Jo urna l DJ Claciology, Vo!. 6, No. 45, 1966 EA R LY D I SC O VERERS XXV STEPHEN REED, M.D . , AND THE "CELEBRATED" RICHMOND BOULDER TRAIN OF BERKSHIRE COUNTY, MASSACHUSETTS, U.S.A. * By G. WILLIAM HOLMES (U .S . Geological Survey, Beltsville, Maryland, U .S.A.) STEPHEN REED earned an honoured place in the history of western Massachusetts because of his contributions as a physician, schoolmaster, editor, scientific agriculturist, columnist, lecturer and sponsor of worthy causes and good works. Today he is but dimly rememb ered in the annals of American geology for his contribution to glacial theory and for his pioneering descriptions, published and unpublished , of the Richmond boulder train . This is a remark- able sequence of large amphibolite boulders that extend from a unique source point, The Knob or "Frye's Hill" in New York State, for several tens of kilometers south-eastward into Massachusetts (Fig. I ) . Reed first reported on this "chain of erratic serpentine rocks" in a local journal, the Lenox Farmer, in 1842. This article was n ot available to the writer, although several early accounts refer to this paper. Later, R eed ( 1845 ) read a scientific account of the boulder train at a national geological meeting. This p a per sparked a trans- Atlantic debate that involved man y leading geologists, including Sir Charles Lyell , Edward Hitchcock, Ebenezer Emmons, Jam es Hall and Louis Agassiz. This d ebate was not resolved until the concept of glaciation was widely accepted in the sixth and seven th d ecades of the last century. Boulder trains and other less well-defined sequences of erratic blocks had been described earlier, having been observed in the late eighteenth century by, among others, de Saussure ( 1803 , Vo!. I , p . 206 ) in the vicinity of L a ke Geneva, and by Duroch er ( 1842 , p. 94) in Poland and Russia at about the same time as R eed's first paper. Yet the Richmond boulder train probably created more interest, because it was studied in the field by a relatively large number of eminent and articulate geologists, because its discove r y and publish ed d escriptions happened to fall within the fermentative p eriod when the broader question of the origin of the drift sheets was being vigorously d ebated o n both sides of the Atlantic, and because of its con- spicuous nature . This last aspect is notable, for unlike many other c hains of erratics or in- dicator fan s (Flint, [1957], p. 12 3), which are traceable only by careful study of buried fragments in till, this feature is clearly a train of surface boulders. For example, it maintains its narrow width for at least 29 km ., and it is composed offragments typically 5 m. in diameter, a few being 15 to 29 m. across (Fig. 2). Today, in spite of powerful earth-moving equipment and dynamite , many boulders are conspicuous in the open fields (Fig. 3). Stephen Reed was born in Cornwall, Connecticut, in 180 1 and attended Yale University, graduating in 1824. There he received, for his time, a sound scientific education , coming in contact with Professor Benjamin Silliman, and taking courses in chemistry, mineralogy, geology and natural philosophy (p ersonal communication from Yale University Graduate School, 1966). He subsequently "passed through" medical school at Yale, practiced for a short while In Goshen and in Roxbury, Connecticut, and then moved to Richmond, Massachusetts, In 183 I. His interests apparently ranged far beyond medicine, for in 1838 he abandoned his * Publication a uthorized by the Director, U.S. Geological Survey. 43 1 Downloaded from https://www.cambridge.org/core. 06 Apr 2021 at 01:01:28, subject to the Cambridge Core terms of use. https://www.cambridge.org/core 43 2 JO U R N AL OF GLA C IOLOGY '" ~ ..... '" 'r ~ I-.. '" ~/: ~ .U -:> g/.~ ~ 0 >-/~ ~ . l: 0 !/5 u ~/.~ '" /~ i ;... "- / '--~~.:L~ ~.........:O:L..: _ _ _ ~I "" LE ...... -'·$<..........