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Renew online by choosing the My Account option at: http://www.library.uiuc.edu/catalog/ UNIVERSITY OF ILLINOIS Agricultural Experiment Station BULLETIN No. 107 COMPARATIVE EXPERIMENTS WITH VARIOUS INSECTICIDES FOR THE SAN JOSE SCALE BY S. A. FORBES STATE ENTOMOLOGIST URBANA, APRIL, 1906 SUMMARY OF BULLETIN No. 107. 1. Experiments with twenty-seven different kinds and forms of in- secticides for the San Jose scale begun, near Richview. 111., in January and March, 1905. Page 244. 2. Results ascertained by careful estimate of degree of infestation before spraying, the last of May, and early in September. Page 244. 3. Conditions necessary to exact experiment. Page 245. 4. Special purpose of operations, to compare various lime and sulphur mixtures and to test soluble petroleum preparations. Page 246. 5. Most general results establish superiority of lime and sulphur washes over other mixtures tested, and of late spring over midwinter appli- cations. Page 246. 6. Details of experiments with eleven preparations with a lime and sulphur basis. Pages 247-254. 7. Tables of twenty experiments. Pages 253-254. 8. Eleven principal experiments show ratio of 74 to 79 per cent, of benefit with the lime and sulphur solution made by boiling, without salt or blue vitriol. Page 255. 9. March spraying nearly twice as effective as January spraying. Page 256. 10. Soda solutions of lime and sulphur made without heat, less than half as efficient as boiled .solutions made without soda. Page 256. 11. Minor experiments with lime and sulphur mixtures, and with miscel- laneous kerosene insecticides, confirm conclusions given above. Page 256. 12. Whale-oil soap found about equal to California wash, but much more costly. Less efficient than simple lime and sulphur solution. Page 258. 13. Costs of various materials given. . Page 259. 14. Cheapest as well as most efficient insecticide, is lime and sulphur wash, costing 84 cents per hundred gallons. Page 259. 15. General summary of article. Page 260. COMPARATIVE EXPERIMENTS WITH VARIOUS INSEC- TICIDES FOR THE SAN JOSE SCALE. In my Eleventh Report as State Entomologist, published in 1903, 1 gave the results of experiments and extensive practical opera- tions with several of the more prominent insecticides used against the San Jose scale,* including whale-oil soap solution, hydrocyanic acid gas, kerosene emulsion, mechanical mixtures of kerosene, and lime and sulphur compounds known as the "California wash" when made with the addition of salt, and the "Oregon wash" when made with' blue vitriol. All these substances have been found effective against the San Jose scale, but the kerosene mixtures and emulsions were abandoned by me in December, 1901, because of serious dam- age done to trees with these insecticides in 1900 by one of my spray- ing parties, working under the immediate personal charge of my most experienced operator, f Crude petroleum, much used in some other states, has been little used at any time in Illinois, and observa- tions made by one of my assistants in 1902 in the Catawba Island district in northern Ohio, where it had been extensively applied by orchardists, were so discouraging that I have made but a single ex- periment with it.t After the passage of the Illinois inspection law in 1899 ^ be- came my duty to treat, free of expense to the owner, all orchards in- fested by the San Jose scale which there was good reason to believe had become so infested before the passage of that act. As it has now become virtually impossible to trace existing infestations to so remote a beginning, this feature of our law has become practically inoperative, and the owner is required to treat infested trees on his own account. This fact has made if important that every effort should be made to distinguish, among the various available insecti- cides, those which are at the same time effective, cheap, and conve- nient of preparation and application, especially as several commercial compounds of lime and sulphur, and others with a kerosene basis, are being extensively advertised and offered in condition for immedi- *Twenty-second Rep. State Ent. 111., pp. 56-57, 89-90; Bull. 80, 111. Agr. Exper. Sta- tion, pp. 492-493. (Twenty-second Rep. State Ent., pp. 48-50. tlbid., pp. 93-95. 243 244 BULLETIN No. 107. [April, ate application when diluted. I consequently, last winter, instructed Mr. E. P. Taylor, the assistant in charge of orchard inspection and insecticide operations, to carry on a series of experiments in a care- fully chosen orchard, intended to test a number of these insecticides under identical conditions and in a way to enable us to give the re- sults in the exact form of percentages of benefit for each. For this purpose, control was obtained of two small orchards near Richview, 111., both belonging to Mr. Edward Tucker, one con- taining 780 apple- and peach-trees badly infested in the main, and the other, 680 peach-trees infested throughout but much less heavily so. These orchards were divided into plots of varying size, those in- tended for the more important insecticides containing from 47 to 141 trees each. Minor experiments were made on smaller lots, of from 3 to 33 trees, and single trees here and there were also used for a few preliminary tests. Insecticides were applied, partly early in January, from the 3d to the loth, and partly from the 2ist to the 24th of March, 1905. Twenty-seven kinds and forms of insecticides were used in all, of which seventeen were various compounds of sulphur and lime, six were kerosene preparations, three were soap solutions, and one was a simple alkali. The results were tested by three critical examinations, one made January 3 and 4, a second during the last days of May, and the last September 5 to 8. It is of course impossible to get an accu- rate idea of the effects of the treatment by comparing the ratio of living to dead at the time of the treatment with the corresponding ratio at a considerable interval thereafter, unless the scales remain attached to the tree after death ; and that they gradually disappear, especially after a lime and sulphur treatment, was shown by observa- tions reported by me in 1902.