UMASS/AMHERST 
 
 315Dt,bDDSaSSDfl7 
 
 
 mmm 
 
 mm ■ ^ 
 
 
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Digitized by the Internet Archive 
 
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 Boston Library Consortium IVIember Libraries 
 
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EXPERIMENTAL WORK 
 
 CONDUCTED 
 AT THE RHODE ISLAND EXPERIMENT STATION 
 
 WITH THE 
 
 NITRATE OF SODA, 
 
 OR 
 
 CHILE SALT-PETER 
 
 AS A 
 
 KBRTILIZBR 
 
 UPON 
 
 ACID SOILS 
 
 CHARLES O. FLAGG. 
 
 1898. 
 
 ONZ & CO., PRINTERS, 1 BOWLING GREEN, NEW YORK. 
 
PREFACE. 
 
 THE results of the experimental work somewhat briefly set forth 
 in the following pages, are based upon experiments conducted 
 by the Agricultural Experiment Station at Kingston, Rhode Island, 
 U. S. A., upon its own grounds, and in co-operation with farmers in 
 different sections of the state, during the years from 1890 to 1897 in- 
 clusive, when the writer was Director of the Station. 
 
 In planning the experiments, and executing the details of the 
 work, the highest credit is due to H. J. Wheeler, Ph. D., Chemist of 
 the Station ; J. D. Towar, B. S , George M. Tucker, B. S., and J. L. 
 Tillinghast, assistants to the Director in the Agricultural Division ; 
 B. L. Hartwell, B. S., and Chas. L. Sargent, B. S., Assistant Chemists ; 
 and Geo. E. Adams, B. S., Photographer, as well as a number of 
 farmers who heartily supplemented the work of the Station in connec- 
 tion with experiments planned for their respective farms. 
 
 These experiments have formed a portion of the regular scientific 
 work prosecuted by the Experiment Station, and a detailed account of 
 them has been published in the Annual Reports and Bulletins issued 
 by the Rhode Island Experiment Station while I was Director, and 
 from which I have made frequent extracts. All the cuts used to illus- 
 trate this pamphlet have appeared in connection with the above named 
 Reports and Bulletins, and we are indebted to the Experiment Station 
 for the privilege of their reproduction in this connection. 
 
 As the work has progressed and results have accumulated, the 
 superior value of nitrate of soda as a nitrogenous manure, especially 
 when used upon acid soils, has become more and more evident. 
 The numerous and somewhat intricate conditions which govern the 
 processes of nitrification, and the natural formation of nitrates within 
 the soil, as demonstrated in comparatively recent years by biologists, 
 serve as scientific pointers to the reasons for its superior action upon 
 many soils. 
 
The intelligent reader will bear in mind that nitrate of soda will 
 not do everything. Potash and phosphoric acid must be supplied, 
 unless provided by nature, if one would harvest profitable crops, and 
 if a soil is so acid as to render the growth of many farm crops, especially 
 during their infancy, impossible, such a condition must be corrected by 
 the use of carbonate of lime, or in some other way, before bountiful 
 crops can be harvested. 
 
 Kingston, R. I., Sept. i, li 
 
 (^a^f<).^^'<y^ 
 
THE USE OF NITRATE OF SODA IN CONNECTION 
 
 WITH SOME EXPERIMENTS IN 
 
 RHODE ISLAND. 
 
 DURING the winter of 1889 and '90, the writer, as Director of the 
 Rhode Island Experiment Station at Kingston, solicited the 
 co-operation of farmers in dififerent parts of the State in a trial of 
 various fertilizing materials, for the following three-fold purpose : 
 
 1. That of learning, if possible, in what elements some of the 
 soils of the State are especially lacking. 
 
 2. For testing the relative fertilizing value of nitrogen in the 
 various nitrogen compounds, such as nitrate of soda, sulfate of am- 
 monia and dried blood. 
 
 3. To learn something, if possible, of the probable profit or loss 
 from large and small applications of nitrogen to the Indian corn 
 crop.i 
 
 The general plan of the experiments was one adopted by Prof. 
 W. O. Atwater in Connecticut, and the work was laid out and con- 
 ducted the first year by the station chemist, Dr. H. J. Wheeler, and 
 the remaining three years by the Director's assistant, Mr. J. D. Lowar. 
 From twenty-one offers of land by farmers for experimental purposes, 
 ten, which fairly represented the different sections and soils of the State, 
 were selected. A field at the Experiment Station made the number 
 eleven. One acre of land was used in each experiment, and so selected 
 as to be, so far as possible, of a uniform quality. Each acre was divided 
 into twenty plots, laid out, wherever practicable, with an unfertilized 
 space of three feet at least between the plots and along the ends. 
 
 Plots 7 to 15 (T, inclusive, were devoted to the second problem, viz., 
 that of obtaining more information upon the relative fertilizing value 
 
 1 For a detailed account of these experiments see " Third Annual Report of 
 the R. I. Experiment Station," 1890, Part II, pages 39-107 ; "Fourth Annual 
 Report" do., 1S91, Part II, pages 35-81 ; "Fifth Annual Report" do., 1892, 
 Part II, pages 163-198, and "Sixth Annual Report" do., 1893, Part II, pages 
 196-207. 
 
6 NITRATE OF SODA 
 
 of nitrogen in its various combinations, and it is in the results obtained 
 from these plots that we are especially interested at this time. These 
 plots received like amounts of potash and phosphoric acid, and three 
 groups of three plots each were set apart for the testing of nitrogen in 
 three different forms. To the first group, plots 7, 8 and 9, nitrate of 
 soda was applied. The second group, plots 10, 11 and 12, received 
 nitrogen in sidfate of ajnmonia j and to the third group, plots 13, 14 and 
 15, nitrogen was applied in the form of dried blood. 
 
 The first plot in each series, 7, 10 and 13, was given only a 
 " \ ration " of nitrogen ; the second plot in each group a "| ration," 
 or twice as much as the first, and the last plot a "full ration," or three 
 times as much as the first. 
 
 Great care was used in applying the fertilizer evenly broadcast, to 
 each plot, and in harrowing it in, that it should not be dragged over 
 the boundary upon the unmanured strips, or upon the adjoining plots. 
 White flint Indian corn was planted in hills three feet apart in the row, 
 and the rows from 3 to 3^ feet apart, according to the width of the 
 plots in the different fields. 
 
 As the experiment was continued on these plots from two to four 
 years, we will briefly outline the treatment with fertilizers in the 
 several years, before considering the individual experiments. 
 
 Mixed Minerals. 
 
 In 1890 the "mixed minerals" used upon all the plots from 7 to 
 15 inclusive, consisted of dissolved bone black at the rate of 350 pounds, 
 and muriate of potash at the rale of 150 pounds per acre, at a total 
 cost of $8.15. These materials supplied respectively 74.2 pounds of 
 total phosphoric acid and 76.2 pounds of actual potash per acre. 
 
 In addition to the " mixed minerals," as above, nitrogen was 
 applied to the plots in the three groups, as follows : 
 
 Nitrate of Soda Group. 
 
 
 
 
 Lbs. per Acre. 
 
 Lbs. Nitrogen. 
 
 Cost per Acre, 
 including M. M. i 
 
 Plot 
 
 7, 
 
 \ ration, 
 
 150. 
 
 25.0, 
 
 $11 75 
 
 (( 
 
 8, 
 
 2 11. 
 3 
 
 300. 
 
 50-0, 
 
 15-35 
 
 (( 
 
 9> 
 
 Full " 
 
 45O' 
 
 750. 
 
 18.95 
 
 ^ Mixed minerals cost $8.15 in each case. 
 
2 20, 
 
 - 
 
 25 0, 
 
 - 
 
 I12.00 
 
 44°, 
 
 - 
 
 50.0, 
 
 . - 
 
 15-85 
 
 66o, 
 
 - 
 
 75-0, 
 
 - 
 
 19.70 
 
 nitrate of soda 7 
 
 Sulfate of Ammonia Groups. 
 