>0'-_-'1 K"' . Fig. I. Sketch map showing the location of the principal boulder trains in the Richmond, M assachuse tts, area practice, after which , in Reed's words, he " left the people to go their own way to death" (personal communication from Yale University Graduate School, 1966) . He then founded a boarding school for boys , which was regarded as both " prosperous and useful" (Berkshire County Eagle, 1877 ) . It was during his years as a schoolmaster in Richmond that he ap- parently took notice of the lines of erratic boulders that crossed his farm fields and those to the north-west and south-east (Fig. I ) . His observations were unhampered by the dense forest that now covers much of the Downloaded from https://www.cambridge.org/core. 06 Apr 2021 at 01:01:28, subject to the Cambridge Core terms of use. https://www.cambridge.org/core EARLY DI SCOVE RER S 433 Fig . 2. One of the larger amphibolite boulders (from L.yell's ( 1871 ) account) Fig. 3. Typical distribution of amphibolite boulders in an open field. These are from the "second train" of R eed. December, 19 65 Berkshire Hills and Taconic Mountains, for upland pastures were then more extensive, not only because of more intensive grazing, but because of the demand for hardwood for the local charcoal-burning iron furnaces. More important, Reed's geo logic training sharpened his powers of observation, for a lthough the amphibolite boulders are different on close in- spection from th e local schist, limestone and quartzite, the weathered appearance of the erratics would not set them distinctly apart to the casual observer. As a farmer, Reed was Downloaded from https://www.cambridge.org/core. 06 Apr 2021 at 01:01:28, subject to the Cambridge Core terms of use. https://www.cambridge.org/core 434 JOURNAL OF GLACIOLOGY also aware of their unique size, because the larger boulders in the train could not be easily broken or transported to the edges of the farm fields . Dr. Reed also had the advantage of living during a golden age of intellectual d evelop- ment in Berkshire County. Literary figures of national reputation were his neighbors, writers whose subject matter frequently dealt with nature and natural phenomena (Tague and Kimball, 196 I, p. 27- 29). Herman Melville, Nathaniel Hawthorne, William Cull en Bryant, Henry Wadsworth Longfellow and Oliver Wend ell Holmes lived nearby. As Reed was active in community and county affairs, he probably could not escape the influence of the intellectual climate these writers helped to create. Nature study and scientific outings were popular pastimes. A typical excursion occurred in 1869, when a young men's association from Pittsfield, in the company of Dr. R eed, celebrated the hundredth anniversary of the birth of Baron von Humboldt on Perry's Peak (Fig. I ), complete with refreshments and the reading of odes , and ending with a cross-country hike a long the boulder train (Annin, 1964, p. 133 )· Reed's first presentation of his observations to a geologic audience (Reed, 1845 ) noted the essential aspects of the boulder train: the great size of the boulders; their lithology, especially their hardness and toughness; their distribution along a length of 29 km.; the fa ct that the width of the train did not exceed about 100 m.; the concentration of the larger b locks on the sou th-eastern (or down-glacier) slopes; and significantly, the transport across hills higher than the source of the boulders. Except for careful plotting on accurate base maps and supplementary petrographic and particle-size studies, Reed's account needs little improvement. In later years when lecturing on the boulder train , he explained its origin in a manner any Berkshire County farmer could understand: " If you should find apples of a particular kind strewn along the road, and following them up should find a cart loaded with fruit of the same kind, you would have no doubt where they came from" (Pittsfield Evming Sun, 1877, p. 2). Dr. Reed's account in a local journal in 1842 caught the eye of Edward Hitchcock, the State Geologist of Massachusetts, who published an abstract (Hitchcock, 1844) and later a longer account (Hitchcock, 1845 ) . He made a few refinements in Reed's observations, notably that the boulders extended from their source more than 29 km. to the south-east, that there was a second train south-west of the original chain, and that the blocks were on the surface and not in the drift. In attempting to explain their origin he discounted iceberg transport, because of the large number of boulders and the straightness of the train . He rejected "packed ice" (probably meaning sea ice ) as a vehicle, because it would have to be much thicker