* SYSTEM OP INSPECTION. The choice of a system of inspection by which the condition of trees treated with various insecticides could be compared with their condition before treatment, and with that of other trees not treated but reserved as checks, was a difficult and perplexing matter. At first I was disposed to depend mainly on counts of dead and living scales from various parts of carefully selected trees, from which average ratios of dead to living, before and after treatment, might be computed, but such comparisons rapidly become misleading as the scales killed by the spray disappear under exposure to the weather. Comparisons of the results of treatment with different in- secticides can not be reliable if based on counts of living and dead, *Bull. 111. Agr. Exper. Station, No. 71, p. 243. 1906.} EXPERIMENTS WITH SAN JOSE SCALE. 245 because the scales killed by one insecticide may remain longer at- tached to the bafk than those killed by another, and there is abundant evidence that this is often the case. It is furthermore practically impossible to make sure that a tree selected for a scale-count is a fair average of its plot with respect to the degree of its infestation, and scarcely less difficult to make sure that the parts of its infested surface selected for counting are a fair average for the tree. For these reasons the counting method was abandoned, in the main, and I have relied instead upon a careful estimate of degrees of infesta- tion for each tree of both check and experimental plots, these esti- mates being recorded in figures ranging from i to 6. From these the average degrees of infestation for the trees of each plot were fig- ured, and these averages were compared with each other in a way to show numerically the effect of the treatment in a reduction of the average amount of infestation. CONDITIONS NECESSARY TO EXACT EXPERIMENT. In order to an estimate of the precise value of the results here reported, it will be helpful to review the conditions necessary to an entirely satisfactory experiment of this description. In the first place one should have at his command an orchard of considerable size, either all of one variety or with the separate varieties planted in complete and continuous rows all running in one direction. This should be divided across its whole width, and across the variety rows, into strips of five rows each if moderately infested by the San Jose scale, and into seven to ten rows if heavily infested, each strip receiving a different treatment except that occasionally strips should be left untreated as checks. To avoid the mutual influence of check and experimental plots upon each other, which may extend from one to three rows in each direction across the boundary, only the interior rows of each strip should be used for comparison. Experimental trees near the borders of the check strip are likely to receive young scales from the latter in larger number than they lose, if the experi- mental treatment has had any marked effect, and the reverse is of course true of the marginal rows of the check. This is not a theoret- ical supposition merely, but is shown by our previous experience, and by some of the averages to be reported farther on. As the check plots will act as centers of general dispersal of the scale insects during the whole of the following season, there should be no more of them than are clearly necessary. One at each end of the orchard will usually be enough. The trees of the interior rows of each strip should be graded very 246 BULLETIN No. 107. [April, carefully, 'one by one, as to the degree of their infestation, using, for convenience, a scale of ten degrees. One such grading should be made and recorded at the time the trees are sprayed, another about the last of May, just as the young are beginning to appear, and a third at the end of fall, when multiplication of the scales has vir- tually ceased for the season. All the grading should be done by one person, or by two persons independently, their estimates being averaged, and the person grading the infestation should not know the particulars of the experimental treatment. A comparison of the average degrees of infestation of the checks when the spray is applied, and again in May, will show the extent to which the scales may have died during the interval, under the effects of weather or from other causes, and a comparison of the check and experimental plots, respectively, in May, will show the immedi- ate effect of the insecticide. A similar comparison of these two kinds of plots, made at the end of the season of multiplication, will show the ultimate effect of the treatment at the end of the year. ORIGINAL PURPOSE OE OPERATIONS. Our own operations were originally planned with special refer- ence to the comparative values of modifications of the lime and sul- phur mixtures proposed by various entomologists, and also as a preliminary test of the efficiency of soluble petroleums, lime and sul- phur solutions, and other ready-made commercial products fre- quently offered for sale. Reports made by my field parties of the partial failure of midwinter sprayings with the lime and sulphur washes led me also to provide for a careful test of the final effect of sprays applied in January as compared with those applied in March. i MOST GENERAL RESULTS. The main general outcome of these experiments was to establish still more firmly the lime and sulphur washes as superior, on the whole, to all the other mixtures tested, and to show that January applications of these preparations have scarcely more than half the final effect of applications made in March. Among the lime and sul- phur mixtures, those made without salt or blue vitriol seemed clearly more efficient, as insecticides, than the older forms containing those substances, and the solutions made with soda, without boiling, were the least efficient of all. 1906.] EXPERIMENTS WITH SAN JOSE SCALE. 