Bookseller . I now leave it to you to desire the Ladies and Gentlemen to walk in; but, please to apprize them, that, like the spectators at an unskilful exhibition in some village barn, I hope they will make Good-humour one of their party; and thus theirselve^ supply the defects of the representation. BOTANIC GARDEN. LOVES OF THE PLANTS CANTO IV. Nc i OW the broad Sun his golden orb unshrouds, Flames in the west, and paints the parted clouds ; O'er heaven's wide arch refracted lustres flow, And bend in air the many-colour'd bow.— • —The tuneful Goddess on the glowing sky § Fix'd in mute ecstacy her glistening eye ; And then her lute to sweeter tones she strung, And swell'd with softer chords the Paphian song ; Long aisles of Oaks return'd the silver sound, And amorous Echoes talk'd along the ground ; %Q Pleased Lichfield listen'd from her sacred bowers, Bow'd her tall groves, and shook her stately towers. " Nymph ! not for thee the radiant day returns, Nymph ! not for thee the golden solstice burns, Refulgent Cerea ! — at the dusky hour 15 f5he seeks with pensive step the mountain bower, Pleased Lichfield. 1. 11. The scenery described at the beginning of the first part, or Economy of Vegetation, is taken from a botanic garden about a mile from Lichfield. Cerea. 1. 15. Cactus grandiflorus, or Cereus. Twenty males, one female. This flower is ^ native of Jamaica and Veracruz. It expands a most ex- quisitely beautiful corol, and emits a most fragrant odour for a fevv hours in the night, and then closes to open no more- The flower is nearly a foot in diameter ; the inside of the calyx of a splendid yellow, and the numerous petals of a pure white : it begins to open about seven or eight o'clock in the evening, and closes before sun-rise in the morning. Martyn's Letters, p. 294. The Cistus labdaniferus, and many other flowers, lose their petals after having been a few hours expanded in the day-time ; for in these plants the stigma is sjaon impregnated by ths numerous aethers : in ruany flower: of 102 BOTANIC GARDEN. Part II. Bright as the blush of rising morn, and warms The dull cold eye of midnight with her charms. There to the skies she lifts her pencil'd brows, Opes her fair lips, and breathes her virgin vows ; 20 Eyes the white zenith ; counts the suns that roll Their distant fires, and blaze around the Pole ; Or marks where Jove directs his glittering car O'er heaven's blue vault,-~herself a brighter star. — There as soft zephyrs sweep with pausing airs 25 Thy snowy neck, and part thy shadowy hairs, Sweet maid of night! to Cynthia's sober beams Glows thy warm cheek, thy polish'd bosom gleams. In crowds around thee gaze the admiring swains, And guard in silence the enchanted plains ; 30 Drop the still tear, or breathe the impassion'd sigh, And drink inebriate rapture from thine eye. Thus, when old Needwood's hoary scenes the Night Paints with blue shadow, and with milky light ; Where Mundy pour'd the listening nymphs among, 35 Loud to the echoing vales his parting song ; With measured step the Fairy Sovereign treads, Shakes her high plume, and glitters o'er the meads ; Round each green holly leads her sportive train, And little footsteps mark the circled plain ; 4« Each haunted rill with silver voices rings, And Night's sweet bird in livelier accents sings. the Cistns labdaniferus I observed two or three of the stamens were perpe- tually bent into contact with the pistil. The Nyctanthes, called Arabian Jasmine, is another flower which ex- pands a beautiful corol, and gives out a most delicate perfume during the night, and not in the day, in its native country ; whence its name. Botanical philosophers have not yet explained this wonderful property ; perhaps the plant sleeps during the day, as.some animals do; and its odoriferous glands only emit their fragrance during the expansion of the petals; that is, during its waking hours ; the Geranium tnste has the same property of giving up its fragrance only in the night. The flowers of the Cucmbita lagenaria are said to close when the sun shines upon them. In our climate many flowers, as hag^pogon, and hibiscus, close their flowers before the hottest part of the da;, comes on; and the flowers of some species of cucubalus, and Silene, vis- cous campion, are closed all day; but when the sun leaves them they expand, and emit a very agreeable scent; whence such plants are termed noctitlora. Where Mundy. 1 3.5. Alluding to an unpublished poem by F. N. C. Mundy, Esq en his leaving Needwood-i'oiest. bee the passage in the notes at the end of this volume. Canto IV. LOVES OF THE PLANTS. ios " Ere the bright star, which leads the morning sky, Hangs o'er the blushing east his diamond eye, The chaste Tropjeo leaves her secret bed, 45 A saint -like glory trembles round her head ; Eight watchful swains, along the lawns of night. With amorous steps pursue the virgin light ; O'er her fair form the electric lustre plays, And cold she moves amid the lambent blaze. 50 So shines the glow-flv, when the sun retires, And gems the night-air with phosphoric fires : Thus o'er the marsh aerial lights betray, And charm the unwary wanderer from his way. So when thy King, Assyria, fierce and proud, 55 Three human victims to his idol vow'd ; Rear'd a vast pyre before the golden shrine Of sulphurous coal, and pitch- exuding pine ; — Tropixalum. 1. 45. Majus. Garden Nasturtion, or greater Indian cress, Eight males, one female. Miss E. C Linnaeus first observed the Tropaolum Majus to emit sparks or flashes in the mornings before sun-rise, during the months of June or July, and also during the twilight in the evening, but not after total darkness came on ; these singular scintillations were shown to her father and other philosophers ; and Mr. Wilcke, a celebrated electrician, be- lieved them to be electric. Lin. Spec. Plantar, p. 490. Swedish Acts for the year 1762. Pulteney's View of Linnaeus, p. 220. Nor is tins more wonderful than that the electric eel and torpedo should give voluntary shocks of electricity ; and in this plant, perhaps, as in those animals, it may be a mode, of defence, by which it harasses or destroys the night-flying insects which in- fest it ; and probably it may emit the same sparks during the day, which must be then invisible. This curious subject deserves further investigation. See Dictamnu3. The ceasing to shine of this plant after twilight might in- duce one to conceive, that it absorbed and emitted light, like the Bolognian Phosphorus, or calcined oyster-shells, so well explained by Mr. B. Wilson, and by T. B. Beccari. Exper. on Phosphori, by B. Wilson. Dodsley. The light of the evening, at the same distance from noon, is much greater, as I have repeatedly observed, than the light of the morning: this is owing, 1" suppose, to the phosphorescent quality of almost all bodies, in a greater or less degree, which thus absorb light during the sun-shine, and continue to emit it again for some time afterwards, though not in such quantity as to pro- duce apparent scintillations. The nectary of this plant grows from what is supposed to be the calyx; but this supposed calyx is coloured; and, perhaps, from this circumstance of its bearing the nectary, should rather be esteemed a part of the corol. See an additional note at the end of the poem. So shines the glmu-Jly. 1. 51. In Jamaica, in some seasons of the year, the fire-flies are seen in the evenings in great abundance. When they settle on the ground, the bull-frog greedily devours them ; which seems to have given origin to a curious, though cruel, method of destroying these animals: if red- hot pieces of charcoal be thrown towards them in the dusk of the evening, they leap at them, and, hastily swallowing them, are burnt to death. 104 BOTANIC GARDEN. Part II, — Loud roar the flames, the iron nostrils breathe, And the huge bellows pant and heave beneath j 6& Bright and more bright the blazing deluge flows* And, white with sevenfold heat, the furnace glows. And now the Monarch fix'd with dread surprise Deep in the burning vault his dazzled eyes. "• Lo ! three unbound amid the frightful glare, 63 " UnscorclVd their sandals, and unsinged their hair ! " And now a fourth with seraph-beautv bright *' Descends, accosts them, and outshines the light ! c< Fierce flames innocuous, as they step, retire ! a And slow they move amid a world of fire !" 70 He spoke, — to Heaven his arms repentant spread, And, kneeling, bow'd his gem-incircled head. " Two Sister-Nymphs, the fair Avenas, lead Their fleecy squadrons on the lawns of Tweed ; Pass with light step his wave-worn banks along, 75 And wake his Echoes with their silver tongue ; Or touch the reed, as gentle Love inspires, In notes accordant to their chaste desires* I. " Sweet Echo ! sleeps thy vocal shell, u Where this high arch o'erhangs the dell ; 8(5 Avena. 1. 73. Oat. The numerous families of grasses have all three males, and two females, except Anthoxanthum, which gives the grateful smell to hay, and has but two males. The herbs of this order of vegetables support the countless tribes of graminivorous animals. The seeds of the smaller kinds of grasses, as of aira, poa, briza, stipa, &c. are the sustenance of many sorts of birds. The seeds of the large grasses, as of wheat, barlev, rye, oats, supply food to the human species. It seems to have required mure ingenuity to think of feeding nations of mankind with so small a seed, than with the potatoe of Mexico, or the bread- fruit of the southern islands; hence Cere.-., in Egypt, which was the birth- place of our European arts, was deservedly celebrated amongst their divinities, us well as Osyris, Who invented the Plough. Mr. Wahlborn observes, that as wheat, rye, and many of the grasses, and plantain, lift up their anthers or long filaments, and thus expose the enclosed fecundating dust to be washed away by the rains, a scarcity of corn is pro- duced by wet summers ; hence the necessity of a careful choice of seed-wheat, as that which had not received the dust of the anthers will not grow, though it ma; appear well to the eye. The straw of the oat stems to have been the first musical instrument, invented during tin- pastoral ages of the world, before the discovery of metals. See note on t Canto IV. LOVES OF THE PLANTS. 105 w While Tweed with sun-reflecting streams " Chequers thy rocks with dancing beams ?— II. " Here may no clamours harsh intrude, " No brawling hound or clarion rude ; M Here no fell beast of midnight prowl, &$ " And teach thy tortured cliffs to howl ! III. " Be thine to pour these vales along u Some artless Shepherd's evening song j " While Night's sweet bird, from yon high spray " Responsive, listens to his lay. 90 IV. " And if like me some love-lorn maid " Should sing her sorrows to thy shade, " Oh sooth her breast, ye rocks around ! u With softest sympathy of sound." From ozier bowers the brooding Halcyons peep, 95 The Swans pursuing cleave the glassy deep, On hovering wings the wondering Reed-larks play* And silent Bitterns listen to the lay.— Three shepherd-swains beneath the beechen shades Twine rival garlands for the tuneful maids ; 100 On each smooth bark the mystic love-knot frame^ Or on white sands inscribe the favour'd name* Green swells the beech, the widening knots improve, So spread the tender growths of living love; Wave follows wave, the letter'd lines decay, 105 So Love's soft forms uncultured melt away. " From Time's remotest dawn where China brings In proud succession all her Patriot-Kings ; O'er desert-sands, deep gulphs, and hills sublime, Extends her massy wall from clime to clime ; 11Q With bells and dragons crests her Pagod-bowers, Her silken palaces and porcelain towers ; With long canals a thousand nations laves ; Plants all her wilds, and peoples all her waves j Part II. O 106 BOTANIC GARDEN. Part II. Slow (reads fair Cannabis the breezy strand, 115 The distaff streams dishevell'd in her hand ; Now to the left her ivory neck inclines, And leads in Paphian curves its azure lines ; Dark waves the fringed lid, the warm cheek glows, And the fair ear the parting locks disclose ; 120 Now to the right with airy sweep she bends, Quick join the threads, the dancing spole depends. — Five Swains attracted guard the Nymph, by turns Her grace enchants them, and her beauty burns ; To each she bows with sweet assuasive smile, 12' Hears his soft vows, and turns her spole the while. " So when with light and shade, concordant strife ! Stern Clotho weaves the chequer'd thread of life ; Hour after hour the growing line extends, The cradle and the coffin bound its ends ; 130 Soft cords of silk the whirling spoles reveal, If smiling Fortune turn the giddy wheel ; But if sweet Love with babv-fingers twines, And wets with dewy lips the lengthening lines, Skein after skein celestial tints unfold, 135 And all the silken tissue shines with gold. " Warm with sweet blushes bright Galantha glows, And prints with frolic step the melting snows : Caimabis. 1. 115. Chinese Hemp. Two houses. Five males. A new species of hemp, of which an account is given by K. Fitzgerald, Esq. in a letter to Sir Joseph Banks, and which is believed to be much superior to the hemp of other countries. A few seeds of this plant were sown in England on the 4th of June, and grew to fourteen feet seven inches in height by the middle of October : they were nearly seven inches in circumference, and bore many lateral- branches, and produced very white and tough fibres. At some pans of the time these plants grew nearly eleven inches in a week. Phil, Trans, vol. lxxii. p. 46. Paphian curves 1. 