than modern sea ice and because transport to the south- east would be b locked by the topography. He could not imagine that water currents could have transported such large fragments, and he rejected the idea that the bould ers were a medial moraine in a glacier, as he believed that the glacier could not have flowed up-hill over the ridges. He also did not believe they could be "streams of stones", such as Darwin had described from the Falkland Islands, as the boulders were not confined to the valleys. As an honest scientist, Hitchcock stated that he knew no explanation and that more information was needed. His failure to reach a conclusion may be puzzling, as he is on record (Hitchcock, 1841[a], p. 3a- 11a; 184I[b] ) as stating the first widely circulated explanation in America of the glacial origin of the drift. The persons who perhaps gave the most imaginative explanation were Rogers and Rogers ( 1845, 1846) . They observed that the two main trains came from depressions at the crest of the hill from which they originated, and that the trains were slightly sinuous. Rejecting g lacial transport and iceberg drifting, they held that the train was the result of a sudden discharge of the Arctic Ocean southward, as a wave of translation (not unlike a tsunami). The Arctic waters picked up speed sweeping down the south -west slopes of the Adirondack Mountains and drove enormou s ice islands against the summit of The Knob. This pro- Downloaded from https://www.cambridge.org/core. 06 Apr 2021 at 01:01:28, subject to the Cambridge Core terms of use. https://www.cambridge.org/core EARLY DISCOVERERS 435 duced a vortex "endowed with an excess gyratory or spiral velocity" which had a pendant column (similar to a tornado funnel or dust devil in the atmosphere) . The whirlpool then gath ered into its rotating column blocks from the summit and strewed them in a line along which its p endant apex dragged along the ground (Rogers and Rogers, 1845 , p . 79 ) . Only a few years later came the first published suggestion that the Richmond boulder train was of glacial origin . Desor ( 1848) stated that similar trains of boulders parallel the courses of glaciers in Switzerland. However, as frequ ently occurs in the history of science, the true origin was not generally accepted until several decades had passed. Sir Charles L yell was among those who did not accept a g lacial origin for the Richmond train (Lyell , 1855, 1871 ) . In th e company of R eed (whose name he spelled R eid ), Hitchcock and James Hall , Lyell carefully traversed th e Richmond area and plotted a total of seven parallel lines of boulders. However , th e additi o nal five train s, four of which were plotted south -west and one north-eas t of the main trains, were said to b e composed mostly of lime- stone blocks. As the lim es tone trains were not traced to a lithologically unique point source, limes tone b eing one of the commonest local rocks, they probably should not be regarded as bould er trains. P erhaps L yell' s chief contribution was his careful description , which was widely circulated in a journal ( 1855) and in his tome, The geological evidences cif th e antiquity 0] Man ( 1871 ) . H e described the larges t bould e r in th e train, the "Alderman" on " Dupey's Mount" (Fig. I ), which is 29 m . long, and noted that in some localities as many as 40 or 50 blocks could b e observed lying near each other " th e smallest of them larger than a camel" . H e also published a somewhat sp ec tacular sketch of a block, 16 m . long, near the Richmond Meeting House (Fig. 2). This information certainly stimulated wid e discussion and specula- tion. How ever , his explanation was that the blocks were transported from Th e Knob by "coast ice" which was able to drift south-westward through th e saddles of the ridges (Lyell , 1871 , p. 36 1) . H e rejected glacial transport, fo r h e believed that the flow of glacial ice would have caused the boulders to fan out rather th a n be deposited in a lin e (L yell , 1871 , p. 350) . Ind eed , many, if not most, of these features elsewh ere are in fan patterns, as implied in Flint's term , indica tor fan (Flint, [1957] , p. 12 3) . The R eve rend John B. Perry, like R eed an amateur geologist, n ex t made a contribution to the discu ssion of th e boulder train (Perry, 187 1) , publishing a year befor e the appearance of Agassiz's ( 1872 ) short but d efinitive opinion on its origin. P er r y postulated that the train was deposited b y a glacier that had thinned to about 200 m . and m oved around the summit of The Kn ob (P err y, 1871 , p. 168) . Agassiz ( 1872 , p . 