247 THE LIME AND SULPHUR MIXTURES. Seventeen preparations with a lime and sulphur basis were used in these experiments. They included various forms of the "Cali- fornia wash" and the "Oregon wash," and mixtures of lime and sul- phur without the salt necessary to the former or the blue vitriol neces- sary to the latter. These preparations varied in the kind of lime used in making them, in the proportions of the various ingredients, and in the length of time during which the mixtures were boiled to procure the solution. Two compounds purporting to be ready-made solutions of lime and sulphur were used, known respectively as "Cal- cothion" and "Con Sol." Major Experiments. Eleven of these experiments, in which more than 50 trees were treated, will be reported first, in the order of their final effectiveness. 1. This was a lime and sulphur wash made of 15 pounds of Mar- blehead lump-lime and an equal weight of sulphur to 50 gallons of water. The sulphur was first put into 12 gallons of water nearly at the boiling point, after being mixed with enough water to form a thin paste. The lime was then added and the mixture was boiled for 40 minutes with the necessary stirring. The whole was strained into a 5o-gallon tank which was then filled with water. Fifty-one trees were treated March 22, 1905, in the less-infested orchard (Orchard II.), at % a sufficient distance from the check strip to prevent any possible spread of the young scales to the experi- mental plot. The trees on this plot were compared September 10 with those in the two central rows of the check plot which was six rows wide both being carefully graded as to degree of infestation according to the system already described. The check trees aver- aged at this time 5.6 degrees of infestation, estimated on a scale of six degrees. Those of the experimental plot, on the other hand, averaged 1.2 degrees a difference of 4.4 degrees in favor of the experimental plot, or a ratio of benefit of 79 per cent.* In other words, the number of living San Jose scales on this experimental plot was virtually one fifth that which would have been present Sep- tember 10 if no treatment had been applied. Finally, if we compare the condition of this experimental plot September 10 with the condition of the same plot January 3, when the trees were first inspected, we find that the September infestation averages just one half that of January. 2. This was also a lime and sulphur mixture, differing from the *To ascertain this ratio, the figures denoting the infestation of the experimental plot are subtracted from those of the check plot, giving 4.4 per cent, as the difference, and this divided by 5.6, the measure of infestation of the check trees, gives 79 per cent. 248 BULLETIN No. 107. [Apt-U. preceding especially in the fact that 21 pounds of lime and 18 pounds of sulphur were used to 50 gallons of water. The method of preparation was virtually the same. Sixty-six trees, in four rows running across the end of the less- infested orchard, II., were treated March 22 with one hundred gal- lons of the spray. At a general inspection made May 27, this plot was reported as in favorable condition, with very few living scales, and none of them young. Examined September 10, the average in- festation was figured at 1.36 degrees, which, compared with the infes- tation of the two central rows of the check plot, gives a benefit of 76 per cent, as a consequence of the treatment. Compared with its own average infestation of the preceding January, we find this plot improved about 44 per cent. ; that is to say, the degree of September infestation is approximately 56 per cent, that of the preceding Janu- ary. In the check plot, with which this is to be compared, the Sep- tember infestation was nearly two and a half times that of January. 3. This is a simple lime and sulphur mixture like No. i of this series, the ingredients being in the same proportions of 15 pounds each of lime and sulphur to 50 gallons of water, and differing merely in the method of preparation. In this, the lime was first slaked in 10 gallons of water where 50 gallons of the spray were to be pre- pared, the sulphur was then stirred in dry, and the whole was cooked from 30 to 40 minutes. One hundred and one trees of Orchard II. were sprayed March 22 with one hundred and forty gallons of the solution. As this plot of six rows, running the whole width of the orchard, lay immediately beside the check, the average September infestation of the two rows adjoining the check was notably greater than that of the re- maining four rows. For the first two rows it averaged 1.9 degrees, and for the remaining four rows, 1.44 an excess of 32 per cent, of infestation, apparently due to the proximity of the check and the consequent spread of the young from those heavily infested trees. On this account the two inner rows of 17 trees each were rejected, and the four rows remaining were compared with the two central rows of the check plot itself. Comparing the 1.44 degrees of infestation of the experimental trees with the 5.6 of the rows used as checks, we have a benefit of 74 per cent, resulting from the treatment. Or, if we choose to compare the September condition of the plot with that of January again omitting the rows nearest the check we find a difference of 38 per cent, in favor of the September condition. 4. This was the so-called "California wash," containing 15 pounds each of lime, sulphur, and salt, to 50 gallons of water. 1906.] EXPERIMENTS WITH SAN JOSE SCALE. 