118. In his ingenious work, entitled, The Analysis of Beamy, Mr. Hogarth believes that the triangular glass, which wa. dedicated to Venus, in her temple at Paphos, contained in it a line bending spirally round a cone, with a certain degree of curvature, and that this pyramids! outline and serpentine curve constitute the principles of Grace ami Heauty. Gqtantbus. 1. 137. Nivalis. Snow-drop. Six males, one female. The first (lower that appears after the winter solstice. See Stillingileet's Calcu- dar of Flora. Some snow-drop-roots, taken up in winter, and boiled, had the insipid Canto IV. LOVES OF THE PLANTS. O'er silent floods, white hills, and glittering meads, Six rival swains the playful beauty leads, Chides with her dulcet voice the tardy Spring, Bids slumbering Zephyr stretch his folded wing, Wakes the hoarse Cuckoo in his gloomy cave, And calls the wondering Dormouse from his grave, Bids the mute Redbreast cheer the budding grove, And plaintive Ringdove tune her notes to love. " Spring ! with thy own sweet smile and tuneful tongue, Delighted Bellis calls her infant throng, Each on his reed astride, the Cherub-train Watch her kind looks, and circle o'er the plain ; Now with young wonder touch the sliding snail, Admire his eye-tipp'd horns, and painted mail ; Chase with quick step and eager arms outspread, The pausing Butterfly from mead to mead ; Or twine green oziers with the fragrant Gale, The azure harebel, and the primrose pale, mucilaginous tase of the Orchis, and, if cured in the same manner, would probably make as good salep. The roots of the Hyacinth, I am informed, are equally insipid, and might be used as an article of food. Gmelin, in his History of Siberia, says the Martagon Lily makes a part of the food of that country, which is of the same natural order as the snow-drop. Some roots of Crocus, which I boiled, had a disagreeable flavour. The difficulty of raising the Orchis from seed has, perhaps, been a prin- cipal reason of its not being cultivated in this country as an article of food. It is affirmed, by one of the Linnsan School, in the Amoenit. Academ. that the seeds of Orchis will ripen, if you destroy the new bulb ; and that Lily of the Valley, Convallaria, will produce many more seeds, and ripen them, if the roots be crowded in a garden pot, so as to prevent them from producing many bulbs, vol. vi. p. 120. It is probable either of these methods may succeed with these and other bulbous-rooted plants, as snow-drops, and might render their cultivation profitable in this climate. The root of the asphodelus ramosus, branchy asphodel, is used to feed swine in France ; the starch is obtained from the alstromeria licta. Merr.oires d'Agricult. Bellis prolifera. I. 148. Hen and chicken Daisy. In this beautiful mon- ster not only the impletion, or doubling of the petals, takes place, as described in the note on Alcea, but a numerous circlet of less flowers on peduncles, or foot-stalks, rise from the sides of the calx, and surround the proliferous parent. The same occurs in Calendula, marigold; in Heracium, hawkweed; and in Scabiosa, scabious. Phil- Botan. p. 82. The fragrant Gale. 1. 155. The buds of the Myrica Gale possess an agree- able aromatic fragrance, and might be worth attending to as an article of the Materia Medica. Mr. Sparman suspects, that the green wax-like sub- stance, with which, at certain times of the year, the berries of the Myrica cerifera, or candle-berry Myrtle, are covered, ajre deposited there by insects 108 BOTANIC GARDEN. Part II. Join hand in hand, and in procession gay Adorn with votive wreathes the shrine of May. —So moves the Goddess to the Idalian groves, And leads her gold-hair'd family of Loves. 160 These, from the flaming furnace, strong and bold, Pour the red steel in many a sandy mould ; On tinkling anvils (with Vulcanian art) Turn with hot tongs, and forge the dreadful dart ; The barbed head on whirling jaspers grind, 165 And dip the point in poison for the mind ; Each polish'd shaft with snow-white plumage wing, Or strain the bow reluctant to its string. Those on light pinion twine with busy hands, Or stretch from bough to bough the flower}- bands ; 1 70 Scare the dark beetle, as he wheels on high, Or catch in silken nets the gilded fly ; Call the young Zephyrs to their fragrant bowers, And stay with kisses sweet the Vernal Hours. " Where, as proud Masson rises rude and bleak, 175 And with mishapen turrets crests the Peak, Old Madock gapes with marble jaws, beneath, And o'er scar'd Derwent bends his flint}' teeth ; Deep in wide caves below the dangerous soil Blue sulphurs flame, imprison'd waters boil, ISC- It is used by the inhabitants for making candles, which, he says, burn rather better than those made of tallow. Voyage to the Cape, vol. i. p. o4o. Da Halde gives an account of a white wax, made by small insects, round the branches of a tree in China, in great quantity, which is there collected for medical and economical purposes. The tree is called Tong-tsin. Description of China, vol. i. p. 230. Deep in wide caves. 1. 179. The arguments which tend to show that the warm springs of this country are produced from steam raised by deep sub- terraneous tires, and afterwards condensed between the strata of the moun- tains, appear to me much more conclusive than the idea of their being warmed by chemical combinations near the surface of the earth ; for, tirst, their heat has kept accurately the 6ame, perhaps, for many centuries, certainly as long as we have been possessed of good thermometers ; which cannot be wdl ex- plained, without supposing that they are first in a boiling state. For, as the neat of boiling water is 212, and that of the internal parrs of the earth 48. it is easy to understand, that the steam raised from boiling water, after being condensed in some mountain, and passing from thence through a certain space of the cold earth, must be cooled always to a given degree ; and, it i: Canto IV. LOVES OF TH E PLANTS. 109 Impetuous steams in spiral columns rise Through rifted rocks, impatient for the skies; Or o'er bright seas of bubbling lavas blow, As heave and toss the billowy fires below : Condensed on high, in wandering rills they glide 185^ From Masson's dome, and burst his sparry side ; Round his grey towers, and doAvn his fringed walls, From cliff to cliff, the liquid treasure falls ; In beds of stalactite, bright ores among, O'er corols, shells, and crystals, winds along ; 190 Crusts the green mosses, and the tangled wood, And sparkling plunges to its parent flood. —O'er the warm wave a smiling youth presides, Attunes its murmurs, its meanders guides, (The blooming Fucus) in her sparry coves 195 To amorous Echo sings his secret loves, Bathes his fair forehead in the misty stream, And with sweet breath perfumes the rising steam, — So, erst, an Angel o'er Bethesda's springs, Each morn descending, shook his dewy wings ; 200 probable, the distance from the exit of the spring to the place where the Steam is condensed, might be guessed by the degree of its warmth. 2. In the dry summer of 1780, when all other springs were either dry or much diminished, those of Buxton ana Matlock (as I was well informed on the spot) had suffered no diminution , which proves that the sources of these warm springs are at great depths below the surface of the earth. 3. There are numerous perpendicular fissures in the rocks of Derbyshire, in which the ores of lead and copper are found, and which pass to unknown depths, and might thence aiford a passage to steam from great subterraneous lires. 4. If these waters were heated by the decomposition of pyrites, there would be some chalybeate taste or sulphureous smell in them. See note i» Part I. on the existence of central fires. Fucus. 1. 195. Clandestine marriage. A species of Fucus, or of Conferva, soon appears in all basons which contain water. Dr. Priestley found, that great quantities of pure dephlogisticated air were given up in water at the points of this vegetable, particularly in the sunshine, and that hence it con- tributed to preserve the water in reservoirs from becoming putrid. The mi- nute divisions of the leaves of subaquatic plants, as mentioned in the note on Trapa, and of the gills of fish, seem to serve another purpose besides that of increasing their surface, which has not, I believe, been attended to, and that is, to facilitate the separation of the air, which is mechanically mixed, or chemically dissolved in water, by their points or edges : this appears on im- mersing a dry hairy leaf in water fresh from a pump ; innumerable globules,, like quicksilver, appear on almost every point; fur the extremities of these points attract the particles of water less forcibly than those particles attract 110 BOTANIC GARDEN. Part II. And as his bright translucent form he laves, Salubrious powers enrich the troubled waves. " Amphibious Nymph, from Nile's prolific bed Emerging Trapa lifts her pearly head ; each other; hence the contained air, whose elasticity was but just balanced by the attractive power of the surrounding particles of water to each other, finds, at the point of each fibre, a place where the resistance to its expansion is less ; and, in consequence, it there expands, and becomes a bubble of air. Jt is easy to foresee that the rays of the sunshine, by being refracted, and, in part, reflected by the two surfaces of these minute air-bubbles, must impart to them much more heat than to the transparent water, and thus facilitate their ascent by further expanding them; and that the points of vegetables attract the particles of water less than they attract each other, is seen by the spherical form of dew-drops on the points of grass. See note on Vegetable Respiration, in Part I. Trapa. I. 204 Four males, one female. The lower leaves of this plant grow under water, and are divided into minute capillary ramifications ; while the upper leaves are broad and round, and have air-bladders in their foot- stalk to support them above the surface of the water. As the aerial leaves of vegetables do the office of lungs, by exposing a large surface of vessels, with their contained fluids, to the influence of the air; so these aquatic leaves an- swer a similar purpose, like the gills of fish ; and perhaps gain from water, or give to it a similar material. As the material thus necessary to life seems to abound more in air than in water, the subaquatic leaves of this plant, and of sisymbrium, cenanthe, ranunculus aquatilis, water crowfoot, and some others, are cut into fine divisions to increase the surface ; whilst those above water are undivided. So the plants on high mountains have their upper leaves wore divided, as pimpinella, petroselinum, and others, because here the air is thinner, and thence a larger surface of contact is required. The stream of •water also passes but once along the gills of fish, as it is sconer deprived of its virtue; whereas the air is both received and ejected by the action of the lungs of land animals. The whale seems to be an exception to the above, as he receives water and spouts it out again from an organ, which I suppose to be a respiratory one; and probably the lamprey, so frequent in the month of April both in the Severn and Derwent, inspires and expires water on the seven holes on each side of the neck, which thus perform the office of the gills of other fish. As spring water is nearly of the same degree of heat in all climates, the aquatic plants, which grow in rills or fountains, are found equally in the torrid, temperate, and frigid zones, as water-cress, water-parsnip, ranunculus, and many others. In warmer climates the watery grounds are usefully cultivated, as with rice; and the roots of some aquatic plants are said to have supplied food, as the ancient Lotus in Egypt, which some have supposed to be the Nymphxa. — In Siberia the roots of the Butomus, or flowering rush, are eaten, which is well worth further inquiry, as they grow spontaneously in our ditches and rivers, which at present produce no esculent vegetables; and might thence become an article of useful cultivation. Herodotus affirms, that the Egyptian Lotus grows in the Nile, and resembles a Lily. That the natives dry it in the sun, and take the pulp out of it, which grows like the head of a poppy., and ba^e it for bread. Euterpe. Many grit-stones and coals, which 1 have scen, seem to bear an impression of the roots ol' the Nvmphxa, which art? cft*cn three or lour inches thick, especially the white-flowered one. Canto IV. LOVES OF THE PLANTS. Fair glows her virgin cheek and modest breast, A panoply of scales deforms the rest ; Her quivering f>ns and panting gills she hides, But spreads her silver arms upon the tides ; Slow as she sails, her ivory neck she laves, And shakes her golden tresses o'er the waves. Charm'd round the N}-mph, in circling gambols glide Four Nereid-forms, or shoot along the tide; Now all as one they rise Avith frolic spring, And beat the wondering air on humid wing ; Now all descending plunge beneath the main, And lash the foam with undulating train ; Above, below, they wheel, retreat, advance, Iri air and ocean weave the mazy dance ; Bow their quick heads, and point their diamond eyes, And twinkle to the sun with ever-changing dyes. " Where Andes, crested with volcanic beams, Sheds a long line of light on Plata's streams ; Opes all his springs, unlocks his golden caves, ' And feeds and freights the immeasurable waves ; Delighted Ocyma at twilight hours Calls her light car, and leaves the sultry bowers ; — Ocymum salinum. 1. 