 . , .,. Cost per Arre, 
 
 Lbs. per Acre. Lbs. Nitrosen. including M. M. t 
 
 Plot 10, I ration, - 112, - 23.5, - $12.07 
 
 " II, I " - 224, - 47.0, - 15.99 
 
 " 12, Full " - 336, - 70.5, - 19.91 
 
 Dried Blood Group. 
 Plot 13, I ration, 
 
 14, 3 
 " 15, Full " 
 
 In 1891 the "mixed minerals" applied cost at the rate of $7.44 
 per acre. The muriate of potash was a little stronger in actual potash, 
 and the quantity used was reduced from 150 to 130 pounds per acre, 
 furnishing 73.1 pounds actual potash. The same weight of dissolved 
 bone-black, 350 pounds, was used, but afterward was found to be low- 
 in phosphoric acid, so that only 52.2 pounds of total phosphoric acid 
 were applied per acre. The same weights of nitrate of soda and dried 
 blood were used as in 1890, but the sulfate of ammonia was increased 
 to make the nitrogen this year fully equal to the amount in the other 
 forms. The amounts applied to the full ration plots were as follows, 
 and the "one-third" and "tv/o-thirds " rations were proportional : 
 
 Lbs. Nitrogen Cost includ- 
 Lbs. per Acre. p^f Acre. ing M. M. 3 
 
 Plot (), Full ration Nit7'ate of Soda, 450, 68.4, $18.24 
 
 " 12, " " Sulfate of Ammonia^ 348, 69.9, 20.38 
 
 " 15, " " Dried Blood, 660, 67.8, 18.99 ' 
 
 In 1892, as potash and phosphoric acid, one or both, seemed to be 
 deficient in the soil in most cases, and in order that there might be no 
 uncertainty as to a sufficient supply of the mineral elements, so as 
 profitably to use all the nitrogen supplied, the quantity of each was 
 considerably increased. The dissolved bone-black was increased from 
 350 to 600 pounds, containing 93.18 pounds of total phosphoric acid 
 per acre, and the muriate of potash from 150 pounds in 1890, and 130 
 in 1891 to 200 pounds, which supplied just 100 pounds of actual potash 
 
 1 Mixed minerals cost $8.15 in each case. 
 - Mixed minerals cost $7.44. 
 
o AS A FERTILIZER. 
 
 per acre. The two together as " mixed minerals " cost $12.20 per acre. 
 A little increase was also made in the nitrogen applied as follows : 
 
 r , , Lbs. Nitrosren Cost includ- 
 
 Lbs. per Acre. ^^^ ^cre. ing M. M. i 
 
 Plot (), Full ration Nitrate of Soda, 480, 75-17, $23.48 
 
 " 12, " " Sulfate of Ammonia, 360, 74-92, 24.80 
 
 " 15, " " Dried Blood, 690, 76.04, 24.28 
 
 In 1893 the weight of "mixed minerals" applied remained the 
 same as in 1892, but a little difference in the chemical composition 
 made the amount of actual potash applied per acre, 101.3 pounds, 
 while the total phosphoric acid remained the same, viz., 93.18 pounds. 
 The cost per acre was $12.60. 
 
 The dried blood contained less nitrogen than that obtained in pre- 
 vious years, and the quantity therefore had to be increased. The full 
 ration applications were as follows : 
 
 - , , Lbs. Nitrogen Cost includ- 
 
 Lbs. per Acre. p^j. ^cre. ing M. M. 3 
 
 Plot ^, Full ration Nitrate of Soda, 480, 74-4°, $24.60 
 
 " 12, " " Sulfate of Anwionia, 360, 72.00, 26.10 
 
 " 15, " " Dried Blood, 780, 67.08, 30.15 
 
 A glance at the cost per acre of the fertilizers used will show that 
 each year of the experiments, nitrate of soda furnished the cheapest 
 source of nitrogen. The following table shows the cost per acre of 
 the fertilizer applied to each of the plots, the total cost per acre of the 
 four applications for each plot, and, finally, the total cost for each group 
 (representing three acres for four years). In each group $121.17 o^ 
 the cost is for the " mixed minerals," potash and phosphoric acid, and 
 the balance of the amount represents the cost of the nitrogenous fer- 
 tilizer, which for nitrate of soda was $15.67 less than for dried blood, 
 and $11.70 less than for sulfate of ammonia. 
 
 1 Mixed minerals cost $12.20 per acre. 
 
 2 Mixed minerals cost $12.60 per acre. 
 
Qa, 6i$, 6r I 
 
 AS A FERTILILER. 
 
 COST OF FERTILIZERS. 
 
 No. 
 OF Plot. 
 
 1890 
 
 1891 
 
 1892 
 
 1893 
 
 TOTALS. 
 
 
 
 Nitrate of Soda Group. 
 
 
 7 
 8 
 
 $11.75 
 15.35 
 
 $11.04 
 14.64 
 
 $15.96 
 19.72 
 
 $16.60 
 20.60 
 
 $55.35 )~ 
 70.31 U2IO.93 
 
 9 
 
 18.95 
 
 18.24 
 
 23.48 
 
 24.60 
 
 85.27 ) 
 
 
 
 Sulfate of Ammonia Group. 
 
 
 10 
 11 
 
 $12.07 
 15.99 
 
 $11.73 
 16.02 
 
 $16.40 
 20.60 
 
 $17.10 
 21 . 60 
 
 $57.30 ) 
 74.21 I $252.63 
 
 13 
 
 19.91 
 
 20.31 
 
 24.80 
 
 26.10 
 
 91.12^ 
 
 
 
 Dried Blood Group. 
 
 
 13 
 
 14 
 
 $12.00 
 15.85 
 
 $11.29 
 15.14 
 
 $16.23 
 20.25 
 
 $18.45 
 24.30 
 
 $57.97) 
 75.54^226.63 
 
 15 
 
 19.70 
 
 18.99 
 
 24.28 
 
 30.15 
 
 93.12 1 
 
 5.15 
 
 Mixed Mineral Plots. 
 $7.44 I $12.20 I $12.60 
 
 .39 
 
 Cost of "Mixed Minerals" for each group 
 
 .39x3 = $121.17. 
 
 THE FIELD TRIALS. 
 
 I. KINGSTON, R. 1. 
 Experiment Station Farm. 
 
 The acre selected was a portion of the alluvial plain land at the 
 westerly end of the farm. It had been in grass for many years and 
 produced hardly hay enough to pay for cutting. The surface soil was 
 only 4 or 5 inches deep, sandy loam in character, underlaid by from 
 2 to 4 feet of yellow loam, and there was a subsoil below that of open 
 sand and gravel. 
 
 We give below the yields per acre of hard corn, soft corn and 
 stover for the four years included in the experiment. 
 
NITRATE OF SODA 
 
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AS A FERTILIZER. 
 
 Notes and Conclusions. 
 
 1890. When the corn was about 15 inches high, the better color 
 of the nitrate of soda plots began to be noticeable, and the same con- 
 tinued until the end of the season. The sulfate of ammonia plots, 
 instead of improving with the advance of the season, began to take on 
 a sickly yellow appearance, which gradually grew worse, until just 
 before the close of the season, when a slight improvement was here 
 and there noticeable. The greater the application of sulfate, the worse 
 the plots appeared, and the results showed a decidedly injurious effect, 
 the crop decreasing with the increase in the amount applied. The 
 most important result of this experiment was the poisonous effect of 
 
 Field Cor.n (Maize). 
 PlotNos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 the increasing rations of sulfate of ammonia, and the relatively small 
 yields from diied blood. The results were doubtless due to delayed 
 and only partial nitrification, caused, probably, by the acidity of the 
 soil and by the absence of carbonate of lime. 
 
 The 7iitrate of soda proved much the superior source of nitrogen on this 
 soil, as the average of the three plots in that group showed an excess 
 in yield over the average of the other groups. 
 
 1891. The ill effect of sulfate and ammonia continued. "Phos- 
 phoric acid was most lacking, and next to it came potash, while 
 
NITRATE OF SODA 
 
 nitrogen gave financial profits only when used in combination with 
 both of the other elements." 
 
 In connection with "mixed minerals" nitrogen in the form of 
 nitrate of soda gave far better results than in either of the other forms ; 
 and increased applications resulted in increased yields and profits. 
 
 1892. The peculiarly injurious effects of sulfate of ammonia 
 were again apparent. The soil had been found decidedly acid when 
 subjected to a litmus paper test. Experiments by Dr. H. J. Wheeler 
 have shown that an application of air slaked lime to the soil prevent 
 the marked ill effect of applications of sulfate of ammonia. 
 
 Nitrate of soda, as a source of nitrogen, is still much superior to the 
 other forms employed. 
 
 1893. The season was rather unfavorable and the yields of corn 
 very low. 
 
 Nitrate of soda again shows its superiority by larger yields than were 
 secured from either the sulfate of ammonia or the dried blood. 
 
 The total yields for four years in the case of each plot, and the 
 total product from each group are shown in the following table : 
 
 SUMMARY KINGSTON EXPERIMENT, 1890-1893, Inclusive. 
 
 
 Totals, 
 Totals, 
 Totals, 
 
 "1 
 
 1 
 1 
 
 -- 
 1 
 
 L 
 
 ■ 
 
 Plot 
 
 Num- 
 bers. 
 
 Total Yields per Acre 
 
 IN 4 Years. 
 
 
 Hard 
 Corn. 
 
 Bushel. 
 
 Soft 
 Corn. 
 
 Bushel. 
 
 Stover. 
 Pounds. 
 