249 Thirty pounds of sulphur was first stirred into 20 gallons of boiling water, and 30 pounds of lime was added. The mixture was then boiled for thirty minutes, with constant stirring, after which 30 pounds of salt was added and the boiling was continued for 15 min- utes more. The mixture was then diluted with water to form one hundred gallons, and applied March 21 to 66 trees of Orchard II., standing in four rows at a considerable distance from the check. Examined May 29, this plot was reported to be in excellent con- dition, with but few living old scales and scarcely any young. Of 100 scales taken at random, 15 were alive a ratio which, however, would have but little significance, two months having elapsed since the trees were sprayed. On a visit to these trees made September 10, this plot showed an average of 1.8 degrees of infestation, cor- responding to a benefit of 68 per cent, as compared with the condi- tion of the check at the time. If the comparison be made with the January condition of the same plot, the September condition shows a gain of 37 per cent. 5. This, like the preceding number, is a "California wash," but with 21 pounds of lime, 18 pounds of sulphur, and 5 pounds of salt, to 50 gallons of water. It was prepared, like the preceding mixture, by pouring the sulphur into the water first, and following with the lime. It was applied March 22 to 49 trees standing in three rows of Orchard II., seven rows intervening between this plot and the check. May 29, scattering full-grown females were seen, but young were extremely few. Only 7 were found on 5 trees. The bark was still covered with an even whitish coat at this date two months after spraying. Of 148 scales examined, 20 were alive. On September 10 the average infestation was estimated at 1.9 degrees, which, com- pared with the check rows, gave a benefit ratio of 67 per cent. That is, the scales alive on these trees were approximately one third the number which the trees would have borne if they had not been treated the preceding March. Compared with the January esti- mate, the September infestation was about 25 per cent. less. In other words, the effect of the spray up to this time had been to counterbalance the increase of the scale by multiplication, and to re- duce the original number by one fourth. 6. The usual "California wash," made with 15 pounds each of lime, sulphur, and salt, to 50 gallons of water, the lime being first slaked, and the sulphur added in the form of a paste. The mixture was then boiled for 30 minutes, and the salt was added and the whole boiled 1 5 minutes more. Sixty-eight trees of Orchard II. were treated March 21. They 250 BULLETIN No. 107. [April, were in four rows running across the orchard near one end, and far removed from the check. May 29 a few old living scales were found on half a dozen trees, but no young, either crawling or newly set. The bark of some of these trees was still covered with innumerable dead scales. September 10 the scales remaining had multiplied somewhat, giving an average infestation of 2. degrees, and showing a benefit of 64 per cent. Compared with the condition of the trees in January, at which time the infestation was estimated at 33 per cent, per tree, the September condition showed an improvement of 38 per cent. 7. These trees, unlike all the preceding, were in the orchard originally the worse infested of the two (Orchard L), its check plot averaging, in January, 3.3 degrees of infestation when that of the other orchard (II.) averaged 2.2 degrees. At the time of the Sep- tember inspection, however, this difference had more than disap- peared, the infestation of these two orchards being now 4.94 for Orchard I. and 5.36 for Orchard II. That is to say, the infestation of the orchard worse infested in January had increased by 49 per cent, while that of the less-infested had increased by 145 per cent. The reasons for this difference were not clear. The September infes- tation of the check plot in Orchard I. was practically uniform, show- ing no invasion from the adjoining plots, and I have used, for com- parison, the averages for the whole of it instead of those for the two central rows only, as in Orchard II. This experiment was a January treatment of 141 trees, some peach and some apple, with the "Oregon wash" made of 15 pounds each of lime and sulphur, and i l / 2 pounds of blue vitriol, to 50 gal- lons of water. Two hundred gallons of the wash were used Janu- ary 3 and twelve gallons more the following day. The temperature of January 3 was but a few degrees from freezing, part of the time above and part of the time below. The ground was covered with snow, and light winds blew from the north and northwest. Janu- ary 4 the temperature fell nearly to zero, and the wind shifted to the south. The solution was prepared by the process commonly used in all our recent orchard work, the lime being first placed in water which had been heated to the boiling point, and the sulphur paste in- troduced while the lime was slaking. The mixture was boiled for 30 to 40 minutes, and the blue vitriol, previously dissolved, was added and the whole boiled for 5 minutes more. All of the trees were thoroughly sprayed, and but few tips of twigs or patches of bark could be found not covered bv the residue after the fluid had 1906.'] EXPERIMENTS WITH SAN JOSE SCALE. 251 evaporated. During the colder part of these days the spray froze as soon as it touched the bark. May 26, 964 scales were examined, of which 773 were dead, and 191, or 20 per cent., alive. May 29 a general inspection of this plot showed many living scales, young and old, both decidedly more abun- dant on the apple than on the peach. Fifty young, for example, were found in one square inch of the under surface of a twig two inches in diameter, and on another eoual area no were counted. Traces of the winter spray were still visible on the trees. Septem- ber 5 the average infestation was estimated at 2.4 degrees, which, compared with the 4.94 of the check plot for this orchard, gave a benefit ratio of 51 per cent. If the September condition of these trees is compared with that of January, a gain of 23 per cent, is found. 