225. Saline Basil. Class Two Powers. The Abbe Molina, in his History of Chili, translated from the Italian by the Abbe Grewvel, mentions a species of Basil, which he calls Ocymum salimim: he says it resembles the common basil, except that the stalk is round and jointed ; and that though it grows sixty miles from the sea, yet every morning it is covered with saline globules, which are hard and splendid, appearing at a distance like dew; and that each plant furnishes about half an ounce of fine salt every day, which the peasants collect, and use as common salt, but es- teem it superior in flavour. As an article of diet, salt seems to act simply as a stimulus, not contain- ing any nourishment, and is the only fossil substance which the caprice of mankind has yet taken into their stomachs along with their food ; and, like all other unnatural stimuli, is not necessary to people in health, and contri- butes to weaken our system, though it may be useful as a medicine. It seems to be the immediate cause of the sea-scurvy, as those patients quickly reco- ver by the use of fresh provisions ; and is, probably, a remote cause of scro- phnla (which consists in the want of irritability in the absorbent vessels), and is, therefore, serviceable to these patients, as wine is necessary to those whose stomachs have been weakened by its use. The universality of the use of salt with our food, and in our cookery, has rendered it difficult to prove the truth of these observations. I suspect that flesh-meat, cut into thin slices, either raw or boiled., might be prescryed in coarse sugar or treacle * 112 BOTANIC GARDEN. Part II Love's rising rav, and Youth's seductive dye, Bloom'd on her cheek, and brighten'd in her eye ; Chaste, pure, and white, a zone of silver graced Her tender breast, as white, as pure, as chaste ; — 230 By four fond swains in playful circles drawn, On glowing wheels she tracks the moon-bright lawn, Mounts the rude cliff, unveils her blushing charms, And calls the panting zephyrs to her arms. Emerged from ocean springs the vaporous air, Bathes her light limbs, uncurls her amber hair, Incrusts her beamy form with films saline, And Beauty blazes through the crystal shrine. — So with pellucid studs the ice-flower gems Her rimy foliage, and her candied stems. 240 So from his glassy horns, and pearly eyes, The diamond-beetle darts a thousand dyes ; Mounts with enamel'd wings the vesper gale, And wheeling shines in adamantine mail. " Thus when loud thunders o'er Gomorrah burst, 24*f> And heaving earthquakes shook his realms accurst, An Angel-guest led forth the trembling Fair With shadowy hand, and warn'd the guiltless pair ; " Haste from these lands of sin, ye Righteous ! flv, " Speed the quick step, nor turn the lingering eye !" — 250 — Such the command, as fabling Bards recite, When Orpheus charm'd the grisly King of Night ; Sooth'd the pale phantoms with his plaintive lay, And led the fair Assurgent into day. — Wide yawn'd the earth, the fiery tempest flash'd, 255 And towns and towers in one vast ruin crash'd ; — Onward they move, — loud horror roars behind, And shrieks of Anguish bellow in the wind. and thus a very nourishing and salutary diet might be presented to our men. See note on Salt-rocks, in Parti. Canto II. If" a person, unaccus- tomed to much salt, should cat a couple of red herrings, his insensible per- spiration will be so much increased by the stimulus of the salt, that he will Hnd it necessary, in about two hours, to drink a quart of water: the effect: of a continued use of salt in weakening the action of the lymphatic system may hence he deduced. Ice : fl,. Meseir.bvyanUiemum crystal! im-T. Canto IV. LOVES OF THE PLANTS. lis With many a sob, amid a thousand fears, The beauteous wanderer pours her gushing tears ; 260 Each soft connection rends her troubled breast, — She turns, unconscious of the stern behest !-— " I faint ! — I fall ! — ah, me ! — sensations chill " Shoot through my bones, my shuddering bosom thrill ! " I freeze ! I freeze ! just Heaven regards my fault, 265 " Numbs my cold limbs, and hardens into salt !— " Not yet, not yet, your dying love resign ! — " This last, last kiss receive ! — no longer thine !" — She said, and ceased, — her stiffenM form he press'd, And strain'd the briny column to his breast ; 2*0 Printed with quivering lips the lifeless snow, And wept, and gazed the monument of woe. So when iEneas through the flames of Troy Bore his pale sire, and led his lovely boy, With loitering step the fair Creusa stay'd, 275 And Death involved her in eternal shade. — — Oft the lone Pilgrim, that his road forsakes, Marks the wide ruins, and the sulphur'd lakes j On mouldering piles amid asphaltic mud Hears the hoarse bittern, where Gomorrah stood ; 280 Recals the unhappy Pair with lifted eye, Leans on the crystal tomb, and breathes the silent sigh. " With net-wove sash and glittering gorget dress'd, And scarlet robe lapell'd upon her breast, Stern Ara frowns, the measured march assumes, 285 Trails her long lance, and nods her shadowy plumes ; Arum. 1. 285. Cuckow-point, of the class Gynandria, or masculine ladies. The pistil, or female part of the flower, rises like a club, is covered above, or clothed, as it were, by the anthers or males ; and some of the species have a large scarlet blotch in the middle of every leaf. The singular and wonderful structure of this flower has occasioned many disputes amongst botanists. See Tournef. Malpig. Dillen. Riven. &c. The receptacle is enlarged into a naked club, with the germs at its base; the sta- mens are affixed to the receptacle amidst the germs (a natural prodigy), and thus do not need the assistance of elevating filaments : hence the flower may be said to be inverted. Families of Plants, translated from LinnKiis, p. 618. The spadix of this plant is frequently quite white, or coloured, and the leaves liable to be streaked with white, and to have black or scarlet blotches on them. As the plant has no corol or blossom, it is probable the coloured Part II. P 114 v. VIC GARDEN. PAp II. While Love's soft beams illume her treacherous eyes, And Beauty lightens through the thin disguise. So erst, when Hercules, untamed by toil, Own'd the soft power of Dejanira's smile ; — 29^ His lion-spoils the laughing Fair demands, And gives the distaff to his awkward hands ; O'er her white neck the bristly mane she throws, And binds the gaping whiskers on her brows ; Plaits round her slender waist the shaggy vest, And clasps the velvet paws across her breast. Next with soft hands the knotted club she rears, Heaves up from earth, and on her shoulder bears. Onward with loftier step the Beauty treads, And trails the brinded ermine o'er the meads ; 300 Wolves, bears, and pards, forsake the affrighted groves, And grinning Satyrs tremble, as she moves. " Caryo\s sweet smile Diaxthus proud admires. And gazing burns with unallow'd desires ; juices in these parrs of the sheath or leaves may serve the same purpose as the coloured juices in the petals of other Mowers ; from which I suppose the ho- ney to be prepared. See note on Hdleborus. I am informed that those tulip- roots which have a red cuticle produce red flowers. See Rubia. When the petals of the tulip become striped with many colours, the plant loses almost half of" its height; and the method of making them thus break into colours, is by transplanting them into a meagre or sandy soil, after they have previously -yoyc-J a riclxr soil : hence it appears, that the plant is weak- ened when the flower becomes variegated. See note on Anemone. For the acquired habit:; of vegetables, see Tulipa, Orchis. The roots of the Arum are scratched up, and eaten by thrushes in sevafe snowy seasons. White's Hist, of Selbourn, p. 43. Dianthus. 1. 303. Superbus. Proud Pink. There is a kind of pink, called Fairchild's mule, which is here supposed to be produced between a Dianthus superbus and the Caryophyllus, Clove. The Dianthus superbus emits a most fragrant odour, particularly at night. Vegetable mules supply an irrefragable argument in favour of the sexual system of botany. The are said to be numerous; and, like the mules of the animal kingdom, not always to continue their species by seed. There is an account of a curious »nule from the Antirrhinum linaria, Toad-tlax, in the Amcerrit. Academ. vol. i- No. 3. and many hybrid plants described in No. 32. The Urtica alienate is an evergreen plant, which appears to lie a nettle from the male flowers, and a Pellitofy (Parieraria) from the female ones and the fruit ; and is hence be- tween both. Murray, Syst. Veg. Amongst the English indigenous plants, the veronic t hybrida, mul • Speedwel, is supposed t • d from the officinal one and the spiked one. And tn< Sibthorpia Europssa to have for ita parents the golden saxifrage and marsh pennywort. Pulteney's View oJ '-• ',53. Mr, Graberg, M Cam o IV. LOVES OF THE PLANTS. With sighs and sorrows her compassion moves, And wins the damsel to illicit loves. The Monster-offspring heirs the father's pride, Mask'd in the damask beauties of the bride. So, when the Nightingale in eastern bowers On quivering pinion woos the Queen of Flowers ; Inhales her fragrance, as he hangs in aii , And melts with melody the blushing fair ; Half-rose, half-bird, a beauteous Monster springs, Waves his thin leaves, and claps his glossy wings ; Long horrent thorns his mossy legs surround, And tendril-talons root him to the ground ; Green films of rind his wrinkled neck overspread, And crimson petals crest his curled head ; Soft-warbling beaks in each bright blossom move, And vocal Rosebuds thrill the enchanted grove !— Admiring Evening stays her beamy star, And still Night listens from his ebon car ; While on white wings descending Houries throng, And drink the floods of odour and of song. " When from his golden urn the Solstice pours O'er Afric's sable sons the sultry hours ; When not a gale flits o'er her tawny hills, Save where the dry Harmattan breathes and kills ; opinion, that the internal structure, or parts of fructification in mute plants, resemble the female parent ; but that the habit, or external structure, resembles the male parent. See treatises under the above names, in vol. vi. Amcenit. Academic. The mule produced from a horse and the ass, resembles the horse externally with his ears, mane, and tail, but with the nature or manners of an ass : but the Hinnus, or creature produced from a male ass and a mare, resembles the father externally in stature, ash-colour, and the black cross, but with the nature or manners of a horse. The breed from Spanish rams and Swedish ewes resembled the Spanish sheep in wool, stature, and external form, but was as hardy as the Swedish sheep; and the contrary of those -which were produced fiom Swedish rams and Spanish ewes. The offspring from the male goat of Angora and the Swedish female goat had long soft camel's hair ; but that from the male Swedish £,oat and the female one of Angora, had no improvement of their wool. An English ram. without horns, and a Swedish horned ewe, produced sheep without horns. Amcen. Acad, vol vi. p. 13. The dry Harmattan. 1.328. The Harmattan is a singular wind, blowing from the interior parts of Africa to the Atlantic ocean, sometimes for a few hours, sometimes for several days, without regular periods. It is always a*? 116 BOTANIC GARDEN. Part II. When stretch'd in dust her gasping panthers lie, And writhM in fo any folds her serpents die j 330 Indignant Atlas mourns his leafless woods, And Gambia trembles for his sinking floods ; Contagion stalks along the briny sand, And Ocean rolls his sickening shoals to land. ■ — Fair Chunda smiles amid the burning waste, 335 Her brow unturban'd, and her zone unbrae'd ; tended with a fog or haze, so dense as to render those objects invisible which are at the distance of a quarter of a mile: the sun appears through it only about noon, and then of a dilute red, and very minute particles subside from the misty air, so as to make the grass, and the skins of negroes, appear whitish. The extreme dryness which attends this wind or fog, without dews, withers, and quite dries, the leaves of vegetables ; and is said, by Dr. Lind, at some seasons, to be fatal and malignant to mankind; probably after much preceding wet, when it may become loaded with the exhalations from putrid marshes ; at other seasons it is said to check epidemic diseases, to cure fluxes, and to heal ulcers and cutaneous eruptions ; which is, probably, effected by its yielding no moisture to the mouths of the external absorbent vessels, by which the action of the other branches of the absorbent system is increased to supply (he defic ; ency. Account of the Harmattan, Philos. Trans, vol. Ixxi. The Reverend Mr. Sterling gives an account of a darkness for six or eight hours at Detroit, in America, on the 19th of October, 1762, in which thj sun appeared as red as blood, and thrice its usual size : some rain falling, co- vered white paper with dark drops, like sulphur or dirt, which burnt like wet gun-powder, and the air had a very sulphureous smell. He supposes this to have been emitted from some distant earthquake or volcano. Philos. Trans, vol. liii. p. 63. In many circumstances this wind seems much to resemble the dry fog which covered most parts of Europe, for many weeks, in the summer of 1780, which has been supposed to have had a volcanic origin, as it succeeded the violent eruption of Mount Hecla, and its neighbourhood. From the sub- sidence of a white powder, it seems probable that the Harmattan has a simi- lar origin, from the unexplored mountains of Africa. Nor is it improbable, that the epidemic coughs, which occasionally traverse immense tracts of country, may be the products of volcanic eruptions ; nor impossible, that at some future time, contagious miasmata may be thus emitted from subterra- neous furnaces, in such abundance as to contaminate the whole atmosphere, and depopulate the earth ! His sickening shoals. 