 Nitrate of Soda Group, 
 
 7 
 8 
 9 
 
 10 
 11 
 12 
 
 13 
 14 
 15 
 
 119.74 
 143.29 
 157 56 
 
 16.75 
 12.79 
 12.47 
 
 9205 
 10376 
 12337 
 
 
 420.59 
 
 42.01 
 
 31918 
 
 Sulfate of Ammonia Groitp, 
 
 120.68 
 51.58 
 34.17 
 
 14.74 
 11.11 
 12.30 
 
 9213 
 4513 
 
 3942 
 
 
 206.43 
 
 38.15 
 
 17668 
 
 Dried Blood Group, 
 
 112.21 
 124.49 
 102.67 
 
 16.06 
 14.92 
 20.24 
 
 8606 
 
 11810 
 
 8035 
 
 
 339 . 37 
 
 51.22 
 
 28451 
 
 
 1 
 
 
AS A FERTILIZER. I3 
 
 A comparison of the figures in yields per acre shows that the 
 nitrate of soda group exceeded the sulfate of ammonia group, as the 
 result of four years' crops, by 214.16 bushels of hard corn and 14250 
 pounds of stover, at $11.70 less cost for fertilizer. The nitrate of soda 
 group exceeded the dried blood group, as the result of the four years' 
 crops, by 81.22 bushels of hard corn and 3467 pounds of stover, at 
 $15.67, less cost for fertilizer. 
 
 2. ABBOTT RUN, L. I. 
 
 Farm of E. F. Crowninshield. 
 
 This experiment was in the northern part of the state, near the 
 Massachusetts line. The soil was a very light sandy loam, and the 
 field for many years had been used as a pasture. Two or three years 
 previous to 1890 the thin sod had been broken up and winter rye sown. 
 The next season buckwheat was grown and the crop turned under 
 Fertilizer was used and Indian corn planted, which proved a failure, 
 and "strap leaf" turnips were sown as a catch crop. In 1889 fertilizer 
 was again applied, and a fair crop of " Hungarian" (millet) was grown. 
 No barnyard manure was ever used on the field. The land was plowed 
 the depth of the surface soil, about 4 or 5 inches. The plots were 
 laid out and fertilizers applied as in the previous experiment. The 
 yields for four years were at the rates per acre shown in Table A. 
 
 Notes and Conclusions. 
 
 1890. In the three groups of plots where nitrogen was added 
 to "mixed minerals," the " most marked gains were made upon plots 
 7, 8 and 9, where it was applied in the form of nitrate of soda. But little 
 difference is apparent in the yields upon the sulfate of ammonia and 
 dried blood groups. It is possible that the process of nitrification was 
 not active enough for the plant to get the benefit from the nitrogen 
 which had been added in these forms, and that the yield would have 
 been greater had nitrogen in the form of nitrate of soda been employed 
 throughout." 
 
 Although the soil was evidently more in need of nitrogen than 
 either phosphoric acid or potash, its application in addition to those 
 two ("mixed minerals") was not profitable except in the form of 
 nitrate of soda. 
 
 1891. " In the special nitrogen test (plots 7 to 15) we have con- 
 clusive proof of the superior value of nitrate of soda on this land." 
 
M 
 
 NITRATE OF SODA 
 
 173 
 
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AS A FERTILIZER. 
 
 15 
 
 " Of the three forms of nitrogen, nitrate of soda gave the best results. 
 Dried blood gave better results than sulfate of ammonia." 
 
 1892. "On all the plots where both nitrogen and phosphoric 
 acid were applied in quantities exceeding the former applications, the 
 yields have been materially greater and more profitable." 
 
 Nitrate of soda has again shown its superior power. Although sul- 
 fate of am.monia and dried blood produced about equal yields of hard 
 corn, the dried blood gave a better yield of stover and, upon the whole, 
 yielded a more profitable crop. 
 
 The average yield of the " mixed minerals " plots (without nitro- 
 gen) above the yield of the nothing plots was not sufficient to pay for 
 the extra cost of fertilizers. 
 
 1893. The unfavorable season made the yields of hard corn a 
 little lower than in 1892, and that of stover much less. Nitrate of soda 
 gave decidedly superior yields over the other forms of nitrogen. The 
 following table gives the total of the four crops for each plot and each 
 group : 
 
 SUiMMARY ABBOTT RUN EXPERIMENT, 
 
 1890-1893, Inclusive. 
 
 
 
 
 
 Total Yields per Acre 
 
 
 
 
 Plot 
 
 Num- 
 bers. 
 
 IN 4 Years. 
 
 
 Hard 
 Corn. 
 
 Soft 
 Corn. 
 
 Stover. 
 
 
 
 r 
 
 
 Bus. 
 
 Bus. 
 
 Pounds. 
 
 
 7 
 
 133.27 
 
 7.13 
 
 8445 
 
 Nitrate of Soda Group, 
 
 - 
 
 \ 
 
 8 
 
 148.27 
 
 6.77 
 
 9645 
 
 
 Totals, 
 
 I 
 
 ( 
 
 9 
 10 
 
 159.92 
 441.46 
 
 7.20 
 
 9750 
 
 
 21.10 
 
 27840 
 
 
 65.28 
 
 16.48 
 
 6975 
 
 Sulfate of Aftimonia Group, 
 
 - 
 
 J 
 
 11 
 
 83.57 
 
 16.49 
 
 6545 
 
 
 Totals, 
 
 I 
 
 12 
 13 
 
 93.50 
 
 15.55 
 
 7865 
 
 
 242.35 
 
 48.52 
 
 21385 
 
 
 67.71 
 
 9.26 
 
 8260 
 
 Dried Blood Group, 
 
 - 
 
 - 
 
 14 
 
 85.56 
 
 9.77 
 
 8750 
 
 
 Totals, 
 
 > 
 
 15 
 
 113.41 
 
 9.06 
 
 9225 
 
 
 266.68 
 
 28.09 
 
 26235 
 
 
 1 . 1 - 
 
l6 NITRATE OF SODA 
 
 In the case of each group an increase in the amount of nitrogen 
 applied gave an increase in the total hard corn and stover obtained in 
 four years. 
 
 The total quantity of soft corn obtained was much the largest in 
 the sulfate of ammonia group. The dried blood group ranked second, 
 and the nitrate of soda group produced the smallest quantity ; — less 
 than half as much as was produced by the sulfate of ammonia group. 
 This shows a more rapid growth and early maturity on the part of the 
 crop grown upon the nitrate of soda. In a northern climate, where 
 there is a great liability to early frosts, and where a delay of a week or 
 ten days in the time of maturity may cause serious loss, the argument 
 for the use of nitrogen in the form of nitrate of soda, and of quick act- 
 ing fertilizer in general, has considerable weight. The query why 
 corn fertilized with sulfate of ammonia should be longer in maturing 
 than when dried blood is used, seems to find its answer in the effect 
 upon the plant, and upon the nitrification of the chemical added to an 
 already acid soil, producing conditions which make a longer time 
 necessary for the completion of the process of nitrification in the case 
 of the ammonia, than is required for the whole process in the case of 
 the dried blood. 
 
 The \ ration of nitrogen in the form of nitrate of soda., plot 7, pro- 
 duced just about double the quantity of hard corn which was produced 
 in the four years by either of the other forms of nitrogen where a 
 \ ration was used, plots 10 and 13. 
 
 The total yield for four years from all the plots in the nitrate of 
 soda group stated in yields per acre, exceeded the total yield from all the 
 plots in the sulfate of ammonia group by 199. 11 bushels of hard corn 
 and 6455 pounds of stover, at $11.70 less cost for fertilizers. 
 
 Compared with the dried blood group, the nitrate of soda produced 
 at the rate of 174.78 bushels hard corn and 1605 pounds of stover more 
 than the dried blood, at $15.67 less expense for fertilizers. 
 
 3. HOPE VALLEY, R. L 
 Farm of Herbert E. Lewis. 
 The field in which this experiment was located had served for 
 several years as a cow pasture, and was in a low state of fertility. The 
 soil was sandy loam in character. The same general method of treat- 
 ment was followed as in the other experiments. The yields for the 
 four years, calculated to rates per acre, are given below : 
 
AS A FERTILIZER. 
 
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l8 NITRATE OF SODA 
 
 Notes and Conclusions. 
 
 1890. The best results were secured this season from the sii - 
 ate of ammonia group. The fact that two out of eighteen fertilized 
 plots produced less than the yield from the two plots which received 
 no fertilizer whatever indicates some variation in fertility. Phosphoric 
 acid was particularly deficient in this soil, and nitrogen considerably so. 
 
 1891. Nitrate of soda this season gave considerably the best yield, 
 dried blood occupying the second place, plots 14 and 15 surpassing 
 last year's yield. 
 
 Sulfate of ammonia, which gave the best crop last season, is 
 quite out-distanced by both the other forms this season. 
 