8. This is a companion experiment to No. 6, the same prepara- tion being used, in the previous case in March and in this case in January. It was the usual "California wash" of 15 pounds each of lime, sulphur, and salt, to 50 gallons of water. It was sprayed Jan- uary 10 upon three rows of peaches, 47 trees in all, in Orchard II. a plot immediately beside No. 6. The temperature ranged from 10 to 12 above zero, and snow was falling, with a northeast wind. The spray froze as it struck the trees. At the inspection of the 29th of May this plot was reported as in very unfavorable condition, many young scales being found on 4 trees examined. September 10 the infestation of this plot averaged 3.1 degrees to be compared with 5.6 of the check plot of its or- chard. This gives a benefit of 45 per cent, as compared with the September check, or of 12.5 per cent, if compared with its own January condition. 9. This is an experiment with the "Oregon wash," 20 pounds of lime, 15 pounds of sulphur, and i l / 2 pounds of blue vitriol, to 50 gallons of water. It was agplied to a plot of eight rows in Or- chard I. containing 126 trees, only five rows of which, containing 78 trees, were used for comparison, owing to an apparent contami- nation of three rows from the check plot adjoining. These trees were sprayed January 3 to 5, the temperature ranging from 28 to 36. Two hundred and sixty-two gallons were used, the most of it January 4. One thousand and ten scales taken at random from 12 trees were examined in this orchard May 27, and 26 per cent, were found alive. Generally speaking, however, the condition of the orchard was re- ported as extremely favorable. Most of the insects found were on the higher twigs, which were less heavily coated with the residue 252 BULLETIN No. 107. [April, of the spray than were the larger branches and the trunk, and the greater part of the living scales were found on such twigs. They were, as before, more abundant on the apple than on the peach. September 5 the average infestation of the 78 trees available for comparison was figured at 2.9 degrees, which, compared with the 4.9 of the check plot, gives a benefit of 42 per cent, from this Janu- ary treatment with the "Oregon wash." As compared with its own January condition, this plot had been improved by 12 per cent. 10. A January spray of a lime and sulphur mixture made with soda 30 pounds of lime, 15 of sulphur, and 5 of soda, to 50 gallons of water. The mixture was prepared January 4 as follows : Thirty pounds of Marblehead lime was slaked in 12 gallons of water, the sulphur being added in the form of a paste during the slaking process. The soda was added in three lots, the first about 5 minutes after the lime began to slake, and the others at intervals of 2 or 3 minutes. The mixture was then stirred for 10 minutes, diluted with cold water to make 50 gallons, no boiling being neces- sary, and applied to 127 trees in Orchard I. a plot of eight rows immediately beside the check. The temperature was a little above or a little below freezing, a strong wind blowing from the south. There was no appearance of any increased infestation on the side nearest the check plot, and the averages for all these rows are conse- quently used for comparison. May 27, scales were quite numerous on this plot, including both well-grown females and some young. Of 676 examined, 30 per cent, were found alive. On the check plot at the same time, of 1200 scales examined, 39 per cent, were alive. September 5, when the in- festation of this plot was finally graded, it was found to average 3.37 degrees, less by some 23 per cent, than the infestation of the check plot in this orchard. Compared with its own January condi- tion, the September infestation was estimated at practically 15 per cent. less. 11. This, like the preceding, is a lime, sulphur, and soda mix- ture, differing in the smaller proportions of lime and sulphur and in the greater amount of soda. Sixteen pounds of lime and 8 each of sulphur and soda were used to 50 gallons of water. In the prepara- tion of this solution 8 pounds of sulphur paste was put into a few gallons of boiling-hot water, 8 pounds of caustic soda was added to this and stirred until the sulphur was dissolved, and 16 pounds of lump-lime was then put in and stirred until completely slaked. The entire process required about 15 minutes' work. The spray was applied January 5 in Orchard I. to 124 trees, about' equally peach and apple, the temperature varying from 32 to 1906:] EXPERIMENTS WITH SAN JOSE SCALE. 253 54 at different times of the day. The plot of eight rows was at the end of the orchard and consequently well removed from the check. May 27, these trees were found unusually infested as compared with others treated at the time. Of 575 scales examined, 159 were living a ratio of 28 per cent. At the fall inspection, September 5, the average infestation of this plot was rated at 3.43, giving a bene- fit of 19 per cent, for the treatment if compared with the check, or about 12 per cent, if compared with its own January condition. The principal data of the foregoing discussion may be conveni- ently summarized, for further consideration, in the first of the fol- lowing tables. I. TABLE OF EXPERIMENTS WITH LIME AND SULPHUR PREPARATIONS ON PLOTS OP 47 TO 141 TREES. (Arranged in order of benefit from treatment.) No. of Exper. Insecticide Or- chard Trees Treated Sept. Infes- tation Degrees Sept. Bene- fit per cent. Cost per 100 Gals. Check Plot I 126 4.94 Check Rows II 34 5.6 1 Lime and Sulphur* 15 L., 158., 50 W. it 51 Mar. 22 1.2 79 $ .84 2 Lime and Sulphur 21L.,18 S.,50 W. " 66 (1 U 1.36 76 1.03 3 Lime and Sulphurf 15 L., 15 S.,50 W. t 67 (( It 1.44 74 .84 4 California wash* 15 L. ,168., 15 salt, 50 W. it 66 " 21 1.8 68 .94 5 California wash 21 L., 18 S., 5 salt, 50 W. it 49 " 22 1.9 67 1.07 6 California washf 15 L., 15 S., 15 salt, 50 W. it 68 " 21 2. 64 .94 7 Oregon wash 15 L., 15 S., 1.5B. V.,50 W. I 141 Jan. 3 2.4 51 1. 