385 ) disco unted an iceberg m echanism for transport of th e boulders, b ecause he observed the blocks w ere rounded and scratched. H e suggested that the boulder train was cau sed by an immense , not local , ice sheet, not less than about 3,300 to 4,000 m. thick. Agassiz also stated that R eed had not received due credit for his observations . Stephen R eed in 1873, n ow an elderly and distinguish ed citizen of Berkshire County, published anoth er scientific paper on the boulder trains. In the years since the publication of his first papers, he had b eco m e the editor and publisher of a weekl y j ournal , had pur- chased an agricultural supply house, had b ecom e active in community affairs in Pittsfield, and had lec tured and written newspaper articl es on geology and natural history. In his last paper, publish ed o nl y a year after Agassiz effec tively end ed the boulder-train d ebate, R eed d escribed a boulder train 2 mil es (3.2 km. ) south of the " main" train (Fig. I ) . He noted that glacial transport was supported by the fact that grinding and grooving w ere greater on the up-glacier slopes, that the larger blocks were found on the down-glacie r slopes, and that som e bould ers were found at hig her elevatio ns than their sources (R eed , 1873) . The most complete study of the boulder train was made by Benton (1878) in a paper published a year after the death of Dr. R eed . Benton mapped the bould ers, u sing his own remarkably good base map, and mad e measurements of bould er den sities and sizes. Although Benton was able to trace the main and (less continuous) secondary trains and fragments of Downloaded from https://www.cambridge.org/core. 06 Apr 2021 at 01:01:28, subject to the Cambridge Core terms of use. https://www.cambridge.org/core JOURNAL OF GLACIOLOGY two others, he could not find evidence for the other three trains of Lyell (Fig. I). He sub- stantiated Reed's observations, showing that boulders on the north-west slop e of the " Canaan Mountains" a veraged about 4 m . in diameter, whereas those on the south-east slope averaged about 5 m . Boulders in the Lenox-Stockbridge valley (near Tanglewood ) averaged only 60 cm. in diameter (Fig. I ). By the 1870's, the glacial hypothesis for the origin of drift was widely, although not univ ersally, accepted (Flint, [1957], p. 5) . Yet the Richmond boulder train continued to stimulate interest and discussion , locally and nationally. A d escription of the boulder train and a sketch of the life of Dr. Reed appeared prominentl y in a compre hensive history of Berkshire County (Smith, 1885, Vo!. I, p. 3; Vo!. 2, p. 237,418, 490- 91 ) and recently in a history of the town of Richmond (Annin, 1964, p. 132- 33 ) , and the feature is mentioned in most of the standard textbooks on glacial geology (Wright, 1889, p. 210; Flint, [1957], p . 126 ; Charlesworth , 1957, p. 365 ) . The erratic blocks were re-studied early in this century by Taylor ( 1910), who essentiall y supported the observations of Reed and Benton, and who presented evidence for a second diverging train of buried amphibolite boulders trending southward from The Knob. Taylor implied that the south-trending train was evidence for an advance of the ice sheet in western Massachusetts prior to the one that deposited the Richmond train. More recentl y, Chute (unpublished), in the course of investigations of the iron deposits of Berkshire County, reviewed the literature on the Richmond train and discussed some of its striking characteristics. Among all the participants in the boulder-train debate, Stephen Reed , amateur geologist, probably deserves the most credit for presenting, directly and indirectly, solid evidence supporting the theory of continental g laciation. MS. received 3 May 1966 REFERENCES Agass iz, L. 1872 . [Obse rva tions on boulders in Berkshir e Co unty.] Proceedings of the Boston S ocie ty of Natural H is tory, V ot. 14, p. 385-86. Annin , K. H . 