 "The application of fertilizers was accompanied by profit only 
 when phosphoric acid was applied, and the profit was greatest when the 
 full ration of nitrogen in the form of nitrate of soda was used in com- 
 bination with phosphoric acid and potash." 
 
 1892. The yields from all the plots show a considerable reduc- 
 tion since the beginning of the experiment. Nitrate of soda again gave 
 the best crop, with dried blood second, and sulfate of ammonia last. 
 In the latter case, a \ ration gave a larger yield than either a f, or full 
 ration: a result which indicates a similar soil condition to that found 
 in the Kingston experiment. A litmus paper test of the soil reveals a 
 decided acid reaction. 
 
 1893. Nitrate of soda gave considerably the best crop: the yield of 
 hard corn from each plot was only about 3 bushels less than that of 
 last season. Dried blood again held the second place, but the yields 
 were from 5 to 9 bushels per plot less than those of last season. 
 Sulfate of ammonia gave the same marked injurious effect from the 
 larger applications. The results for the four years of the experiment 
 are given in the following computation of yields per acre : 
 
AS A FERTILIZER. 
 
 19 
 
 SUMMARY HOPE VALLEY EXPERLMENT, 
 
 1890-1893, Inclusive. . 
 
 
 
 
 
 Total Yields per Acre 
 
 
 
 
 Plot 
 
 Num- 
 bers. 
 
 IN 4 Years. 
 
 
 Hard 
 Corn. 
 
 Soft 
 Corn. 
 
 Stover. 
 
 
 
 f 
 
 
 Bus. 
 
 Bus. 
 
 Pounds. 
 
 
 7 
 
 126.39 
 
 14.72 
 
 8964 
 
 Nitrate of Soda Group, 
 
 - 
 
 \ 
 
 8 
 
 176.50 
 
 13.69 
 
 11632 
 
 
 Totals, 
 
 I 
 
 9 
 10 
 
 162.15 
 
 13.95 
 
 11147 
 
 
 465.04 
 
 42.36 
 
 31743 
 
 
 115.30 
 
 15.07 
 
 9275 
 
 Sulfate of Ammonia Group, 
 
 - 
 
 ■i 
 
 11 
 
 129.86 
 
 16.91 
 
 9696 
 
 
 Totals, 
 
 ■ 
 
 12 
 13 
 
 106.49 
 
 16.19 
 
 8751 
 
 
 351.65 
 
 48.17 
 
 27722 
 
 
 123.85 
 
 13.05 
 
 8833 
 
 Dried Blood Group, 
 
 - 
 
 14 
 
 137.22 
 
 15.00 
 
 10820 
 
 
 Totals, 
 
 L 
 
 15 
 
 143.69 
 
 15.10 
 
 10502 
 
 
 404.76 
 
 43.15 
 
 30155 
 
 
 
 
 
NITRATE OF SODA 
 
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AS A FERTILIZER. 
 
 If we compare the figures in the above table of total yields for the 
 four years, we find that the nitrate of soda group, as in the preceding 
 experiments, ranks first, dried blood second and sulfate of ammonia 
 third. Almost half, 159.64 bushels, of the total yield of hard corn in 
 the sulfate of ammonia group was, however, produced in the first year 
 of the experiment. Both dried blood and sulfate of ammonia gave 
 greater relative yields in this experiment than in either of the preced- 
 ing, and the total yield produced by each of the three groups was also 
 greater, as may readily be seen by the following summary of totals : 
 SUMMARY OF TOTAL YIELDS IN FOUR YEARS. 
 
 • 
 
 Hard 
 
 Corn. 
 
 Bus. 
 
 Soft 
 Corn. 
 
 Bus. 
 
 Stover. 
 Pounds. 
 
 i Kingston 
 
 Nitrate of Soda Group. . . -j Abbott Run . . 
 
 ^ Hope Valley. . 
 
 Sulfate of A mvionia i Kingston 
 
 Group - Abbott Run . . 
 
 ' Hope Valley. . 
 
 /' Kingston 
 
 Dried Blood Group. .... \ Abbott Run . . 
 
 ( Hope Valley. . 
 
 420.59 
 441.46 
 465.04 
 
 206.43 
 242.35 
 351.65 
 
 339.37 
 266.68 
 404.76 
 
 42.01 
 21.10 
 42.36 
 
 38.15 
 
 48.52 
 48.17 
 
 51.22 
 28.09 
 43.15 
 
 31918 
 27840 
 31743 
 
 17668 
 21385 
 
 27722 
 
 28451 
 26235 
 30155 
 
 The superiority of nitrate of soda as a source of nitrogen for the 
 Indian corn crop is quite evident from the above figures. 
 
 These three experiments were the only ones conducted through 
 four years, and the single element tests showed that phosphoric acid was 
 much needed in every instance, more so than potash ; and nitrogen in 
 any form would not produce a maximum effect without the '' mixed 
 minerals " This was quite to be expected, considering that two of 
 these experiment fields were parts of old cow pastures, and the other 
 a field much worn by long and exhaustive cropping. All three were 
 very light sandy-loam soils. 
 
 Beginning in 1890, three other experiments were conducted in 
 other sections of the state for a period of three years, and two, for two 
 years. In each instance the land was laid out, fertilized, and the ex- 
 periment carried on in accordance with the rules which governed the 
 preceding experiments. 
 
22 NITRATE OF SODA 
 
 4. WESTERLY, R. I. 
 
 Farm of Courtland P. Chapman. 
 
 The soil of the field selected for experiment was a rather rich, 
 slightly sandy, loam. In 1884 seaweed and stable manure were used to 
 g:row Indian corn ; in 1885 seaweed and " phosphate " were used to 
 grow potatoes. In 1886 it was sown to oats and grass, and until 1890 
 had been regularly mowed and but lightly top-dressed. This field 
 appeared to be in a higher state of fertilility than any other under 
 experiment, and large applications of fertilizers, especially the most 
 expensive element, nitrogen, showed less profit than upon poorer soils. 
 The following table shows the yields per acre. 
 
 Notes and Conclusions. 
 
 1890. Owing to the natural fertility of the field, the yields from 
 all the plots were much larger than was the case in any of the previous 
 experiments. There was almost no difference in the total product of 
 hard corn from the nitrate of soda group as compared with the dried 
 blood gi'oup. Nitrate of soda was, howevei:, a shade superior in yield, 
 and gave some 240 pounds more of stover, and, considering its lowea 
 cost, was, therefore, fully entitled to the first place as source of nitro- 
 gen. The total yield from the sulfate of ammonia group was 16 
 bushels of hard corn less than was produced by the nitrate of soda 
 group. 
 
 1891. There was a large falling off in the yields from all the 
 plots, but the relation between the different groups was about the 
 same as in the previous season. The dried blood group this season 
 slightly exceeded the nitrate of soda group in both total yield of hard 
 corn and stover. The yields of stover were very uniform for the three 
 groups, a difference of only 100 pounds existing between the highest 
 and the lowest total yield. 
 
 1892. The yields were larger than in '91, but not so large as in 
 '90, and much greater relative difference existed. Nitrate of soda wa.s 
 this season most decidedly siiperior to both other forms of nitrogen. The 
 total product from the nitrate of soda group was 50.29 bushels of hard 
 corn and 2320 pounds of stover more than was produced by the dried 
 blood group. The sulfate of ammonia group gave this season a 
 better crop of hard corn than the dried blood grotip, but the latter 
 
AS A FERTILIZER. 
 
 
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24 
 
 NITRATE OF SODA 
 
 produced over half a ton per acre more stover than the former. The 
 total yields for the three years are as follows : 
 SUMMARY WESTERLY EXPERIMENT, 1890-1892, Inclusive. 
 
 
 Plot 
 
 Num- 
 bers. 
 
 Total Yields pek Acre 
 IN 3 Years. 
 
 
 Hard 
 Corn. 
 
 Bus. 
 
 Soft 
 Corn. 
 
 Bus. 
 
 Stover. 
 Pounds. 
 
 Nitrate of Soda Group 
 
 7 
 8 
 9 
 
 10 
 11 
 12 
 
 13 
 14 
 15 
 
 176.43 
 182.43 
 176.13 
 
 12.70 
 13.84 
 16.41 
 
 1X)120 
 11900 
 12230 
 
 Totals, 
 
 534-99 
 
 42.95 
 
 34250 
 
 f 
 Sulfate of Ammonia Group, - J 
 
 1 
 I 
 
 155.99 
 165.99 
 167.14 
 
 10.93 
 12.12 
 12.70 
 
 9360 
 
 8990 
 
 10890 
 
 Totals, 
 
 489.12 
 
 35.75 
 
 29240 
 
 [ 
 
 Dried Blood Groups - \ 
 
 1 
 I 
 
 137.42 
 169.13 
 175.28 
 
 14.70 
 16.70 
 17.99 
 
 8580 
 11120 
 12640 
 
 Totals, 
 
 481.83 
 
 49.39 
 
 32340 
 
 
 
 
 
 The above figures show that the nitrate of soda group produced 
 the greatest total yield of hard corn and also of stover in the crops of 
 three years. Sulfate of ammonia slightly exceeded dried blood in 
 the total yield of hard corn, but the latter had a considerable excess of 
 soft corn and stover. This soil was a stronger and much richer one 
 than that of any one of the preceding experiments. It contained very 
 much more humus, and doubtless a larger supply of available mineral 
 plant food. While much larger yields were secured than from the 
 experiments upon rather poor and "hungry" sandy soils, the applica- 
 tion of nitrogen in any form in large amounts was more profitable in 
 dollars and cents upon the latter. In this experiment the greatest 
 profit came from the use of the \ ration of nitrogen. 
 