8 California wash 15 L., 15S.. 15 salt, 50 W. IE 47 " 10 3.1 45 .94 9 Oregon wash 20 L., 15 S., 1.5 B.V., 50 W. I 78 Jan. 3-5 2.9 42 1.07 10 Lime, Sulphur and Soda 30 L., 15 S., 5 soda, 50 W. 127 " 4 3.37 23 1.44 11 Lime, Sulphur and Soda 16 L., 8S., 8 soda, 50 W. ii 124 " 5 3.43 19 1.24 *Sulphur put in first, lime added. tLime first, sulphur added. 254 BULLETIN No. 107. RECAPITULATION. [April, Simple lime & sulphur II 184 March 1.33 76 California washes u 183 M 1.9 65 Oregon & California washes I&II 266 January 2.8 46 6 California wash II 68 March 2. 64 8 < (1 47 January 3.1 45 Lime, sulphur, & soda I 251 H 3.4 21 II. TABLE OF EXPERIMENTS WITH LIME AND SULPHUR PREPARATIONS ON PLOTS OF 5 TO 12 TREES. No. of Ex per. Insecticide Or- chard Trees Treated Sept. Infes- tation Degrees Sept. Bene- fit per cent. Cost per 100 Gals. 12 Oregon wash with Del. limoid. 20L.,15S., 13 1.5B.V., 50 W. Oregon wash with Wis. limate. 20 L., 15 S., 1.5B.V.,50W. I u 11 12 Mar. 24 " 23 1.91 2.08 61 58 $1.07 1.07 14 Oregon wash with hy- drated lime No. 1. 20 L., 15 S., 1.5 B.V., 50 W. ;t 11 " 24 2.18 56 1.07 15 Oregon wash with hy- drated lime No. 2. 16 20 L., 15 S.. 1.5 B.V., 50 W. Calcothion. u it 11 5 u u " 22 2.18 2.3 56 55 1.07 5. 17 Con Sol. 1 part to 40. " 9 1( 11 4.21 15 2.40 III. MISCELLANEOUS EXPERIMENTS. No. of Exper. Insecticide Or- chard Trees Treated Sept. Infes- tation Sept. Bene- fit Cost Eer DO Degrees per cent. Gals. 18 Scalecide I 31 Mar. 24 2.57 47 $2.50 19 Whale-oil soap 2 Ibs. to the gallon II 117 it it 1.9 65 8. 20 Tak-a-nap soap 1 Ib. to the gallon I 8 it it 15 5. 1906.] EXPERIMENTS WITH SAN JOSE SCALE. 255 GENERAL RESULTS OF THE FOREGOING ELEVEN EXPERIMENTS. An examination of the column of the preceding table showing percentages of "September benefit" for the various kinds of treat- ment enables us to divide at once the series of experiments into four groups three of three experiments each, and one of two. The first six experiments were all made in the same orchard, and all in March. It is especially interesting to see that the first three, in which the in- secticide was a simple lime and sulphur solution without salt or blue vitriol, show ratios of 74 to 79 per cent, of benefit, with an average of 76.3, while the next three experiments, all made with the "Cali- fornia wash," the composition being the same as that of the preced- ing three except that salt was added, give ratios of benefit ranging from 64 to 68 per cent., with an average of 65. These experiments strongly indicate, if they do not substantially prove, that the addition of salt to the lime and sulphur is a detriment rather than a benefit, since a difference of 17 per cent., or more than one sixth, in the ratios of apparent benefit, under conditions otherwise so uniform, can scarcely be accounted for in any other way. The next group of experiments, 7 to 9 of our series, when con- trasted with Experiments 4 to 6, show a difference in final effect of spring and midwinter sprayings. The average benefit of the "Cal- ifornia wash" applied to 187 trees in March was 65 per cent., while that of the Oregon and California washes applied to 320 trees iii January was 46 per cent. a difference of 41 per cent, in favor of the spring treatment. The January group of three experiments does not compare exactly with the March group of three, since two of the former were made on a different orchard from the latter, and were made with the "Oregon wash" instead of the "California wash." If, however, Experiment 8 be compared with Experiment 6, in which all the conditions were identical except the time of spray- ing, we get the same difference of ratios of benefit as before 45 per cent, for the January treatment and 64 per cent, for the March treatment. Furthermore, the last two experiments, 10 and n of our series, contrast still more strongly with the three preceding, giving but 19 and 23 per cents of benefit, with an average of 21 per cent, as com- pared with 46 per cent, for the preceding group. This difference of more than 100 per cent, can be accounted for only on the suppo- sition that the cold solution of lime and sulphur made with soda was far less efficient as an insecticide than the ordinary form of Oregon and California washes made by boiling. 256 BULLETIN No. 107. [April, One additional inference may be $ra.wn from a comparison of Experiments i and 4 on the one hand with 3 and 6 on the other. In each of the former pair the lime was slaked in water in which the sulphur had been first stirred up. In each of the latter pair the lime was put in first, and the sulphur was added during the slaking proc- ess. That there is an apparent advantage in the first method of preparation is shown by the difference of 5 degrees of benefit be- tween Experiments i and 3, and 4 degrees of benefit between Experi- ments 4 and 6. It thus appears that solutions made by stirring the sulphur into the hot water first and adding the lime to this mixture, are more efficient than if the order of procedure is reversed. It follows from this discussion, as a general conclusion, that simple solutions of lime and sulphur made by boiling, without salt or blue vitriol, the sulphur being added to the water first, had much the best insecticide effect in these orchards; that the March spraying was nearly twice as effective as the January spraying ; and that the soda solutions of lime and sulphur made without heat had a final efficiency less than half that of the boiled solutions applied at the same time. Minor Experiments. Six experiments with other lime and sul- phur mixtures were made on too small a scale to compare with the eleven preceding, but with results which seem to me worthy of rec- ord, particularly as they are fairly uniform for this group of insecti- cides notwithstanding the small number of trees used in each ex- periment. From 5 to 12 trees were sprayed with various forms of the ''Oregon wash," with "Calcothion," and with "Con Sol," all in March from the 22d to the 24th, and all in Orchard II. Four of the insecticides