1. 334 Mr. Marsden relates, that in the island of Sumatra, during the November of 1775, the dry monsoons, or S. £. winds, continued so much longer than usual, that the large rivers became dry ; and prodigious quantities of sea-fish, dead and dying, were seen iloating for on the sea, and driven on the beach by the tides. This was supposes to have been caused by the great evaporation, and the deficiency of fresh- Water rivers having rendered the sea too sab for its inhabitants. The season then became so sickly as to destroy great numbers of people, both and natives. Philos. Trans, vol. Ixxi. p Chun-la. I. 335. Chnndali Borrutn is the name which the natives give to : it is the Hedysarum gyrans, or moving plant : its class is two brothcrhuods, ten males. Its leaves are continually hi spontaneous //<>. Canto IV. LOVES OF THE PLANTS. 117 Ten brother-youths -with light umbrellas shade, Or fan with busy hands the panting maid ; Loose wave her locks, disclosing as they break, The rising bosom and averted cheek ; 340 Clasp'd round her ivory neck with studs of gold Flows her thin vest in many a gauzy fold ; O'er her light limbs the dim transparence plays, And the fair form, it seems to hide, betravs. " Cold from a thousand rocks, where Ganges leads 345 The gushing waters to his sultry meads ; By moon-crown'd mosques with gay reflections glides, And vast pagodas trembling on his sides ; With sweet loquacity Nelumbo sails, Shouts to his shores, and parleys with his gales ; 350 Invokes his echoes, as she moves along, And thrills his ripling surges with her song. — As round the Nymph her listening lovers play, And guard the beauty on her watery way ; Charm'd on the brink relenting tygers gaze, 355 And pausing buffaloes forget to graze ; some rising and others falling; and others whirling circularly by twisting their stems. This spontaneous movement of the leaves, when the air is quite still and very warm, seems to be necessary to the plant, as perpetual respira- tion is to animal life. A more particular account, with a good print of the Hedysarum gyrans, is given by M. Broussonet, in a paper on vegetable mo- tions, in the Histoire de l'Academie des Sciences. Ann. 1784, p. 609. There are many other instances of spontaneous movements of the parts of vegetables. In the Marchantia polymorpha, some yellow wool proceeds from the flower-beating anthers, which moves spontaneously in the anther, while it drops its dust like atoms. Murray, Syst. Veg. See note on Collin- sonia, for other instances of vegetable spontaneity. Add to this, that as the sleep of animals consists in a suspension of voluntary motion, and as ve- getables are likewise subject to sleep, there is reason to conclude, that the va- rious actions of opening and closing their petals and foliage may be justly as- cribed to a voluntary power : for without the faculty of volition, sleep would not have been necessary to them. Nelumbo. 1. 349. Nymphasa Nelumbo. A beautiful rose-red flower on a receptacle as large as an artichoke. The capsule is perforated with holes at the top, and the seeds rattle in it. Perfect leaves are seen in the seeds before they germinate. Linnauis, who has enlisted all our senses into the service of botany, has observed this rattling of the Nelumbo; and mentions what he calls an electric murmur, like distant thunder, in hop-yards, when the wind blows, and asks the cause of it. We have one kind of peaicularis in our meadows, which has obtained the name of rattle-grass, from the rat- tling of its dry seed-vessels under our feet. 118 BOTANIC GARDEN. Part II. Admiring elephants forsake their woods. Stretch their wide ears, and wade into the floods ; In silent herds the wondering sea-calves lave, Or nod their slimy forheads o'er the wave ; 360 Poised on still wing attentive vultures sweep, And winking crocodiles are lull'd to sleep. " Where leads the northern Star his lucid train High o'er the snow-clad earth, and icy main, With milky light the white horizon streams, 365 And to the moon each sparkling mountain gleams. — . Slow o'er the printed snows with silent walk Huge shaggv forms across the twilight stalk ; And ever and anon with hideous sound Burst the thick ribs of ice, and thunder round. — - 370 There, as old Winter flaps his hoary wing, And lingering leaves his empire to the Spring, Pierced with quick shafts of silver-shooting light Fly in dark troops the dazzled imps of night. — *'■ Awake, my Love !" enamour'd Muschus cries, 07o " Stretch thy fair limbs, refulgent Maid ! arise ; *' Ope thy sweet eye-lids to the rising ray, f And hail with ruby lips returning day. Burnt the thick ribs of ice. 1. 370. The violent cracks of ice heard from the Glaciers, seem to be caused by some of the snow being melted in the middle of the day ; and the water thus produced running down into vallics of jce, and, congealing again in a few hours, ibices off, by its expansion, large precipices from the ice-mountains. Muschus. I. 375. Corallinus, or lichen rangiferinus. Coral-moss. Clan- destine marriage. This moss vegetates beneath the snow, where the degree of heat is always about 40; that is, in the middle, between the freezing point and the common heat of the earth; and is, for many month:; of the winter, the sole food of the rein-deer, who di^s furrows in the snow to rind it, and us the milk and flesh of this animal is almost the only sustenance which can be procured during the long winters of the higher latitudes, this moss ma\ be L,aij to support some millions of mankind. The quick vegetation that occurs on the solution of the snows in high la- titudes, appears very astonishing ; it seems to arise from two causes \ 1. The inuance of the approaching sun above the horizon ; -. The increased of plants which have been long exposed to the cold. See note on Anemone. All the water fowl on the lakes of Siberia are said, by Professor Gmelin, to i . -11 the commem tried in snOW. ACCOUM ci bibcria. Canto IV. LOVES OF THE PLANTS. " Down the white hills dissolving torrents pour, " Green springs the turf, and purple blows the flower ; " His torpid wing the Rail exulting tries, " Mounts the soft gale, and wantons in the skies ; " Rise, let us mark how bloom the awaken'd groves, " And 'mid the banks of roses hide our loves." ** Night's tinsel beaihs on smooth Lock-lomond dance, Impatient ^Ega views the bright expanse ; In vain her eyes the passing floods explore, Wave after wave rolls freightless to the shore. — Now dim amid the distant foam she spies A rising speck, — " Tis he ! 'tis he !" she cries ; As with firm arms he beats the streams aside, And cleaves with rising chest the tossing tide ; With bended knee she prints the humid sands, Up-turns her glistening eyes, and spreads her hands : — " 'Tis he, 'tis he .' — my Lord, my life, my love ! " Slumber, ye winds ; ye billows, cease to move ! •* Beneath his arms your buoyant plumage spread, " Ye Swans ! ye Halcyons ! hover round his head !" — — With eager step the boiling surf she braves, And meets her refluent lover in the waves ; Loose o'er the flood her azure mantle swims, And the clear stream betrays her snowy limbs. " So on her sea-girt tower fair Hero stood At parting day, and mark'd the dashing flood ; While high in air, the glimmering rocks above, Shone the bright lamp, the pilot-star of love. —With robe outspread the wavering flame behind She kneels, and guards it from the shifting wind ; Mga. 1. 386. Conferva agagropila. It is found loose in many lakes, in a globular form, from the size of a walnut to that of a melon, much resembling the balls of hair found in the stomachs of cows : it adheres to nothing, but rolls from one part of the lake to another. The Conferva vagabunda dwells on the European seas, travelling along in the midst of the waves. (Spec. Plant.) These may not improperly be called itinerant vegetables. In a simi- lar manner the Fucus natans (swimming) strikes no roots into the earth, but floats on the sea in very extensive masses, and may be said to be a plant of passage, as it is wafted by the winds from one shore to another. 120 BOTANIC GAR D EX. Part II, Breathes to her Goddess all her vows, and guides Her bold Leander o'er the dusky tides ; 419 Wrings his wet hair, his briny bosom warms, And clasps her panting lover in her arms. " Deep, in wide caverns and their shadowy aisles, Daughter of Earth, the chaste Truffelia smiles ; On silvery beds, of soft asbestus wove, 415 Meets her Gnome-husband, and avows her love. — High o'er her couch impending diamonds blaze, And branching gold the crystal roof inlays ; With verdant light the modest emeralds glow, Blue sapphires glare, and rubies blush, below ; 420 Light piers of lazuli the dome surround, And pictured mochoes tesselate the ground ; In glittering threads along reflective walls The warm rill murmuring, twinkles as it falls ; Now sink the Eolian strings, and now they swell, 425 And Echoes woo in every vaulted cell ; While on white wings delighted Cupids play, Shake their bright lamps, and shed celestial day. " Closed in an azure fig by fairy spells, Bosom'cl in down, fair Capri-fica dwells ;-— 430 Truffelia. I. 414. (Lycoperdon Tuber.) Truffle. Clandestine marriage. This fungus never appears above ground, requiring little air, and, perhaps, no light. It is found by dogs or swine, who hunt it by the smell. Other plants which have no buds or branches on their stems, as the grasses, shoot out numerous stoles or scions under ground ; and this the more, as their tops or herbs are eaten by cattle, and thus preserve themselves. Capri-ficus. 1. 430. Wild fig. The fruit of the fig is not a seed-vessel, but a receptacle enclosing the Sower within it. As these trees bear some male and others female flowers, immured on all sides by the fruit, the manner of their fecundation was very unintelligible, till Tournefort and Pontedera discovered, that a kind of gnat, produced in the male figs, carried the fecundating dust on its wings (Cynips Psenes Syst. Nat. 919), and, penetrating the female fig, thus impregnated the flowers. For the evidence of this wonderful fact, see the word Caprirication, in Milne's Botanical Dictionary. The figs of this country are all female, and their seeds not prolific ; and, therefore, they can only be propagated by layers and suckers. Monsieur de la Hire has shown, in the Memoir, de 1'Academ. des Sciences, that the summer figs of Paris, in Provence, Italy, and Malta, have all per- fect stamina, and ripen not only their fruits but their seed ; from which seed other fig-iregr. are raised ; but that the 3tamina of the autumnal figs are abor- Canto IV. LOVES OF THE PLANTS. 121 So sleeps in silence the Curculio, shut In the dark chambers of the cavern'd nut, Erodes with ivory beak the vaulted shell, And quits, on filmy wings, its narrow cell. So the pleased Linnet, in the moss-wove nest, 435 Waked into life beneath its parent's breast, Chirps in the gaping shell, bursts forth erelong, Shakes its new plumes, and tries its tender song.-— — And now the talisman she strikes, that charms Ker husbandtSvlph, — and calls him to her arms. — ■ 440 Quick, the light Gnat her airy Lord bestrides, With cobweb reins the flying courser guides, From crystal steeps of viewless ether springs, Cleaves the soft air on still expanded wings ; Darts like a sunbeam o'er the boundless wave, 445 And seeks the beauty in her secret cave. So with quick impulse through all Nature's frame Shoots the electric air its subtle flame* So turns the impatient needle to the pole, Though mountains rise between, and oceans roll* 45Q tive, perhaps owing to the want of due warmth. Mr. Milne, in his Botani- cal Dictionary (art. Caprification), says, that the cultivated fig-trees have a. few male flowers placed above the female within the same covering or recep- tacle ; which in warmer climates perform their proper office, but in colder ones become abortive. And Linnaeus observes, that some figs have the na- vel of the receptacle open ; which was one reason that induced him to remove this plant from the class Clandestine Marriage to the class Polygamy. Lin. Spec. Plant. From all these circumstances I should conjecture, that those female fig- flowers, which are closed on all sides in the fruit or receptacle without any- male ones, are monsters which have been propagated for their fruit, like bar- berries, and grapes without seeds in them ; and that the caprification is either an ancient process of imaginary use, and blindly followed in some countries, or that it may contribute to ripen the fig by decreasing its vigour, like cutting off a circle of the bark from the branch of a pear-tree. Tournefort seems in- clined to this opinion ; who says, that the figs in Provence and at Paris ripen sooner if their buds be pricked with a straw dipped in olive oil. Plums and pears punctured by some insects ripen sooner, and the part round the puncture is sweeter. Is not the honey-dew produced by the puncture of insects ? Will not wounding the branch of a pear-tree which is too vigorous, prevent the blossoms from falling oil'; as from some fig-trees the fruit is said to fall off unless they are wounded by caprification ? I had last spring six young trees of the Ischia fig, with fruit on them, in pots in a stove ; on removing them into larger boxes, they protruded very vigorous shoots, and the figs all fell off; which I ascribed to the increased vigour of the plants. Part II. Q BOTANIC GARDEN. Part II, " Where round the Oflcades white torrents roar, Scooping with ceaseless rage the incumbent shore, Wide o'er the deep a dusky cavern bends Its marble arms, and high in air impends; Basaltic piers the ponderous roof sustain, 455 And steep then- massy sandals in the main ; Round the dim walls, and through the whispering aisles, Hoarse breathes the wind, the glittering water boils. Here the charm' d Byssus, with his blooming bride, Spreads his green sails, and braves the foaming tide ; 460 The star of Venus gilds the twilight wave, And lights her votaries to the secret cave ; Light Cupids nutter round the nuptial bed, And each coy Sea-maid hides her blushing head. " Where cool'd by rills, and curtain'd round by woods, 46 J Slopes the green dell to meet the briny floods, The sparkling noon-beams trembling on the tide, The Proteus-lover woos his playful bride. Basaltic piers. 