 5. NOOSE NECK, R. 1. 
 Farm of J. B. Vaughn. 
 The field in which this experiment was located had not been 
 
AS A FERTILIZER. 
 
 25 
 
 plowed or fertilized since 1884, when fodder corn had been planted in 
 drills, with manure. The soil was a poor sandy loam with little or no 
 sod, and when the plots were staked out, little besides bluets {Houstonia 
 caerulea) and bird foot violet {viola pedeta) was growing upon it. The 
 crops produced upon the three groups of nitrogen plots, calculated to" 
 yields per acre, were as follows: 
 
 
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26 nitrate of soda 
 
 Notes and Conclusions. 
 
 1890. The largest yields were upon those plots where nitrogen 
 was added to the "mixed minerals." Nitrogen seemed to be the element 
 most lacking, although potash and phosphoric acid were also deficient. 
 " So far as the eye could detect there was little difference between the 
 the nitrate of soda and the sulfate of ammonia groups, other than that 
 the latter plots were not so mature as the former." "Nitrogen in the 
 form of nitrate of soda and sulfate of ammonia, gave better returns than 
 in the form of dried blood, and its application, even in considerable 
 quantities, in the two former cases was accompanied by profit, and in 
 the latter case by loss." 
 
 "The corn upon the plots supplied with nitrogen in the form of 
 sulfate of ammonia, was later in maturing than where nitrogen in the 
 form of nitrate of soda was used." 
 
 " Potash and phosphoric acid applied alone proved unprofitable, 
 which was not the case when combined with nitrogen in the most 
 available form." 
 
 1891. Sulfate of ammonia, which gave a trifle the largest crop 
 last year, was third in order this season, and dried blood was first, but 
 exceeded nitrate of soda by only 0.35 of a bushel of hard corn and 350 
 pounds of stover. 
 
 " Since the field was especially lacking in phosphoric acid, the good 
 showing for the blood may, probably, to some extent be due to the 
 amount of phosphoric acid which it contained." (The dried blood 
 contained 3.21 percent, of phosphoric acid, while that obtained in 1892 
 for these experiments contained only 0.42 of a per cent.) 
 
 1892. This third season the nitrate of soda group produced j'zV/i/i' 
 much greater than were produced by either of the other groups A 
 lack of seasonable rains, from which the crop suffered, may in part 
 account for the reduced yields from the sulfate of ammonia and dried 
 blood groups; the soil being too dry for nitrification to go on with 
 sufficient rapidity to furnish the necessary nitrates for plant growth. 
 
 ^^ Nitrate of soda gave by far the best results, while sulfate of 
 ammonia and dried blood did not produce yields commensurate with 
 their cost. 
 
 Following is the table of total yields for three years : 
 
AS A FERTILIZER. 
 
 SUMMARY NOOSE NECK EXPERIMENT, 
 
 1890-1892, Inclusive. 
 
 27 
 
 
 Plot 
 
 Num- 
 bers. 
 
 Total Yields per Acre 
 IN 3 Years. 
 
 
 Hard 
 Corn. 
 
 Bus. 
 
 Soft 
 Corn. 
 
 Bus. 
 
 Stover. 
 Pounds. 
 
 r 
 
 Nitrate of Soda Group, - \ 
 
 7 
 8 
 9 
 
 10 
 11 
 12 
 
 13 
 14 
 15 
 
 80.21 
 106.78 
 124.64 
 
 9.85 
 9.57 
 9.99 
 
 6860 
 7020 
 8335 
 
 Totals, 
 
 3"-63 
 
 29.31 
 
 22215 
 
 r 
 
 Sulfate of Ammonia Group, - ] 
 
 75.56 
 101.41 
 107.06 
 
 6.36 
 
 8.71 
 8.71 
 
 6845 
 6925 
 
 7820 
 
 Totals, 
 
 284.03 
 
 23.78 
 
 21590 
 
 Dried Blood Group, - - -I 
 
 71.42 
 79.^1 
 99.00 
 
 5.13 
 
 8.41 
 8.06 
 
 5725 
 6845 
 7035 
 
 Totals, 
 
 249.63 
 
 21.60 
 
 19605 
 
 
 
 
 
 The total yields for the three years from the nitrate of soda group, 
 exceeded the yields in either of the other groups, in hard corn, soft corn, 
 and stover. Sulfate of ammonia produced the next best yield, as the 
 total produced by the dried blood group was cut down considerably by 
 the small yield in 1892. 
 
 6, JAMESTOWN, R. I. 
 
 Farm of T. A. H. Tefft. 
 
 This experiment was located on the north end of the island of 
 Conanicut. The soil was a black loam. The field had been in grass 
 for forty years, and had received no top dressing in any form for seven 
 or eight years, except across one corner of some of the single ele- 
 ment plots. The land was plowed 4^ inches deep. The ends of some 
 of the plots were too low and wet for the corn crop, but, in harvesting, 
 a given section of the whole plot, representing a normal yield, was 
 weighed, and the weights for the whole plot calculated from this. In 
 
28 
 
 NITRATE OF SODA 
 
 1891 a portion of a field located upon higher ground, and better 
 adapted to the corn crop, was selected for experiment. The soil was 
 a light sand, with gravelly subsoil. The last application of manure 
 was about twelve years ago, since which time it has grown two crops 
 of corn, one each of oats and rye, and several crops of grass. The soil 
 was very badly "run down," and only occasional tufts of grass covered 
 the surface. The following table gives the yields upon the plots of 
 the two fields, calculated to yields per acre : 
 
 
 1890 (1st Field.) 
 
 1891 (2d Field.) 
 
 
 Hard 
 Corn. 
 
 Bus. 
 
 Soft 
 Corn. 
 
 Bus. 
 
 Stover. 
 Pounds. 
 
 Hard 
 Corn. 
 
 Bus. 
 
 Soft 
 Corn. 
 
 Bus. 
 
 Stover. 
 Pounds. 
 
 Nitrate of Soda Group. 
 Plot 7, \ ration 
 
 65.71 
 70.00 
 
 72.86 
 
 57.14 
 60.00 
 65.71 
 
 37.14 
 38.57 
 37.14 
 
 12.86 
 10.00 
 11.43 
 
 17.14 
 15.71 
 17.14 
 
 12.86 
 11.43 
 15.71 
 
 3800 
 4300 
 4600 
 
 3400 
 3700 
 4000 
 
 2800 
 2900 
 2900 
 
 41.42 
 50.00 
 51.42 
 
 34.28 
 43.57 
 26.43 
 
 22.14 
 24.28 
 15.71 
 
 11.43 
 
 6.78 
 7.85 
 
 7.14 
 5.71 
 7.14 
 
 5.71 
 8.57 
 7.14 
 
 3000 
 
 " 8, f " 
 
 3600 
 
 " 9, Full " 
 
 3400 
 
 Sulfate of Ammonia Group. 
 Plot 10, + ration 
 
 2850 
 
 " 11. f " 
 
 " 12, Full " , 
 
 Dried Blood Group. 
 Plot 13, \ ration 
 
 3600 
 2900 
 
 2400 
 
 " 14, f " 
 
 2800 
 
 " 15, Full " 
 
 3100 
 
 
 
 Notes and Conclusions. 
 
 1890, The plots comprising the nitrate of Soda group gave con- 
 siderably the best yields, and a profitable increase over the yield from 
 ** mixed minerals" without nitrogen. The plots in the sulfate of 
 ammonia group ranked second in yield, but the corn was later in 
 maturing, and the yield of soft corn was large. The dried blood, for 
 some reason, seemed to be of no advantage, as the yield from the 
 mixed mineral plots on either side of this group, without addition of 
 nitrogen, gave larger yields. 
 
 1891. The soil of this field was very poor sandy loam, quite un- 
 like that used the previous season. The yields were not so large as 
 
AS A FERTILIZER. 29 
 
 from the other field, but again nitrate of soda gave by far the best reszdts^ 
 sulfate of ammonia ranked second, and dried blood gave the smallest 
 yields. As this experiment was not consecutive upon the same field, 
 we omit a summary of the yields for two years. The superior yields 
 from the use of nitrate of soda are very evident in both instances, and 
 its lower cost adds to the economy of its use. 
 