1964. R ichmond , M assachusetts, the story of a Berkshire to w n and its people, 1765- 1965 . North Ada rns , Mass. , Excelsior Printing Co . Benton , E. R. 18 78. The Ri chmond b oulder trains. B ulletin of the lv[useum of Comparative Z oology, Ha rvard College , Vol. 5, p. 17-42. B erkshi re County E agle, 19 July 18n. [Obituary of Dr . Stephen Reed.] Cha rl esworth , J . K. 1957. Th e Quaternary era , wi th special reference to its glacia tion. London, E dward Arnold. 2 vols. Chute, N . E. Unpublish ed. Th e brown iron ore distri ct of Berkshire Co unty, Mass a c huse tts. [Massachuse tts D epartment of Publi c Works and U .S . G eological Survey C oop e rative Geo logical Proj ec t, Open File R ep ort, written 1945.] D eso r , E. 1848. On p a ra llel trains of boulders in Berkshire County, Mass. Proceedings of the B oston Society of Na tural H is tory, Vol. 2, p . 260- 6 1. Duroc h e r , M. 1842. Obse rvation s sur le phenomen e dilu vien dans le nord d e l 'Europe. Comptes Rendus H eb- do madaires des Stances de l ' A cademie des S ciences (Paris), T om. 14, No. I , p . 78- 110. Flint, R. F. [1957 .] Glacial and Pleistocene geology . N ew York , John Wil ey and Sons , Inc . Hitchco ck, E . 1841 [a]. Final report on the geology of Ma ssachusetts . Vol. I. Amherst, J. S. and C . Adams. Hitchcock, E. 184 I [b]. F irst annive rsary address b efore th e Association of American G eologists. American Journal of S cience, 1st Ser. , Vot. 41 , No . 2, p. 232-75 . Hitchco ck, E. 1844. Disp ersion of blocks of stone at th e drift p eriod in Berkshire County, Mass. A merican J ournal of S cience, 1st Ser. , Vot. 47, No . I , p . 132-33. [Abstrac t.] Hitchcoc k, E . 1845 . D escription of a singular case of th e dispersion of blocks of stone conn ected with drift in Berkshire County, Mass. American Journal of Science, 1st Ser ., Vot. 49, No. 2, p. 258- 65. Lyell , C. 1855. On cert a in trains of errati c blocks on th e wes tern borders of Massachuse tts, United States. Notices of the Proceedings at the Meetings of the M embers of the Royal Institution, Vol. 2, p . 86-97 . Lyell , C. 1871. The geological evidences of the antiquity of Man . Second edition . Philadelphia, J . B. Lippincott and C o . Perry, J . B. 187 I. Boulde r trains in Berkshire County, Mass. Proceedings of the American Associationfor the Advancement of S cience, Vol. 19, p. 167-69 . Pittsfield E vening Sun , 18 July 18n . [Obituary of Dr. R eed.] R eed , S. 1845. A chain of erratic serpentin e rocks passing through the center of Berkshire County. Proceedings of the Association of American Geologis ts , 6th annual m ee ting, p. 12. Downloaded from https://www.cambridge.org/core. 06 Apr 2021 at 01:01:28, subject to the Cambridge Core terms of use. https://www.cambridge.org/core EARLY DISCOVERERS 437 Reed, S. 1873. On trains of boulders and on the transport of boulders to a leve l above that of th eir source. American Journal of Science , 3rd Ser. , Vol. 5, No . '27, p . '218- 19. Rogers, H. D. , and Rogers, W. B. 1845. [On the boulder trains of Berkshire County, Mass .] Proceedings of the Boston Society of Natural H istory, Vol. '2, p. 79-80. Rogers, H. D. , and Rogers, W. B. 1846. An account of two remarkable trains of angular erratic blocks in Berkshire, Mass., with an attempt at an explanation of the phenomena. Boston Journal of Natural H istory, Vol. 5, P·3 Io- 30 . Saussure, H. B. de. 1803. Voyages dans les Alpes,preddes d ' un essai surl'histoire naturelle des environs de Geneve. Neuchatel , Louis Fauche-Borel. Smith, ]. E. A., ed. 1885 . The history of Berkshire County , Mass. New York, ]. B. Beers Co. '2 vols. Tague, W. H., and Kimball, R. B. , ed. 1961. Berkshire , two hundred years in pictures, 1761 - 1961. Pittsfield , Mass. , Eagle Publishing Co. Taylor, F. B. 1910 . Richmond and Great Barrington boulder trains. Bulletin of the Geological Society of America, Vol. '21, p. 747-5'2. Wright, G. F. 1889. The I ce Age in North America. New York, D . Appleton and Co . Downloaded from https://www.cambridge.org/core. 06 Apr 2021 at 01:01:28, subject to the Cambridge Core terms of use. https://www.cambridge.org/core Vol 6 Issue 45 page 431-437 - Early discoverers XXV - Stephen Reed, M.D., and the 'celebrated' Richmond boulder train of Berkshire County, Massachusetts, U.S.A - G.William Holmes