1. 455. This description alludes to the cave of Fingal, in the island of Staffa. The basaltic columns, which compose the Giant's Cause- way on the coast of Ireland, as well as those which support the cave of Fin- gal, are evidently of volcanic origin, as is well illustrated in an ingenious paper of Mr. Keir, in tae Philos. Trans who observed in the glass, which had been long in a fusing heat at the bottom of the pots in the glass-houses at Stourbridge, that crystals were produced of a form similar to the parts of the basaltic columns of the Giant's Causeway. B;ssus. 1 459. Clandestine Marriage. It floats on the sea in the day, and sinks a little during the night ; it is found in caverns on the northern shores, of a pale green colour, and as thin as paper. The Proteus-lover. 1.468. Conferva polymorph a. This vegetable is put amongst the cryptogamia, or Clandestine Marriages, by Linnicus; but, ac- cording to Mr. Ellis, the males and females are on different plants. Philos. Trans, vol. lvii. It twice changes its colour, from red to brown, and then to black ; and changes its form by losing its lower leaves, and elongating some of the upper ones, so as to be mistaken by the unskilful for different plants. It grows on the shores of this country. 1 i is another plant, Medicago polymorpha, which may be said to ar- Bume a great variety of shapes; as the seed-vessels resemble sometimes snail- homs, at other times caterpillars with or without long hair upon them; by which means it is probable they sometimes elude the depredations of those :i ' '. ■ ■ ds of Calendul i, Marigold, bend up like a hairy caterpillar, with their prickles bristling outwards, and may thus deter some birds or in* :;ccts from preying upon them. Salicornia also assumes an animal similitude. Phil Hot. p. 87. '3ec note on Iris in additional notes; and Cynrinedia, n: Part I. Canto IV. LOVES OF THE PLANTS. 123 To win the fair he tries a thousand forms, Basks on the sands, or gambols in the storms. 470 A Dolphin now, his scaly sides he laves, And bears the sportive Damsel on the waves ; She strikes the cymbal as he moves along, And wondering Ocean listens to the song. — And now a spotted Pard the lover stalks, 47J Plays round her steps, and guards her favour' d walks j As with white teeth he prints her hand, caress'd, And lays his velvet paw upon her breast, O'er his round face her snowy fingers strain The silken knots, and fit the ribbon-rein. 480 • — And now a Swan, he spreads his plumy sails, And proudlv glides before the fanning gales ; Pleased on the flowery brink, with graceful hand, She waves her floating lover to the land ; Bright shines his sinuous neck, with crimson beak 4&S He prints fond kisses on her glowing cheek, Spreads his broad wings, elates his ebon crest, And clasps the beauty to his downy breast. " A hundred virgins join a hundred swains, And fond Adonis leads the sprighdy trains j 490 Pair after pair, along his sacred groves To Hymen's fane the bright procession moves , Each smiling yGuth a myrtle garland shades, And wreaths of roses veil the blushing maids | Adonis. 1. 490. Many males and many females live together in the same flower. It may seem a solecism in language to call a flower which contains many of both sexes an individual ; and the more so to call a tree or shrub an individual, which consists of so many flowers. Every tree, indeed, ought to be considered as a family or swarm of its respective buds ; but the buds themselves seem to be individual plants; because each has leaves or lungs ap- propriated to it ; and the bark of the tree is only a congeries of the roots of all these individual buds. Thus hollow oak-trees and willows are often seen with the whole wood decayed and gone, and yet the few remaining branches flourish- with vigour; but in respect to the male and female parts of a flower, they do not destroy its individuality any more than the number of paps of a. sow, or the number of her cotyledons, each of which includes one of her young. The society called the Areoi, in the island of Otaheite, consists of about 100 males and 100 females, who form one promiscuous marriage. 124 BOTANIC GARDEN. Part IL Light Joys on twinkling feet attend the throng, 495 Weave the gay dance, or raise the frolic song ; — Thick, as they pass, exulting Cupids fling Promiscuous arrows from the sounding string ; On wings of gossamer soft Whispers fly, And the sly glance steals side-long from the eye. 50C -—As round his shrine the guady circles bow, And seal with muttering lips the faithless vow, Licentious Hymen joins their mingled hands, And loosely twines the meretricious bands.— Thus where pleased Venus, in the southern main, 505 Sheds all her smiles on Otaheite's plain, Wide o'er the isle her silken net she draws, And the Loves laugh at all but Nature's laws." Here ceased the Goddess,— o'er the silent strings Applauding Zephyrs swept their fluttering wings ; 510 Enraptured Sylphs arose in murmuring crowds To air-wove canopies and pillowy clouds ; Each Gnome reluctant sought his earthy cell, And each chill Floret closed her velvet bell. Then, on soft tiptoe, Night approaching near 515 Kung o'er the tuneless lyre his sable ear ; Gem'd with bright stars the still ethereal plain. And bade his Nightingales repeat the strain. BOTANIC GARDEN. ADDITIONAL NOTES. Additional note to Curcuma. Canto I. 1. 65. J. HESE antherless filaments seem to be an endeavour of the plant to produce more stamens, as would ap- pear from some experiments of Mr. Reynier, instituted for another purpose : he cut away the stamens of many flowers, with design to prevent their fecun- dity, and, in many instances, the flower threw out new filaments from the wounded part, of different lengths, but did not produce new anthers. The experiments were made on the geum rivale, different kinds of mallows, and the sechinops citro. Critical Review for March, 1788. Addition to the note on Iris. Canto 1. 1. 71. In the Persian Iris the end of the lower petal is purple, with white edges and orange streaks, creeping, as it were, into the mouth of the flower like an insect ; by which deception in its native climate it probably prevents a similar insect from plundering it of its honey; the edges of the lower petal lap over those of the upper one, which prevents it from opening too wide on fine days, and facilitates its return at night; whence the rain is excluded, and the air admitted. See Polymorpha, Rubia, and Cypripedia, in Part I. Additional note on Chondrilla. Canto I. 1. 97. In the natural state of the ex- panded flower of the barberry, the stamens lie on the petals ; under the concave summits of which the anthers shelter themselves, and in this situation remain perfectly rigid ; but on touching the inside of the filament near its base with a fine bristle, or blunt needle, the stamen instantly bends upwards, and the anther, embracing the stigma, sheds its dust. Observations on the Irritation of Vegetables, by T. E. Smith, M. D. Addition to the note on Siltne. Canto I. 1. 139. I saw a plant of the Dionaea Muscipula, Fly-trap of Venus, this day, in the collection of Sir B. Boothby, at Ashburn-Hall, Derbyshire, August 20th, 1788 ; and on drawing a straw along the middle of the rib of the leaves as they lay upon the ground round the stem, each of them, in about a second of time, closed and doubled itself up, crossing the thorns over the opposite edge of the leaf, like the teeth of a spring rat trap : of this plant I was favoured with an elegant coloured draw- ing, by Miss Maria Jackson, of Tarporly, in Cheshire, a lady who adds much fcotanical knowledge to many other elegant acquirements. 126 BOTANIC GARDEN. Part II In the Apocynum Androsxmifolium, one kind of Dog's banc, the anthers converge over the nectaries, which consist of five glandular oval corpuscles surrounding the germ ; and, at the same time, admit air to the nectaries at the interstice between each anther. But when a fly inserts its proboscis be- tween these anthers to plunder the honey, they converge closer, and with such violence as to detain the fly, which thus generally perishes. This ac- count was related to me by R. W. Darwin, Esq. of Elston, in Nottingham- shire, who showed me the plant in flower, July 2d, 1788, with a fly thus held fast by the end of its proboscis, and was well seen by a magnifying lens, and which, in vain, repeatedly struggled to disengage itself, till the converging anthers were separated by means of a pin : on some days he had observed that almost every flower of this elegant plant had a fly in it thus entangled; and, a few weeks afterwards, favoured me with his further observations or. this subject. " My Apocynum is not yet out of flower. I have often visited it, and have *' frequently found four or five flies, some alive, and some dead, in its flowers ; " they are generally caught by the trunk or proboscis, sometimes by the trunk " and a leg : there is one at present only caught by a leg. I don't know that " this plant sleeps, as the flowers remain open in the night ; yet the flies fre- " quently make their escape. In a plant of Mr. Ordoyno's, an ingenious gar- " dener at Newark, who is possessed of a great collection of plants, I saw " many flowers of an Apocynum with three dead flies in each ; they are a " thin-bodied fly, and rather less than the common house-fly; but I have seen " two or three other sorts of flies thus arrested by the plant. August 11?, lTSS.' 1 Additional note on Ilex. Canto I. 1. 161. The efficient cause which renders the hollies prickly, in Needwood Forest, only as high as the animals can reach them, may arise from the lower branches being constantly cropped by them, and thus shoot forth more luxuriant foliage : it is probable the shears in gar- den-hollies may produce the same effect, which is equally curious, as prickles are not thus produced on other plants. Additional note on Uly?Y>ztc&mj/p//( t DESCRIPTION OF THE BOHUN-UPAS. 127 «Jart from a Marigold : surprized at such an uncommon appearance, he re- solved to examine it with attention ; and, to be assured that it was no decep- tion of the eye, he placed a man near him, with orders to make a signal at the moment when he observed the light. They both saw it constantly at the same moment. The light was most brilliant on Marigolds of an orange or flame colour ; but scarcely visible on pale ones. The flash was frequently seen on the same flower two or three times in quick succession, but more commonly at intervals of several minutes ; and when several flowers in the same place emitted their light together, it could b* observed at a considerable distance. This phenomenon was remarked in the months of July and August, at sun-set, and for half an hour after, when the atmosphere was clear ; but after a rainy day, or when the air was loaded with vapours, nothing of it was seen. The following flowers emitted flashes more or less vivid, in this order ; 1. The Marigold, (Calendula Officinalis J. 2. Garden Nasturtion, (Tropxolum majusj. 3. Orange Lily, ( Lilium bulbiferum). 4. African Marigold, (Tagetes patula et erectaj. Sometimes it was also observed on the Sun-flowers, ( Helianthus annuusj. But bright yellow, or flame colour, seemed in general necessary for the pro- duction of this light ; for it was never seen on the flowers of any other colour. To discover whether some little insects, or phosphoric worms, might not be the cause of it, the flowers were carefully examined even with a micro- scope, without any such being found. From the rapidity of the flash, and other circumstances, it might be conjec- tured, that there is something of electricity in this phenomenon. It is well known, that when the pistil of a flower is impregnated, the pollen bursts away by its elasticity, with which electricity may be combined. But M. Haggren, after having observed the flash from the Orange lily, the anthers of which are a considerable space distant from the petals, found that the light proceeded from the petals only ; whence he concludes that this electric light is caused by the pollen, which, in flying off, is scattered upon the petals. — Obser. Physique, par M. Rozier, vol. xxxiii. p. 111. Addition to the note on Upas. Canto III. 1. 238. Description of the Poison-Tree in the Island of 'Java. Translated from the original Dutch ofN. P. Foersch. This destructive tree is called, in the Malayan language, Bohan-Upas, and has been described by naturalists ; but their accounts have been so tinc- tured with the marvellous, that the whole narration has been supposed to be an inwnious fiction by the generality of readers. Nor is this in the least degree surprising, when the circumstances which we shall faithfully relate SCliption are considered. 