 An experiment was conducted for three years upon the farm of 
 Copwell and Tillinghast, at Summit, and one for two years upon the 
 farm of H. Hartwell Jencks, Lime Rock, but as considerable inequality 
 in the natural fertility of the different plots was apparent in the results,. 
 we will not take space for the details. An experiment was conducted 
 for one season in three other localities in the state, but as the results 
 are all summarized in the " Conclusions " by Dr. Wheeler in 1890, and 
 later by Mr. Lowar, we quote from their reports in relation to the use 
 of materials for the supply of nitrogen. 
 
 1890. " Nitrogen proved most profitable upon soils with little 
 sod and humus, /. e., light sandy, or gravelly, loams. Taking all the ex- 
 periments into consideration, nitrogen in the form of nitrate of soda 
 ■was more certain to give fair returns than in either of the other forms. Its 
 lesser cost is, a/so, an additional argument in its favor." 
 
 " The sulfate of ammonia gave, in one or two instances, better returns 
 than nitrate of soda, though in two cases, at least, the period of growth 
 was prolonged by its use which may, perhaps, have been due to delayed 
 nitrification. In one insLancei, the sulfate nitrogen appears not only 
 not to have been available to the plant, but to have had a decidedly 
 injurious effect, for it more than neutralized the otherwise good effect 
 of the potash and phosphoric acid with which it was applied. The 
 greater the[^ application of the sulfate, the more disastrous were the 
 results." 
 
 "On the whole, nitrogen in the form of dried blood proved inferior 
 to both the other forms." 
 
 1891. "While in four cases, in 1890, potash appeared the most 
 deficient, it has in no case, upon a second trial been found so much 
 lacking as phosphoric acid." 
 
 " Of the three forms of nitrogen, nitrate of soda has, upon the whole^ 
 proved the most profitable, and sulfate of ammonia the least." 
 
 " In most of the plots where dried blood was applied, the corr> 
 
 1 Used upon a soil having a decided acid re-action. 
 
30 NITRATE OF SODA 
 
 ripened earlier, and showed, when compared with the nitrate of soda 
 and sulphate of ammonia plots, a greater relative yield than in 1890. 
 This gain may be due to the fact that the dried blood contained, in 
 addition to the organic nitrogen, a small amount of phosphoric acid, 
 and this amount was unusually great in the blood used in 1891. The 
 phosphoric acid may have increased the yield. Another cause for the 
 increase might be, since nitrification of dried blood is somewhat slow> 
 that, in all probability, some of the nitrogen applied on these plots in 
 1890 was unused until 1891." 
 
 1892. " Phosphoric acid has in every case proved itself the most 
 deficient, followed by nitrogen. " 
 
 In the special nitrogen tests, nitrate of soda takes first place in all but 
 one instance^ where it holds second place. Sulfate of ammonia holds first 
 place once, second place twice and third place three times. Dried 
 blood holds second and third places three times each. 
 
 "The ill effects of sulfate of ammonia were wholly prevented by 
 the application of air-slaked lime. " 
 
 1893. The three experiments continued through four years, 
 showed by considerably increased crops the superior effect of nitrate of soda 
 as a source of nitrogen. If we represent the total product from the 
 nitrate of soda groups, in the three experiments, for the whole time, by 
 100 in the case of the hard corn, soft corn and stover, then the products 
 in the other two groups would be represented as follows : The relative 
 cost of the fertilizers for the three groups, calculated on the same basis? 
 is also included in the table. 
 
 Hard corn. Soft Corn. Stover. Cost. 
 
 Nitrate of Soda group., loo.o loo.o loo.o 100. o 
 
 Sulfate of Ammonia group, 60.3 127.8 72.9 105.0 
 
 Dried Blood group., 76.1 116. i 92.7 107.4 
 
 These figures show plainly the proportional gains in hard corn and 
 stover made by the nitrate of soda group., in these three experiments, con- 
 sidered as a unit, and also the increased proportional cost of the 
 fertilizers for the dried blood and sulfate of ammonia groups, as com- 
 pared with that of the nitrate of soda group. In the case of the soft corn 
 the 7iitrate of soda gave the smallest yield., dried blood yielding about one- 
 sixth more, and sulfate of ammonia fully one quarter more. This 
 result in the totals of these experiments for a term of years, is in accord 
 with observations in the case of individual experiments already noticed, 
 when the corn upon the dried blood and sulfate of ammonia plots, 
 
AS A FERTILIZER. 
 
 31 
 
 particularly the latter, required a considerably longer time to mature 
 than was required for that upon the nitrate of soda plots. This point 
 in favor of the use of nitrate of soda has an important bearing upon the 
 use of fertilizers in northern latitudes. 
 
 *|.,-! ^■\* 
 
 COWPEA. 
 
 PlotNos. 29. Limed. 27. Unlimed. 25.. Limed. 23. Unlimed. 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 EXPERIMENTS WITH A VARIETY OF CROPS.^ 
 
 The marked ill effect of increased applications of sulfate of am- 
 monia to the corn crop in the " Twentieth-acre Cooperative Experi- 
 ment," on the grounds of the Experiment Station at Kingston, R. I., 
 and the fact that applications of air-slaked lime corrected the ill effects, 
 
 Cantaloupe. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 as already stated, led to the institution of an experiment upon four of 
 the permanent plots, located a short distance to the south, upon the 
 same level sandy loam plain land. These plots are separated from 
 each other by unmanured spaces of three feet, and are so laid out that 
 
 1 Compiled from the Annual Reports of the Rhode Lsland Agricultural Ex- 
 periment Station, from 1893 to 1897, inclusive. The experiment was m charge 
 of Dr. H. J. Wheeler, chemist, assisted by the Agricultural Division. 
 
32 
 
 NITRATE OF SODA 
 
 a border of three feet upon each side, and six feet across each end, is 
 fertilized at the same rate and cultivated in the same way as the real 
 plot which lies within. This permits the discarding from the experi- 
 ment the outside roivs, which necessarily obtain more air, light and 
 room than interior ones, and, thus, only results from interior rows, 
 which approximate field conditions, are used for comparative work. 
 The interior plots are i8i^ feet long and 24 feet wide, making an area 
 of -^ of an acre. In 1891 a crop of beans, and in 1892 a crop of Indian 
 corn had been grown without manures upon these plots, for the pur- 
 pose of ascertaining if they were suitable for comparative work. As 
 they proved very uniform in quality, were level, parallel and adjacent 
 lo each other, they were well adapted to the work proposed, viz., 
 the use of nitric and ammoniacal forms of nitrogen, with and with- 
 
 SojA Bean. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 out lime, in the growth of a variety of farm and garden crops. 
 We have thus far studied the effect of nitrate of soda upon the corn crop 
 alone. We have now to observe its effect upon a great variety of 
 crops, including grasses, nursery stock and small fruits. 
 
 The four plots were manured alike with muriate of potash, at the 
 rate of 200 pounds per acre, and dissolved bone-black at the rate of 
 600 pounds per acre. Plots 23 and 25, toward the west, received an 
 additional dressing of 360 pounds per acre of sulfate of ammonia, and 
 the two toward the east, 27 and 29, a dressing of tiitrate of soda at the 
 rate of 465 pounds per acre, or at such a rate that the amount of nitrogen 
 applied upon each plot was exactly the same. One of the sulfate of am- 
 monia plots, No. 25, and one of the nitrate of soda plots, No. 29, re- 
 
AS A FERTILIZER. 
 
 33 
 
 ceived, in addition, a dressing of air-slaked lime at the rate of 5400 
 pounds per acre. The lime was applied by itself and thoroughly har- 
 rowed in. The other fertilizers were carefully applied broadcast, and 
 well worked in b}^ harrowing. Seeds of a large variety of ci'ops were 
 planted in rows three feet apart, running across all four plots. The 
 following table shows the weights of the various crops, obtained 
 from a given and equal length of row on each of the four plots. 
 
 hit^tjji^ SiL>^st^:S'-itfs^U 
 
 ;\iAM;Kl WUUZEL. 
 
 Plot Nos. 29. Limed. 27. Unlimed. 2o. Limed. 28. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash or Phosphoric Acid. 
 
 There are 43 weights given in each column of the above table, 
 representing 37 different crops, and from the t(/i/tme^ plots, 23 and 27, 
 the same amount of nitrogen in nitrate of soda upon plot 27 as com- 
 pared with a like quantity of nitrogen in sulfate of ammonia upon plot 
 '2T), prodticed a heavie!' crop in every case. In 9 instances in the case of 
 the sulfate of ammonia, plot 23, there were no weights to record. The 
 
 Cabbage. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 total failures included all four varieties of beets, Jerusalem corn, early 
 and late cabbage (trimmed heads), spinach and merchantable potatoes. 
 All the conditions of seed and planting, care of crops and harvesting, 
 were, so far as possible, identical in the case of these four plots. In 
 planting all the small seeds, the seed-sower was run directly across the 
 
34 
 
 NITRATE OF SODA 
 
 TABLE T. 
 