used were forms of the "Oregon wash" made with dif- ferent brands of hydrated lime instead of ordinary lump-lime from the kiln. In all cases 20 pounds of the lime, 15 pounds of sulphur, and i l / 2 pounds of blue vitriol were used to 50 gallons of water, the only difference being in respect to the kind of lime, the so-called Wisconsin "Limate" being used in one, the Marblehead hydrated lime in two others, and the Delaware "Limoid" in the fourth. These were applied in each case to n or 12 trees, and the effect was ascer- tained by the inspection method used in the larger experiments. The resulting benefits ranged from 56 to 6 1 per cent., as tested by the September inspection, using the September condition of the check plot of Orchard II. as a basis of comparison. These mixtures, with their average benefit of 58 per cent., were apparently less effi- cient than the California washes used at the same time, which give a benefit of 65 per cent. The "Calcothion," applied cold without di- 1906.] EXPERIMENTS WITH SAN JOSE SCALE. 257 lution, as it was received from the manuf acturers, was used on only 5 trees, with a ratio of September benefit figured at 55 per cent. substantially the same as that of the Oregon washes just referred to. "Con Sol," diluted with water at the rate of i to 40, and applied cold to 9 trees, gave a ratio of only 15 per cent, of benefit. The Oregon washes cost at the rate of $1.07 per hundred gallons for materials; "Con Sol," $2.40; and "Calcothion," $5. It may be provisionally inferred from these small experiments that neither of these two compounds has any advantage over the better-known washes except in point of convenience, and this must be paid for by a considerably higher cost than that of the lime and sulphur mixtures more than twice as great for "Con Sol," and nearly five times as great for "Calcothion." MISCELLANEOUS ADDITIONAL INSECTICIDES. Only one of the kerosene insecticides was tried on a number of trees sufficient to give any permanent value to the experiment. The soluble petroleum compound known as "Scalecide," applied March 24 in a 5 per cent, mixture with water to 3 1 trees in Orchard I., showed a September infestation of 2.6 degrees, equivalent to a benefit of 47 per cent. decidedly less than that of any of the lime and sulphur washes used in March, as shown by Table I., and con- siderably less than that of the Oregon washes of Table II. It seems to belong, in insecticidal effect, with the Oregon and California washes as applied in January, its 47 per cent, of benefit being substantially the same as the 46 per cent, of the latter treatment. Its cost was $2.50 per hundred gallons essentially the same as "Con Sol" and its benefit was three times as great. It was apparently the best of the ready-made insecticides tested by us last year. A kerosene preparation known and sold as "Frutolin" was tried March 24 on 3 trees, and several variations of a 20 per cent, kerosene mixture made with water and hydrated lime in lieu of soap solution were applied on the same day to 5 more trees, all in Orchard I. The results were essentially the same with all these mixtures, so far as one can judge from these small experiments. The trees treated averaged 4 degrees of infestation September 10, giving a benefit ratio of 19 per cent, as compared with the check of their orchard. The cost of the "Frutolin" mixture was $25.10 per hundred gallons, and that of the so-called emulsions made with kerosene and lime was $1.07. Two simple soap solutions were used, whale-oil soap on 117 trees, and "Tak-a-nap" soap on 8 trees, the former in Orchard II. 258 BULLETIN No. 107. [April, and the latter in Orchard I. The whale-oil soap was used March 23 and 24 in the ordinary ratio of 2 pounds to the gallon of water on a plot immediately beside the check plot of its orchard. As the row adjacent to the check showed much the highest infestation of any one of the seven, it has been thrown out in the comparison. September 10 the infestation of this plot was reckoned at 1.9 de- grees, which, compared with that of the check plot at the same time, gives a benefit ratio of 65 per cent. making this solution virtually the equivalent of the California washes made with salt, as shown in Table I. Its cost, $8 per hundred gallons of the solution nearly eight times that of the California washes, is the most serious ob- stacle to its general use. Except for its occasional destruction of blossom buds of the peach and other especially sensitive fruits, it would still remain the most desirable for use on a small scale. For the apple orchard, if the difference in expense is not worth consider- ing, it is to be recommended as among those next in efficiency to the simple lime and sulphur washes. , "Tak-a-nap" soap dissolved in cold water at the rate of one pound to the gallon, and applied March 24 to 8 trees in Orchard I., gave an apparent September benefit of 15 per cent. The cost is $5 for one hundred gallons. A caustic-soda solution made with water at the rate of i pound to 6 gallons and applied to 3 trees March 24 produced no percep- tible effect, these trees being, in fact, worse infested in September than they were in January, and even worse than were the trees of the check plot at the September inspection. Mention may also be made of Bowker's Tree Soap, used on only a single tree, but there apparently with very good effect. It was ap- plied March 24 to a badly infested tree in Orchard I. at the rate of 2 pounds of soap to a gallon of warm water. At the time of the May inspection 100 scales from this tree were counted, all of which were dead, and Mr. Taylor remarks that he could not find a scale on this tree alive, though he scraped and ex- amined most of the twigs to their tips. By September, however, this tree was moderately infested, possibly by invasion from adja- cent trees which had been treated with kerosene emulsion. This soap costs j l /2 cents per pound in loo-pound kegs, bringing the cost of the spray to $15 per hundred gallons. COST oV MATERIALS . The cost of all the materials contained in the various insecticides used in these experiments is shown in the last column of the tabular 1906 ] EXPERIMENTS WITH SAN JOSE SCALE. 