12S BOTANIC GARDEN". Pari U I must acknowledge, that I long doubted the existence of this tree, untrt a Stricter inquiry convinced me of my error. I shall now only relate simple unadorned facts, of which I have been an eye-witness. My readers may dc pend upon the fidelity of this account. In the year 17"4, I was stationed at BatStvia, as a surgeon, in the service of the Dutch East-India Company. During my residence there, I received several different accounts of the Bo- hun-Upas, and the violent effects of its poison. They all then seemed in- credible to me, but raised my curiosity in so high a degree, that I resolved to investigate this subject thoroughly, and to trust only to my awn observations. In consequence of this resolution, I applied to the Governor-General, Mr. Petrus Albertus van der Parra, for a pass to travel through the country : my request was granted ; and, having procured every information, I set out en my expedition. I had procured a recommendation from an old Malayan priest to another priest, who lives on the nearest inhabitable spot to the tree, which is about fifteen or sixteen miles distant. The letter proved of great service to me in my undertaking, as that priest is appointed by the Emperor to reside there, in order to prepare for eternity the souls of those who, for different crimes, are sentenced to approach the tree, and to procure the poison. The Bobun-Upas is situated in the island of Java, about twenty-seven leagues from Batavia, fourteen from Soura-Cbarta, the seat of the Emperor, and between eighteen and twenty leagues from Tinkjoe, the present residence of the Sultan of Java. It is surrounded on all sides by a circle of high hills and mountains ; and the country round it, to the distance of ten or twelve miles from the tree, is entirely barren. Not a tree, nor a shrub, nor even the least plant or grass, is to be seen. I have made the tour all around this dan- gerous spot, at about eighteen miles distant from the centre, and I found the aspect of the country on all sides equally dreary. The easiest ascent of the hills is from that part where the old ecclesiastic dwells. From his house the criminals are sent for the poison, into which the points of all warlike instru- ments are dipped. It is of high value, and produces a considerable revenue to the Emperor. Account of the manner in which the poison is procured. The poison which is procured from this tree, is a gum that issues out be- tween the bark and the tree itself, like the en mphor. Malefactors who, for their crimes, are sentenced to die, are the only persons who fetch the poison ; and this is the only chance they have of saving their lives. After sentence is pronounced upon them bv the judge, they are asked in court, whether they will die by the hands of the executioner, or whether they will go to the Upas tree for a box of poison? They commonlj prefer the latter proposal, as there is not only some chance of preserving their lives, but also a certainty, in case of their safe return, that a provision will be made for them in future by the Emperor. They are also permitted to ask a favour from the Emperor, which all) of a trifling nature, and commonly granted. They are then pro- vided with a silver or tortoise-shell box, is which the\ are to put the poison* DESCRIPTION OF THE BOHUN-UPAS. 129 ©us gum, and are properly instructed how to proceed while they are upon their dangerous expedition. Among other particulars, they are always told to attend to the direction of the winds ; as they are to go towards the tree be- fore the wind, so that the effluvia from the tree is always blown from them. They are told, likewise, to travel with the utmost dispatch, as that is the only method of insuring a safe return. They are afterwards sent to the house of the old priest, to which place they are commonly attended by their friends and relations. Here they generally remain some days, in expectation of a favourable breeze. During that time the ecclesiastic prepares them for their future fate by prayers and admonitions. When the hour of their departure arrives, the priest puts on them a long leather-cap, with two glasses before their eyes, which comes down as far as their breast ; and also provides them with a pair of leather gloves. They are then conducted by the priest, and their friends and relations, about two miles on their journey. Here the priest repeats his instructions, and tells them where they are to look for the tree. He shows them a hill, which they are told to ascend, and that on the other side they will find a rivulet, which they are to follow, and which will conduct them directly to the Upas. They now take leave of each other ; and, amidst prayers for their success, the delin- quents hasten away. The worthy old ecclesiastic has assured me, that during his residence there, for upwards of thirty years, he had dismissed above seven hundred criminals' in the manner which I have described ; and that scarcely two out of twenty have returned. He showed me a catalogue of all the unhappy sufferers, with the date of their departure from his house annexed; and a list of the offences for which they had been condemned : to which was added, a list of those who had returned in safety. I afterwards saw another list of these culprits, at the jail-keepers at Soura-Charta, and found that they perfectly corresponded with each other, and with the different informations which I aftervCards obtained. I was present at some of these melancholy ceremonies, and desired different delinquents to bring with them some pieces of the wood, or a small branch, or some leaves of this wonderful tree. I have also given them silk cords, de- siring them to measure its thickness. I never could procure more than two dry leaves that were picked up by one of them on his return ; and all I could learn from him, concerning the tree itself, was, that it stood on the border of a rivulet, as described by the old priest; that it was of a middling size ; that five or six young trees of the same kind stood close by it; but that no other shrub or planr could be seen near it; and that the ground was of a brownish sand, full of stones, almost impracticable for travelling, and covered with dead bodies. After many conversations with the old Malayan priest, I questioned him about the first discovery, and asked his opinion of this dangerous tree; upon which he gave me the following answer : " We are told in our new Alcoran, that, above a hundred years ago, the " country around the tree was inhabited by a people strongly addicted to the " sins of Sodom and Gomorrha ; when the great Frophet Mahomet deter- " mined not to suffer them to lead such detestable lives any longer, he applied '< to God to punish them : upon which God caused this tree to grow out of Part II. R 130 BOTANIC GARDEN, Part IX " the earth, which destroyed them all, and rendered the country for ever un- " inhabitable." Such was the Malayan opinion. I shall not attempt to comment ; but must observe, that all the Malayans consider this tree as an holy instrument of the great Prophet to punish the sins of mankind ; and, therefore, to die of the poi- son of the Upas is generally considered among them as an honourable death. For that reason I also observed, that the delinquents, who were going to the tree, were generally dressed in their best apparel. "This, however, is certain, though it may appear incredible, that from fif- teen to eighteen miles round this tree, not only no human creature can exist, but that, in that space of ground, no living animal of any kind has ever been discovered. I have also been assured by several persons of veracity, that there are no fish in the waters, nor has any rat, mouse, or any other vermin, been seen there ; and when any birds fly so near this tree, that the effluvia reaches them, they fall a sacrifice to the effects of the poison. This circumstance has been ascertained by different delinquents, who, in their return, have seen the birds drop down, and have picked them up dead, and brought them to the okl ecclesiastic. I will here mention an instance, which proves the fact beyond all doubt, and which happened during my stay at Java. In 1775, a rebellion broke out among the subjects of the Massay, a sovereign prince,- whose dignity is nearly equal to that of the Emperor. They refused to pay a duty imposed upon them by their sovereign, whom they openly opposed. The Massay sent a body of a thousand troops to disperse the rebels, and to drive them with their families, out of his dominions. Thus? four hundred families, consisting of above sixteen hundred souls, were ob= Hged to leave their native country. Neither the Emperor nor the Sultan would give them protection, not only because they were rebels, but also through fear of displeasing their neighbour, the Massay. In this- distressful situation, they had no other resource than to repair to the uncultivated parts round the Upas,, and requested permission of the Emperor to settle there. Their request was granted, on condition of their fixing their abode not more than twelve or four- teen miles from the tree, in order not to deprive the inhabitants already settled there, at a greater distance, of their cultivated lands. With this they were obliged to comply; but the consequence was, that in less than two months their number was reduced to about three hundred. The chiefs of those who remained returned to the Massay, informed him of their losses, and intreated his pardon, which induced him to receive them again as subjects, thinking them sufficiently punished for their misconduct. I have seen and conversed with several of those who survived, soon after their return. They all had the appearance of persons tainted with an infectious disorder; they looked pale and weak, and, from the account which they gave of the loss of their com- rades, and of the symptoms and circumstances which attended their dissolu- tion, such as convulsions, and other signs of a violent death, I was fully con- vinced that they fell victims to the poison. This violent effect of the poison at so great a distance from the tree cer- tainly appears surprising, and almost incredible; and especially, when we DESCRIPTION OF THE BOHUN-UPAS. 1$ consider that it is possible for delinquents who approach the tree to return alive. My wonder, however, in a great measure, ceased, after I had made the following; observations : I have said before, that malefactors are instructed to go to the tree with the wind, and to return against the wind. When the wind continues to blow from the same quarter while the delinquent travels thirty, or six and thirty miles, if he be of a good constitution, he certainly survives. But what proves the most destructive is, that there is no dependence on the wind in that part of the world for any length of time. — There are no regular land-winds; and the sea-wind is not perceived there at all, the situation of the tree being at too great a distance, and surrounded by high mountains and unculti- vated forests. Besides, the wind there never blows a fresh regular gale, but is commonly merely a current of light, soft breezes, which pass through the different openings of the adjoining mountains. It is also frequently difficult to determine from what part of trie globe the wind really comes, as it is di- vided by various obstructions in its passage, which easily change the direction of the wind, and often totally destroy its effects. I, therefore, impute the distant effects of the poison, in a great measure, to the constant gentle winds in those parts, which have not power enough to disperse the poisonous particles. If high winds were more frequent and dura- ble there, they would certainly weaken very much, and even destroy the ob- noxious effluvia of the poison ; but without them the air remains infected and pregnant with these poisonous vapours. I am the more convinced of this, as the worthy ecclesiastic assured me, that a dead calm is always attended with the greatest danger, as there is a continual perspiration issuing from the tree, which is seen to rise and spread in the air, like the putrid steam of a marshy cavern. Experiments made with the Gum of the Upas-Tree. In the year 177-6, in the month of February, I was present at the execution of thirteen of the Emperor's concubines, at Soura-Charta, who were convict- ed of infidelity to the Emperor's bed. It was in the forenoon, about eleven o'clock, when the fair criminals were led into an open space, within the walls of the Emperor's palace. There the judge passed sentence upon them, by which they were doomed to suffer death by a lancet, poisoned with Upas. After this the Alcoran was presented to them, and they were, according to the law of their great prophet Mahomet, to acknowledge and to affirm by oath, that the charges brought against them, together with the sentence and their punishment, were fair and equitable. This they did, by laying their right hand upon the Alcoran, their left hand upon their breast, and their eyes lifted towards heaven ; the judge then held the Alcoran to their lips, and they- kissed it. These ceremonies over, the executioner .proceeded on his business in the following manner : — Thirteen posts, each about five feet high, had been pre- viously erected. To these the delinquents were fastened, and their breasts airipped naked. In this situation they remained a short time in continual t3B BOTANIC GARDEN. Part II. prayers, attended by several priests, until a signal was given by the judge to the executioner ; on which the latter produced an instrument, much like the spring lancet used by farriers for bleeding horses. With this instrument, it being poisoned with the gum of the Upas, the unhappy wretches were lanced in