 1893 
 
 Crimson clover 
 
 White beans (as pulled) 
 
 White podded adzuki beans (soy) . . . 
 
 Cow pea (green) 
 
 Soy bean " 
 
 Blue lupine (as harvested) 
 
 "Granger " pea (pods and vines). . . . 
 
 White capped corn (green) 
 
 Dent corn " 
 
 Pop-corn • ' 
 
 Sweet corn " 
 
 Eclipse table beet (roots and tops) . . . 
 French sugar beets " " 
 
 Long red mangels " " 
 
 Golden tankard beets " " 
 
 Victoria carrots " " 
 
 Mastodon carrots " " 
 
 Rutabagas (Swedish turnips) " 
 
 Amber sugar cane (green) 
 
 KafSr corn " 
 
 Jerusalem corn " 
 
 Sunflowers (seeds and stalks) 
 
 Kale (green) 
 
 Earl)^ cabbage (total crop) 
 
 " " (trimmed heads) 
 
 Late cabbage (total crop)i 
 
 " " (trimmed heads) 
 
 Spinach (green) 
 
 Early rose potatoes (total crop) 
 
 " " " (large tubers)^ . . . 
 
 Tomatoes (total fruit) 
 
 (ripe fruit) 
 
 (unripe fruit) 
 
 " (vines, green) 
 
 Lettuce 
 
 Oats, straw and grain (as harvested) 
 Barley " " " 
 
 Rye 
 
 Hungarian (green) 
 
 Golden millet " 
 
 Italian " " 
 
 Panicum crus-galli (green) 
 
 Buckwheat " 
 
 Unlimed. 
 
 Plot 23. I Plot 2T. 
 Sulfate of Nitrate 
 Amm'nia' of Soda. 
 Lbs. Lbs. 
 
 3.75 
 
 4.12 
 
 13.62 
 
 10.37 
 
 9.38 
 
 12.63 
 
 .44 
 
 3.06 
 
 3.50 
 
 3.69 
 
 2.95 
 
 .25 
 
 .00 
 
 .00 
 
 .00 
 
 .00 
 
 .44 
 
 13 25 
 
 .02 
 
 .05 
 
 .00 
 
 3.25 
 
 16.06 
 
 10.50 
 
 .00 
 
 16.75 
 
 .00 
 
 .00 
 
 6.25 
 
 .00 
 
 3.07 
 
 1.63 
 
 1.44 
 
 7.81 
 
 03 
 
 4.44 
 
 .50 
 
 1.00 
 
 1.81 
 
 1.19 
 
 2.50 
 
 12.13 
 
 43.38 
 
 19.50 
 4.81 
 22.81 
 12.00 
 21.81 
 
 14.44 
 1.88 
 
 12.63 
 925 
 
 18.63 
 
 14-13 
 9.00 
 
 5-25 
 9.80 
 
 7.25 
 
 25.00 
 
 29.00 
 
 75-75 
 
 -56 
 
 2.44 
 
 -50 
 
 40.19 
 
 92.56 
 
 90 50 
 
 52.75 
 
 46.00 
 
 10.00 
 
 .69 
 
 13-56 
 
 2.98 
 
 29.63 
 
 15.69 
 
 13-94 
 
 16.13 
 
 -13 
 
 5-56 
 
 2.88 
 
 2.13 
 
 8.75 
 
 12.63 
 
 19.56 
 
 43.06 
 
 66.19 
 
 Limed. 
 
 Plot 25. 
 
 Sulfate of 
 
 Amm'nia 
 
 Lbs. 
 
 20.75 
 
 5.94 
 
 22.87 
 
 12.31 
 
 7.88 
 
 4.25 
 
 4.94 
 
 13.69 
 
 15.00 
 
 27.25 
 
 34.50 
 
 43.00 
 
 60.75 
 
 61.00 
 
 48.50 
 
 43 50 
 
 70.50 
 
 65.35 
 
 13.19 
 
 11.63 
 
 3.75 
 
 54.88 
 
 119.56 
 
 97.25 
 
 50 50 
 
 120.00 
 
 40.00 
 
 9.38 
 
 13.50 
 
 6.16 
 
 25.81 
 
 15.31 
 
 10.50 
 
 13.81 
 
 7.63 
 
 5.31 
 
 3.94 
 
 3.25 
 
 10 69 
 
 16.44 
 
 25.38 
 
 41.35 
 
 73.35 
 
 Plot 39. 
 
 Nitrate 
 
 of Soda. 
 
 Lbs. 
 
 26.50 
 
 5.35 
 
 18.00 
 
 9.44 
 
 18.00 
 
 5-56 
 
 3.88 
 
 8 75 
 
 9.88 
 
 30.00 
 
 29.75 
 
 69.25 
 
 94.75 
 
 75-50 
 
 68.00 
 
 40.50 
 
 50.00 
 
 115-50 
 
 7.50 
 
 9.19 
 
 1.75 
 
 43.80 
 
 139-56 
 
 116.50 
 
 57-00 
 
 109.00 
 
 68.00 
 
 18.38 
 
 13.94 
 
 7-36 
 
 41.62 
 
 10.06 
 
 31.56 
 
 26.50 
 
 10.13 
 
 7-50 
 
 5-31 
 
 3.06 
 
 8.31 
 
 14.13 
 
 16.75 
 
 58.00 
 
 97.19 
 
 1 Buf few of this variety reached maturity, 
 
 2 Tubers 2 oz. or more in w^eight. 
 
AS A FERTILIZER. 
 
 35 
 
 four plots, including the three-foot paths which separated them, thus 
 insuring the same rate of seeding and depth of covering. After the 
 plants were up, lines were stretched and the paths hoed out. The 
 beet seed germinated as well upon plot 23 as upon any one of the 
 others, but the young plants soon stopped growing, turned a sickly 
 
 E 
 
 ^ o 
 o 
 
 4> 
 
 -.J 
 ft 
 
 C^ 
 
 6 c< 
 
 6 ^ 
 
 u 
 
 ^ O 
 
 red hue and died. The beets upon plot 27, where nitrate of soda was 
 used, made some growth, but not a profitable one, as compared with 
 the crop produced by the same amount of fertilizer in connection with 
 lime on plot 29. Spinach and lettuce are also very susceptible to soil 
 
^6 NITRATE OF SODA 
 
 acidity and greatly benefitted by the use of lime in connection with nityatc 
 of soda upon such soils. 
 
 Tlie reader may say that these are unusual results due to very 
 peculiar soil conditions, but considerable investigation, very many 
 litmus paper soil tests, and a number of experiments in the grow- 
 ing of beets, barley, clover and grass (in which, however, there 
 was no comparison of forms of nitrogen) show that very large areas of 
 land in this and other states are affected by similar conditions to a 
 
 Sugar Beets 
 Plot Nos. 29. Limed. 27. Unlimed. 25. "Limed. 23. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 greater or less extent. These plots are surrounded by hundreds of 
 acres of land of a similar character, i.e., level, light sandy loam, naturally 
 well drained, but thin soil, more or less exhausted by long continued 
 cropping, so that the above results can by no means be claimed as 
 peculiar to the particular plots used for the experiment. 
 
 Turning to the limed plots, 25 and 29, we find that nitrate of soda 
 gave greater yields in 2^ out of the 4j iveights. The application of lime was 
 
 Table Beets. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 quite a heavy one, about two and three fourths tons per acre (5400 lbs.,) 
 and further investigation has shown that some varieties of plants were 
 perhaps injuriously affected by the large application of lime in con- 
 junction with the nitrate of soda. This is particularly applicable to the 
 carrot, which should be planted two or three years after liming rather 
 than immediately after. 
 
AS A FERTILIZER. 
 
 37 
 
 The experiment was continued upon the same plots, and in 1894, 
 potash, phosphoric acid and nitrogen were applied, at the same rate 
 
 Celkry. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 and in the same forms, upon the respective plots as in 1893. An 
 additional application of half a ton per acre of air-slaked lime was 
 applied to plots 25 and 29, which had been limed the previous season. 
 
 Sorghum. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 This Avas done because the soil of these plots was found to be still 
 slightly acid. As before, the different crops were planted, or set in rows, 
 generally three feet apart, directly across the plots, but in the case 
 
38 
 
 NITRATE OF SODA 
 
 TABLE II. 
 
 1894 
 
 Unlimed. 
 
 Spinach 
 
 Gumbo 
 
 Sugar beet 
 
 Lettuce 
 
 Salsify (whole plant) 
 
 Celery 
 
 Onion (red) .' 
 