259 summaries, with the exception of those used in certain minor experi- ments, which have been separately given. This cost, stated in terms of one hundred gallons of the spray diluted and otherwise made ready for actual distribution, is based on the following rates for materials, which are those actually paid by us, or, in a few minor cases, those furnished us by the manufacturers. None of these prices includes freight. Lime. 90 cents per bbl. of 196 Ibs. Sulphur. $2.30 per cwt., bought in ton lots. Salt. 33 cents per cwt., by the bbl. Blue vitriol. $6 per cwt. Caustic soda. $4.50 per cwt., in 10-lb. cans. Whale-oil soap. 4 cents per lb., by the bbl. Tak-a-nap soap. 5 cents per lb., in 40-lb. packages. Kerosene. 12% cents per gal., by the bbl. Marblehead hydrated lime No. I. 50 cents per cwt. " " " " 2. 50 cents per cwt. Wisconsin limate. 50 cents per cwt. Delaware limoid. Highest grade, $5. per bbl. of 200 Ibs.; cheaper grade, $2.50 per bbl., or $14. per ton. Calcothion. 5 cents per gal., if bought by the bbl. Con Sol. $1. a gal. Frutolin. 66 cents per liter (1.06 quarts) in cases, each containing a dozen liter cans. Scalecide. 50 cents per gal., in 50-gal. bbls. The cheapest of these washes, counting cost of materials only, is, fortunately, the one found most efficient in these experiments, namely, the simple lime and sulphur wash in the ratio of 1 5, 1 5, 50, and costing 84 cents per 100 gallons when ready for spraying. The next in order is the common "California wash" of lime, sulphur, and salt (15, 15, 15, 50), costing 94 cents per hundred gallons. The "Ore- gon wash" made by the old formula still in most general use, and containing 15 pounds of lime, 15 pounds of sulphur, and i l /2 pounds of blue vitriol to 50 gallons of water, costs $i per hundred gallons; and the simple lime and sulphur mixture with 21 pounds of lime and 18 pounds of sulphur to 50 gallons, costs $1.03. The "Oregon wash" with the lime (of whatever form) increased to 20 pounds, amounts to $1.07 per hundred gallons; and the lime and soda washes, from $1.24 to $1.44, dependent upon the proportions of the ingredients as given in Table I., Experiments 10 and n. The next in order of cost is "Con Sol," at $2.40 per hundred gal Ions, i part of the insecticide to 40 of water; and then "Scalecide," $2.50 per hundred gallons, when used in a 5 per cent, solution. The kerosene emulsions made with hydrated lime and diluted to contain 260 BULLETIN No. 107. [April, 20 per cent, of kerosene, cost $3.62 for a hundred gallons of the diluted mixture. "Tak-a-nap" soap, a pound to the gallon, costs $5 a hundred gallons, and the ordinary solution of whale-oil soap, $8 for the same amount. "Frutolin" costs $25.10 per hundred gallons when diluted with 9 parts of water to i of "Frutolin," as advised by the manufacturers. GENERAL SUMMARY. i. The cheapest and most efficient of the eleven insecticide mix- tures thoroughly tested against the San Jose scale were the simple lime and sulphur mixtures (without salt or blue vitriol) dissolved by boiling together. They cost, for materials, from 84 cents to $1.03 per hundred gallons of the fluid spray, varying according to the propor- tions of the chemicals used. Infested trees treated with these solu- tions in March, bore about one fifth as many scales the following September as companion trees not treated. 2. The next in value was the "California wash" made with lime, sulphur, and salt, at an expense of 94 cents to $1.07 per hun- dred gallons, and the "Oregon wash" of lime, sulphur, and blue vitriol, costing virtually the same. 3. There was a marked and very important difference in the final effect of these washes and mixtures, dependent upon the time of their application, the midwinter treatment yielding a result far inferior to that of early spring. 4. The cold solution of lime and sulphur made with soda was found less than one third as effective as the washes dissolved by boiling. Its materials were also somewhat more costly, varying, according to the proportions of the ingredients, from $1,24 to $1.44 per hundred gallons. 5. The petroleum preparation known as "Scalecide," which has the advantage that it may be prepared for use by simply diluting with water, was found somewhat less efficient than the lime and sul- phur mixtures, and cost about 2^2 times as much as the raw mate- rials of those preparations. 6. Whale-oil soap compared very well with the "California wash," but at a cost approximately eight times as great. 7. Less confident statements may be made with reference to Ore- gon washes made with hydrated lime, and to the commercial insecti- cides known as "Con Sol" and "Calcothion," experiments with these substances having been made on too small a scale to warrant final conclusions. They strongly indicate, however, that, with the excep- tion of "Con Sol," these mixtures have an insecticide value some- 1906.] EXPERIMENTS WITH SAN JOSE SCALE. 261 what less than that of the ordinary "Oregon wash." "Calcothion" is applied as received, without either additional preparation or dilu- tion. It has the disadvantage of a high cost, amounting to $5 per hundred gallons. 8. Minor experiments with several additional insecticides are briefly described on pages 256 and 257. 9. The expense of preparation of the mixtures to be dissolved by boiling is so variable, according to the amount to be used, the sup- ply of available labor, and the kind and cost of fuel, that no attempt has been made to estimate it. For all the lime and sulphur solutions except those made with soda, and for whale-oil soap, it amounts vir- tually to the cost of boiling successive quantities of fifty gallons of water, each for 30 to 45 minutes. ' - "& sf^^ I mm** r A m,-^l ^~\. t>-^ - : vT "^^i