the middle of their breasts, and the operation was performed upon them all in less than two minutes. My astonishment was raised to the highest degree, when I beheld the sud- den effects of that poison ; for in about five minutes after they were lanced they were taken with a tremor, attended with a suhsuttus tendinum; after which they died in the greatest agonies, crying out to God and Mahomet for mercy. In sixteen minutes by my watch, which I held in my hand, all the criminals were no more. Some hours after their death, I observed their bodies full of livid spots, much like those of the Petechia, their faces swelled, their colour changed to a kind of blue, their eyes looked yellow, Sic. &c. About a fortnight after this I had an opportunity of seeing such another execution at Samarang. Seven Malayans were executed there with the same instrument, and in the same manner ; and I found the operation in the poison, and the spots in their bodies, exactly the same. These circumstances made me desirous to try an experiment with some animals, in order to be convinced of the real effects of this poison ; and as I had then two young puppies, I thought them the fittest objects for my pur- pose. I accordingly procured, with great difficulty, some grains of Upas. I dissolved half a grain of that gum in a small quantity of arrack, and dipped a lancet into it. With this poisoned instrument I made an incision in the lower muscular part of the belly in one of the puppies. Three minutes after it received the wound the animal began to cry out most piteously, and ran as fast as possible from one corner of the room to. the other. So it continued during six minutes, when all its strength being exhausted, it fell upon the ground, was taken with convulsions, and died in the eleventh minute. I re- peated this experiment with two other puppies, with a cat and a fowl, and found the operation of the poison in all of them the same : none of these animals survived above thirteen minutes. I thought it necessary to try also the effect 6f the poison given inwardly, which I did in the following manner. I dissolved a quarter of a grain of the gum in half an ounce of arrack, and made a dog of seven months old drink it. Ift seven minutes a retching ensued, and I observed, at the same time, that the animal was delirious, as it ran up and down the room, fell on the ground, and tumbled about ; then it rose again, cried out very loud, and in about half an hour after was seized with convulsions, and died. I opened the body, and found the stomach very much inflamed, as the intestines were in some parts, but not so much as the stomach. There was a small quantity of coagulated blood in the stomach ; but I could discover no oriiice from which it could have issued ; and therefore supposed it to have been squeezed out of the lungs, by the animal's straining while it was vomiting. From these experiments 1 have been convinced that the gum of the Upar, is the most dangerous and most violent of all vegetable poisons ; and I am apt to believe that it greatly contributes to the unhealthiness of that island. DESCRIPTION OF THE BOA-UPAS. 13i ftor is this the only evil attending it : hundreds of the natives of Java, as well as Europeans, are yearly destroyed and treacherously murdered by that poison, either internally or externally. Every man of quality or fashion has his dagger or other arms poisoned with it ; and in times of war the Malayans poison the springs and other waters with it. By this treacherous practice: the Dutch suffered greatly during the last war, as it occasioned the loss of half their army. For this reason they have ever since kept fish in the springs of which they drink the water, and sentinels are placed near them, who in- spect the waters every hour, to see whether the fish are alive. If they march with an army or body of troops into an enemy's country, they always carry live fish with them, which they throw into the water some hours before they venture to drink it ; by which means they have been able to prevent their total destruction. This account, I flatter myself, will satisfy the curiosity of my readers, and the few facts which I have related will be considered as a certain proof of the existence of this pernicious tree, and its penetrating effects. If it be asked why we have not yet any more satisfactory accounts of this tree, I can only answer, that the object of most travellers to that part of the world consists more in commercial pursuits than in the study of Natural History and the advancement of Sciences. Besides, Java is so universally reputed an unhealthy island, that rich travellers seldom make any long stay in it ; and others want money, and generally are too ignorant of the language to travel, in order to make inquiries. In future, those who visit this island will now probably be induced to make it an object of their researches, and will furnish us with a fuller description of this tree. I will, therefore, only add, that there exists also a sort of Cajoe-Upas on the coast of Macasser, the poison of which operates nearly in the same man- ner, but is not half so violent or malignant as that of Java, and of which I shall likewise give a more circumstantial account in a description of that island. — London Magazine. Another account of the Boa- Upas, or Poison-Tree of Macasser, from an inau- gural dissertation published by Christ. Aejmelaeus, and approved by Professor Thunberg, at Upsal. Doctor Aejmelaeus first speaks of poisons in general, enumerating many virulent ones from the mineral and animal, as well as from the vegetable kingdoms of nature. Of the first he mentions arsenical, mercurial, and an- timonial preparations ; amongst the second he mentions the poisons of seve- ral serpents, fishes, and insects; and amongst the last the Curara on the bank of the Oronoko, and the Woorara on the banks of the Amazones, and many others. But he thinks the strongest is that of a tree hitherto unde- scribed, known by the name of Boa-Upas, which grows in many of the warmer parts of India, principally in the islands of Java, Sumatra, Borneo, Bali, Macasser, and Celebes. 134 BOTANIC GARDEN Tart II- Rumphius testifies concerning this Indian poison, that it was more terri- ble to the Dutch than any warlike instrument; it is by him styled Arbor toxicaria, and he mentions two species of it, which he terms male and female ; and describes the tree as having a thick trunk, with spreading branches, co- vered with a rough dark bark. The wood, he adds, is very solid, of a pale yell.v. , and variegated with black spots; but the fructification is yet un- known. Professor Thunberg supposes the Boa-Upus to be a Cestrum, or a tree of the same natural family ; and describes a Cestrum of the Cape of Good-Hope, the juice of which the Hottentots mix with the venom of a certain serpent, which is said to increase the deleterious quality of them both. The Boa-Upas tree is easily recognized at a distance, being always solitary, the soil around it being barren, and, as it were, burnt up ; the dried juice is dark brown, liquifying by heat, like other resins. It is collected with the greatest caution, the person having his head, hands, and feet carefully co- vered with linen, that his whole body may be protected from the vapour a* well as from the droppings of the tree. No one can approach so near as to gather the juice ; hence they supply bamboos, pointed like a spear, which they thrust oblquely, with great force, into the trunk ; the juice oozing out gra- dually fills the upper joint ; and the nearer the root the wound is made, the :nore virulent the poison is supposed to be. Sometimes upwards of twenty yeeds are left fixed in the tree for three or four days, that the juice may collect and harden in the cavities ; the upper joint of the reed is then cut off from the remaining part, the concreted juice is formed into globules or sticks, and is kept in hollow reeds, carefully closed, and wrapped in tenfold linen. It 5s every week taken out to prevent its becoming mouldy, which spoils it. The deleterious quality appears to be volatile, since it loses much of its power in the time of one year, and in a few years becomes totally efiete. The vapour of the tree produces numbness and spasms of the limbs, and If any one stands under it bare-headed, he loses his hair; and if a drop fab<> on him, violent inflammation ensues. Birds which sit on the branches a short time drop down dead, and can even with difficulty fly over it ; and not only no vegetables grow under it, but the ground is barren a stone's cast ground it. A person wounded by a dart poisoned with this juice feels immediately a sense of heat over his whole body, with great vertigo, to which death soon succeeds. A person wounded with the Java poison was affected with tremor tA the limbs, and starting of the tendons in five minutes, and died in less than sixteen minutes, with marks of great anxiety; the corpse, in a few hours, was covered with petechial spots, and the face became tumid and lead-co- loured, and the white part of the eye became yellow. The natives try the strength of their poison by a singular test ; some of the expressed juice of the root of Amomum Zerumbet is mixed with a little water, and a bit of the poisonous gum or resin is dropped into it ; an eller- vescence instantly takes place, by the violence of which they judge of tha : tn n-th of the poison. — What air can be extricated during this cilervesccnce ' — This experiment is said to be dangerous to the operator. FAIRY-SCENE. 133 As the juice is capable of being dissolved in arrack, and is thence supposed to be principally of a resinous nature, the Professor does not credit that foun- tains have been poisoned with it. This poison has been employed as a punishment for capital crimes in Ma- casser and other islands } in those cases some experiments have been made, and when a finger only had been wounded with a dart, the immediate am- putation of it did not save the criminal from death. The poison from what has been termed the female tree, is less deleterious than the other, and has been used chiefly in hunting; the carcases of animals thus destroyed are eaten with impunity. The poison-juice is said to be used externally as a remedy against other poisons, in the form of a plaster ; also to be used inierr.ally for the same purpose; and is believed to alleviate the pain, and extract the poison of venomous insects sooner than any other ap- plication. The author concludes that these accounts have been exaggerated by Mahomedan pjriests, who have persuaded their followers that the Prophet Mahomet planted this noxious tree as a punishment for the s'.ns of mankind. An abstract of this Dissertation of C. Aejmelaeus is given in Dr. Duncan's Medical Commentaries for the year 1790, Decad. 2d. vol. v. FAIRY-SCENE. From Mr. Mundfs Nee&wood Forest. Referred to in Canto IV. 1. 35, Here, seen of old, the elfin race With sprightly vigils mark'd the place ; Their gay processions charm'd the sight, Gilding the lucid noon of night ; Or, when obscure the midnight hour, With glow-worm lantherns hung the bower, — Hark !— the soft lute ! — along the green Moves with majestic step the Queen ! Attendant Fays around her throng, And trace the dance or raise the song ; Or touch the shrill reed, as they trip. With finger light and ruby lip. High, on her brow sublime, is borne One scarlet woodbine's tremulous horn ; A gaudy Bee-bird's* triple plume Sheds on her neck its waving gloom ; With silvery gossamer entwined Stream the luxuriant locks behind. '• The humming-bird. BOTANIC GARDEN. Thin folds of tangled network break In airy waves adown her neck ; — Warp'd in his loom, the spider spread The far-diverging rays of thread, Then round and round with shuttle fine Inwrought the undulating line ; — Scarce hides the woof her bosom's snow. One pearly nipple peeps below. One rose-leaf forms her crimson vest, The loose edge crosses o'er her breast ; And one translucent fold, that fell From the tall lily's ample bell, Forms with sweet grace her snow-white train, Flows, as she steps, and sweeps the plain. Silence and Night enchanted gaze, And Hesper hides his vanquish'd rays ! — Now the waked reed-finch swells his throat, And night-larks trill their mingled note ; Yet hush'd in moss with writhed neck The blackbird hides his golden beak ; Charm'd from his dream of love he wakes, Opes his gay eye, his plumage shakes. And, stretching wide each ebon wing, First in low whispers tries to sing ; Then sounds his clarion loud, and thrills The moon-bright lawns, and shadowy hills. Silent the choral Fays attend, And then their silver voices blend, Each shining thread of sound prolong, And weave the magic woof of song. Pleased Philomela takes her stand On high, and leads the Fairy band, Pours sweet at intervals her strain, And guides with beating wing the train. Whilst interrupted Zephyrs bear Hoarse murmurs from the distant wear; And at each pause is heard the swell Of Echo's soft symphonious shell. LOVES OF THE PLANTS. CATALOGUE POETIC EXHIBITION. CANTO I. CANTO II. Group of insects 21 Air-balioon of Montgolner Line. 25 Tender husband 39 Arts of weaving and spinning 67 Self-admirer 45 Arkwright's cotton mills 85 Rival lovers 51 Invention of letters, figures, and Coquet 61 crotchets 105 Platonic wife 65 Mrs. Delany's paper-garden 155 Monster-husband 77 Mechanism of a watch, and de Rural happiness 85 sign for its case 165 Clandestine marriage 93 Time, hours, moments IS J Sympathetic lovers 97 Transformation of Nebuchadnez- Ninon d'Enclos 125 zar 211 Harlots 139 St. Anthony preaching to fish 245 Giants 161 Sorceress 267 Mr. Wright's paintings 175 Miss Crewe's drawings 295 Thalestris 191 Song to May 309 Autumnal scene 197 Frost scene 333 Dervise procession 221 Discovery of the bark 347 Lady in full dress Lady on a precipice 229 Moses striking the rock 405 249 Dropsy 415 Palace in the sea 263 Mr. Howard and prisons 439 Vegetable lamb 281 Whale 289 CANTO III. Sensibility 299 Mountain-scene by night 345 Witch and imps in a church 7 Lady drinking water 359 Inspired Priestess 29 Lady and cauldron 373 Fuseli's night-mare 51 Medea and iEson 381 Cave of Thor and subterranean Aerial lady 391 Naiads 85 Forlorn nymph 401 Medea and children 135 Galatea on the sea 421 Palmira weeping 197 Lady frozen to a statue 435 Group of wijd creatures drinking 205 Part II. s BOTANIC GARDEN Poison-tree of Java 219 Time and hours 255 Wounded deer 263 Lady shot in battle 269 Harlots 329 Laocoon and his sons 335 Drunkards and diseases 357 Prometheus and the vulture 371 Lad> burying her child in the plague 387 Moses concealed on the Nile 421 Slavery of the Africans 439 Weeping muse 465 CANTO IV. Maid of night 13 Fairies 33 Electric lady 43 Shadrec, Meshec and Abednego in the fiery furnace 55 Shepherdesses 73 Song to Echo 79 Kingdom of China 107 Lady and distaff 115 Cupid spinning 133 Lady walking in snow 137 Children at play 147 ISnt. 159 175 199 203 221 245 Venus and Loves Matlock Bath Angel bathing Mermaid and Nereids Lady in salt Lot's wife Lady in regimentals 283 Dejanira in a lion's skin 289 Offspring from the marriage of the Rose and Nightingale 309 Parched deserts in Africa 325 Turkish lady in an undress 335 Ice-scene in Lapland 363 Lock-lomond by moonlight 385 Hero and Leander 403 Gnome-husband and palace under ground 413 Lady enclosed in a fig 429 Sylph-husband 439 Marine cave 451 Proteus lover 465 Lady on a Dolphin 471 Lady bridling a Pard 475 Lady saluted by a Swan- 481 Hymeneal procession 489 Night 515 LOVES OF THE PLANTS. CONTENTS OF THE NOTES. CANTO I. Slahe. EEDS of Carina, used for prayer-beads 39 Stems and leaves of Callitriche so matted together as they float on the water, as to bear a person walking on them 45 The female in Collinsonia approaches first to one of the males, and then to the other. Females in Nigella and Epilobium bend towards the males for some days, and then leave them 51 The stigma, or head of the female, in Spartium (common broom) is produced amongst the higher set of males ; but when the keel-leaf opens, the pistil suddenly twists round like a French-horn, and places the stigma amidst the lower set of males 57^ The two lower males in Ballota become mature before the two higher, and, when their dust is shed, turn outwards from the female. The plants of the class Two Powers, with naked seeds, are all aromatic ; of these, Marum and Nepeta are delightful to cats 60 The filaments in Meadia, Boiago, Cyclamen, Solanum, 8cc. shown by reasoning to be the most unchangeable parts of those flowers 61 Rudiments of two hinder wings are seen in the class Diptera, or two- winged insects. Teats of male animals. Filaments without anthers in Curcuma, Linum, &c. and styles without stigmas in many plants, show the advance of the works of nature towards greater perfection 65 Double flowers, or vegetable monsters, how produced 69, 77 The calyx and lower series of petals not changed in double flowers 63 Dispersion of the dust in nettles and other plants 73, 75 Cedar and Cypress unperisliable 75 Anthoxanthum gives the fragrant scent to hay 86 Viviparous plants : the Aphis is viviparous in summer, ana oviparous in autumn ibid Irritability of the stamen of the plants of the class Syngenesia, or Con- federate males 97 Some of the males in Lychnis, and other flowers, arrive sooner at their maturity 108, 119 Males approach the female in Gloriosa, Fritillaria, and Kalmia 119 Contrivances to destroy insects in Silene, Dionaca Muscipula, Arum Mus- civorum, Dypsacus, &.c. 139 Some bell-flowers close at night ; others hang the mouths downwards ; others nod and turn from the wind ; stamens bound down to the pistil^ in Amaryllis Formosissima ; pistil is crooked in Hemerocallis Flava, yellow day-lily 152 14§ BOTANIC GARDEN. Fart II Thorns and prickles designed frr the defence of the plant. Tall Hollies have no prickles above the reach of cattle. Bird-lime from the bark of Hollies like elastic gum 161 Adansonia the largest tree known. Its dimensions 183 Bulbous roots contain the embryon flower, seen by dissecting a tulip-root 204 Flowers of Cokhicum and Hamameks appear in autumn, and ripen their seed in the spring following 212 Sun-flower turns to the sun by nutation, not by gyration 221 Ds;>.rsion of seeds 224 Dr sera catches flies 229 Of the nectary, its structure to preserve the honey from insects 241 Curious proboscis of the Sphinx Convolvuli ibid Final cause of the resemblance of some flowers to insects, as the Bee- orchis ibid In some plants of the class Tetradynamia, or Four Powers, the two shorter stamens, when at maturity, rise as high as the others 250 Ice in the caves on Tenerif, which were formerly hollowed by volcanic fires ibid Some parasites do not injure trees, as Tillandsia and Epidcndrum 258 Mosses growing on trees injure them ibid Marriages of plants necessary to be celebrated in the air 264 Insects with legs on their backs ibid Scarcity of grain in wet seasons ibid Tartarian lamb. Use of down on vegetables. Air, glass, wax, and fat, are bad conductors of heat. Snow does not moisten the living animals buried in it, illustrated by burning camphor in snow 282 Of the collapse of the sensitive plant 299 Birds of passage 320 The acquired habits of plants ibid Irritability of plants increased by previous exposure to cold ibid Lichen produces the first vegetation on rocks 347 Plants holding water .. 365 Madder colours the bones of young animals 373 Colours of animals serve to conceal them ibid Warm bathing retards old age 385 Plant living on air without taking root 393 Male flowers of Vallisneria detach themselves from the plant, and float to the female ones 403 Air in the cells of plants, its various uses 415 Air-bladders of fish ibid How Mr. Day probably lost his life in his diving-ship ibid Star-jelly is voided by Herons 435 Intoxicating mushrooms ibid Mushrooms grow without light, and approach to awimal nature ibid CANTO II. Seeds of Tillandsia fly on long threads, like spider;; on the gossamer 7 Account of cotton miils 87 Invention of letters, figures, crotchets 105 Mrs. Delany's and Mrs. North's paper-gardens 15b The horologe of Flora 165 The white petals of Helleborus rriger become first red and then change into a green calyx 20 1 PartH. contents OF THE NOTES. lii Line. Berries of Menispermnm intoxicate fish 229 Effects of opium 270 Frontispiece by Miss Crewe 295 Petals of Cistus and CEnothera continue but a few hours 305 Method of collecting the gum from Cistus by leathern thongs ibid Discovery of the bark 349 Foxglove, how used in dropsies 425 Bishop of Marseilles and Lord Mayor of London 435 Superstitious uses of plants, the divining rod, animal magnetism 7 Intoxication of the Pythian priestess, poison from Laurel leaves, and from cherry kernels 40 Sleep consists in the abolition of voluntary power. Night-mare explained 74 Indian fig emits slender cords from its summit 86 Cave of Thor in Derbyshire, and subterraneous rivers explained 90 The capsule of the Geranium makes an hygrometer 131 Barley creeps out of a barn. Mr. Edgworth's creeping hygrometer ibid Flower of Fraxinella flashes on the approach of a candle ' 184 Essential oils narcotic, poisonous, deleterious to insects ibid Dew-drops from Mancinella blister the skin. Uses of poisonous juices in the vegetable economy. The fragrance of plants a part of their defence 188 The sting and poison of a nettle 191 Vapour from Lobelia suffocative. Unwholesomeness of perfumed hair- powder 193 Ruins of Palmira 197 The poison-tree of Java 238 Tulip roots die annually 259 Hyacinth and Ranunculus roots ibid Vegetable contest for air and light 329 Some voluble stems turn E. S. W. and others W. S. E. Tops of white Bryony as grateful as Asparagus ibid Fermentation converts sugar into spirit, food into poison 357 Fable of Prometheus applied to dram-drinkers 371 Cyclamen buries its seeds and trifolium subterraneum 381 Pits dug to receive the dead in the plague 408 Lakes of America consist of fresh water 413 The seeds of Cassia and some others are carried from America, and thrown on the coasts of Norway and Scotland 415 Of the Guif-stream ibid Wonderful change predicted in the gulf of Mexico iWd CANTO IV. In the flowers of Cactus grandiflorus, and Cistus, some of the stamens are perpetually bent to the pistil Nyc'anthes and others are only fragrant in the night. Cucurbita lage- naria closes when the sun shines on it i 142 BOTANIC GARDEN Paht II. Tropacolum, Nasturtion, emits sparks in the twilight. Nectary on its calyx 45 Phosphorescent lights in the evening. Hot embers eaten by bull-frogs 51 Long filaments of grasses, the cause of bad seed-wheat 73 Chinese hemp grew in England above '4 feet in five months 115 Roots of snow-drop and hyacinth insipid, like orchis 137 Orchis will ripen its seeds if the new bulb be cut off ibid Proliferous flowers 148 The wax on the candle-berry myrtle said to be made by insects 155 The warm springs of Matlock produced by the condensation of steam raised from great depths by subterranean fires 179 Air separated from water by the attraction of points to water being less than that of the particles of water to each other 195 Minute division of sub-aquatic leaves. Water-cress, and other aquatic plants, inhabit all climates 204 Butomus esculent. Lotus of Egypt. Nymphata ibid Ocymum covered with salt every night 225 Salt a remote cause of scrophula, and immediate cause of sea-scurvy ibid Coloured spatha of Arum, and blotched leaves, if they serve the pur- pose of a coloured petal 285 Tulip roots with a red cuticle produce red flowers ibid Of vegetable mules the internal parts, as ihose of fructification, resem- ble the female parent, and the external parts, the male one. The same occurs in animal mules, as the common mule and the hinnus, and in sheep 303 The wind called Harmattan from volcanic eruptions. Some epidemic coughs or influenza have the same origin 328 Fish killed in the sea, by dry summers, in Asia 334 Hedysarum gyrans perpetually moves its leaves like the respiration of animals 355 Plants possess a voluntary power of motion ibid Loud cracks from ice-mountains explained 370 Muschus Corallinus vegetates below the snow, where the heat is always about 40 3"5 Quick growth of vegetables in northern latitudes, after the solution of the snows, explained ibid The Rail sleeps in the snow ibid Conferva xgagropila rolls about the bottom of lakes 386 Lycoperdon Tuber, Truffle, requires no light 414 Account of caprification 430 Figs wounded with a straw, and pears and plumbs wounded by insects ripen sooner, and become sweeter ibid Female figs closed on all sides, supposed to be monsters ibid Basaltic columns produced by volcanos, shown by their form 455 Byssus floats on the sea in the day, and sinks in the night 459 Conferva polymorphs twice changes its colour and its form 466 Some seed-vessels and seeds resemble insects ibid Individuality of flowers not destroyed by the number of males or females which they contain. 490 r rrcs r:rc swarms of buds, which are individual:? ib,id LOVES OF THE PLANTS. INDEX TO THE NAMES OF THE PLANTS. A Page. DO'NIS 123 jEgagropila s 119 A'kea 15 Amary'llis . 20 Anemone 30 Anthox£nthum 16 Arum 113 Avena 104 Bdrometz 28 Bellis 107 Byssus 122 Cdctus 101 Calendula 53 Callitriche . 12 Canna 12 Cannabis 106 Capri-ficus 120 Carlina 47 Caryophy'llus . . ' . . . . 114 Cassia 86 Cereus 101 Chondrilla 17 Chunda 116 Cinchona ....... 60 Circaea 69 Cistus 58 Cocculus 56 Colchicum 23 Collinsonia Conferva 119, 122 Cupre"ssus Curcuma Cuscuta Cy'clamen 85 Cyperus 51 Pag?. Diamhus 114 Dicramnus 76 Digitalis 62 Dodecatheon 14 Draba 26 Dr6sera 24 D/psacus 32 Epidendrum . 34 Ffcus 72 Fucus 109 Fraxin&Ia 7S Galanthus 106 Genista 13 Glonosa . 18 Gossy'pium 50 Hedy'sarum 117 Heliamhus 24 Helleborus ....... 55 Hippomane 77 Ilex 21 Impatiens 74 Iris 15 Kleinh6via 22 Lapsana 55 L&uro-cerasus 70 Lichen 31 Lfnum 49 Lobelia 77 Lonicera 25 Lychnis 18 Lycoperdon 129 BOTANIC GARDEN Manilla 77 M^adia 14 Melissa 13 Menispermum 56 Mim6sa 29 Muschus 118 Nymphxa 53 Nelumbo 117 'Ocymum Ill Orchis 80 Osmunda 17 Osy'ris 16 57 SUne 19 Trapa HO Tremclla 36 Tropx'olum 103 Truiiaa 120 Tiilipa . Ulva . Upas . Urtica . 23 35 79 77 Papaver Papy'rus 51 Plantago 16 Polymorphs 122 Polypodium 28 Zostera Vfscum Vitis . Directions to the Binder for placing the Engravings. PART I. Flora attired by the Elements to face the Title-page. P^r. Hope attended by Peace, and Art, and Labour \ f A Slave in Chains $ Fertilization of Egypt 81 Cyprepedium 125 Erythrina Cora\odendron 127 Portland Vase 197 first Compartment 198 ■ — ■ — second Compartment 200 Handles and Bottom 203 Section of a Coal-Mhie 210 Section of the Earth 212 PART II. Flora at play with Cupid to face the Title-page. The plates with Nos. I. to XXIV. to be doubled and placed at the end of the preface Meadia to face 14 Gloriosa Superba 18 Dionsea Muscipula 19 Amaryllis Formosissima 20 Barometz. Vegetable Lamb 28 Vallisneria Spiralis 34 Nightmare 71 Hedysarum gyrans 116 Apocynum Androssernjfoli in 126 1 J ^ c "^0* I .0^ * v G°\ .** Q,s r ^ ? ^ /■■< ^ • .s °^ o°\ Vrf .o5 Q^ p<* tf v ^o 1 ,. ■ ** v^- *5 ' v A* Treatment Dale: March 2009 % PreservationTechnolod A WORLD LEADER IN COLLECTIONS PRESEMl 111 Thomson Park Dnv« J Cranberry Township. PA (72-1) 779-2111