 ' ' (yellow) 
 
 Globe Mangel-Avurzel 
 
 Long " " (roots and tops) ... . 
 
 Table beets 
 
 Muskmelon (fruit) , 
 
 Late cabbage (trimmed heads) 
 
 Tobacco 
 
 Egg-plant (fruit) 
 
 Cauliflower (heads) 
 
 Cucumber (fruit) 
 
 Sorghum 
 
 Martynia (whole plant) 
 
 Pepper (fruit) 
 
 Peanut 
 
 Barley (air dried) 
 
 Rape 
 
 Red clover (air dried) 
 
 Potato, Beauty of Hebron (tubers) 
 
 Potato, Early Rose (tubers) 
 
 Garden peas , 
 
 Kohl Rabi 
 
 Brussels sprouts , 
 
 Golden wax bean (beans and pods, ripe) 
 
 Buckwheat (air dried) 
 
 Rutabaga, or Swedish turnip 
 
 Tomato (fruit) 
 
 Sunflower 
 
 Spring wheat (air dried) 
 
 Radish, long scarlet 
 
 Turnip, strop leaf 
 
 Early Cabbage (trimmed heads) 
 
 Danvers carrot 
 
 White " 
 
 Improved long orange carrot 
 
 Kale 
 
 Sweet corn 
 
 Oats (air dried) 
 
 Plot 23. 
 Sulfate of 
 Amm'nia 
 Lbs. 
 
 0.0 
 0.0 
 0.0 
 0.0 
 0.0 
 0.8 
 0.0 
 0.0 
 0.0 
 0.0 
 0.0 
 0.0 
 0.0 
 1.8 
 2.3 
 0.0 
 0.7 
 0.0 
 1.0 
 0.1 
 3.8 
 0.1 
 0.0 
 0.2 
 5.2 
 1.3 
 0.1 
 0.5 
 6.3 
 0.0 
 0.8 
 1.5 
 13.9 
 0.8 
 0.1 
 0.6 
 2.5 
 2.0 
 0.6 
 0.0 
 0.0 
 9.4 
 
 0.7 
 
 Plot 27. 
 
 Nitrate 
 
 of Soda. 
 
 Lbs. 
 
 O.I 
 2.1 
 
 3.0 
 o 6 
 2.5 
 4-3 
 
 2.0 
 
 1.6 
 5-3 
 27.3 
 II. 5 
 71 
 7.0 
 
 9-5 
 
 4.0 
 
 1.8 
 
 28.9 
 
 23.6 
 
 17.8 
 
 2.3 
 
 5-5 
 
 1.8 
 
 58.0 
 
 4.1 
 
 16.5 
 
 9-3 
 8.0 
 
 5-9 
 
 64.6 
 2.4 
 3.8 
 
 45.5 
 157.8 
 
 59.3 
 0.5 
 4.6 
 
 38.0 
 
 55.3 
 27.1 
 16.4 
 12. 1 
 64.8 
 48.3 
 3.2 
 
 L1.MED. 
 
 Plot 25. 
 
 Sulfate of 
 
 Amm nia 
 
 Lbs. 
 
 20.0 
 
 25.0 
 
 3.1 
 
 24.5 
 
 23.0 
 
 8.0 
 
 8.5 
 
 23.8 
 
 51.1 
 
 40.0 
 
 29.9 
 
 34.6 
 
 38.3 
 
 1.8 
 
 1.8 
 
 36.1 
 
 58.4 
 
 22.5 
 
 4.5 
 
 3.3 
 
 3.6 
 
 97.8 
 
 9.5 
 
 23.4 
 
 8.3 
 
 13.7 
 
 9.3 
 
 95.8 
 
 3.3 
 
 5.5 
 
 59.8 
 
 170.9 
 
 69.3 
 
 0.8 
 
 1.8 
 
 35.5 
 
 71.3 
 
 24.0 
 
 13.4 
 
 9.8 
 
 95.0 
 
 62.1 
 
 4.6 
 
 Plot 29. 
 
 Nitrate 
 
 of Soda. 
 
 Lbs. 
 
 6.1 
 
 23.8 
 
 33.0 
 
 6.0 
 
 27.0 
 
 40.5 
 18.0 
 13.0 
 43-5 
 135.0 
 61.5 
 33-4 
 71.0 
 43-0 
 15. 1 
 3.5 
 87.3 
 70.5 
 50.6 
 
 6.3 
 
 3.9 
 
 3.7 
 
 114.4 
 
 7.0 
 
 9. 
 
 14. 
 
 9. 
 
 lOI. 
 
 3. 
 
 5- 
 66. 
 
 215. 
 84.0 
 
 0.7 
 
 6.3 
 
 44.0 
 
 63.1 
 19.4 
 
 19.4 
 
 9.0 
 94.4 
 53.5 
 
 3.5 
 
AS A FERTILIZER. 
 
 of beets, spinach, lettuce, and a few other crops, the young plants upon 
 plot 23 practically all died before the time when the second or third 
 leaves should have appeared. On the preceding page we give a con- 
 densed table of the results obtained in 1894: 
 
 TABLE II, Continued. 
 
 1894 
 
 Dandelion 
 
 Soy bean 
 
 Spring rye (air dried) 
 
 Cowpea 
 
 German millet (air dried) 
 
 Common white bean (whole plant) 
 
 Radish, French breakfast 
 
 Golden millet (air dried) 
 
 Watermelon (fruit) 
 
 R. I. capped corn (ears and stover) 
 
 Pumpkin (fruit) 
 
 Blue Lupine (air dried) 
 
 Sorrel (common weed) 
 
 Unlimed. 
 
 Plot 23. 
 
 Sulfate of 
 
 Amm'nia 
 
 Lbs. 
 
 0.0 
 
 4.8 
 1.5 
 
 10.4 
 0.6 
 1.0 
 0.4 
 0.5 
 
 85.5 
 0.0 
 0.0 
 2.9 
 
 84.5 
 
 Plot 27. 
 
 Nitrate 
 
 of Soda. 
 
 Lbs. 
 
 16.6 
 
 44.0 
 
 3.9 
 
 38 
 7 
 6 
 
 3 
 
 9 
 
 249 
 
 28.3 
 
 87.2 
 
 6.0 
 
 76.0 
 
 Limed. 
 
 Plot 25. j Plot 29. 
 
 Sulfate of: Nitrate 
 
 Amm nia of Soda. 
 
 Lbs. Lbs. 
 
 16.8 
 
 62.0 
 
 3.9 
 
 33.0 
 
 5.3 
 
 6.5 
 
 1.6 
 
 8.8 
 
 141.7 
 
 27.0 
 
 31.5 
 
 2.9 
 
 7.0 
 
 17.9 
 
 46.5 
 4.0 
 
 36.0 
 6.3 
 
 6.0 
 
 3-3 
 
 8.4 
 160.4 
 
 17.3 
 
 48.5 
 
 1.4 
 
 27-5 
 
 Dandelion. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 In this trial we have a wide variety of field and garden crops, and 
 one weed, sorrel, was included because of the common impression that 
 
40 NITRATE OP' SODA 
 
 it thrives best upon an acid soil. In the 57 records made in the above 
 table, comparing the unlimed plots, 23 and 27, we find that this season, 
 as well as last, nitrate of soda has produced a greater yield in every instance 
 
 Alfalfa. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 save one, sorrel, where sulfate of ammonia gave the larger crop. In 22 
 instances there was no crop whatever from the sulfate of ammonia 
 plot, while in not a single instance did nitrate of soda make a complete 
 failure. On the contrary, nitrate of soda ivitlioiit liine^ in twelve instances, 
 not counting sorrel, produced a larger crop than when lime was added. 
 
 GlRAL\.\ ^(ill.i.Kl'. 
 
 Plot Nos. 29. Limed. 27. Unlimed. 2.'). Limed. 23. Unlimed. 
 
 Nitrate of .Soda. Sulfate of Ammonia. 
 
 i\ll manured alike with Potash aud Phosphoric Acid. 
 
 Comparing the yields from the /////cv/ plots, 25 and 29, we find that 
 
 tlie crops produced I>y nitrate of soda Jiave exceeded those produced by 
 sidfate of ammonia in 44 eases out of the yy recorded, and in the ij ex- 
 ceptions 'lUe notice that in 6 instances nitrate of soda without lime, plot 2J^ 
 has given larger yields than sulfate of aniinonia luith li/ne, plot 2j. We 
 
AS A FERTILIZER. 
 
 41 
 
 therefore find tJiat the yields from nitrate of soda, -cuit/i or without the 
 addition of lime, have exceeded those from sulfate of ammonia plus lime, in 
 JO out of ^y trials, embracing a great variety oj field and garden crops. 
 
 In 1895, 12 varieties of grasses were sown across the plots, and a 
 number of vegetables, cereals and miscellaneous crops were again 
 planted. Some modifications of the previous manuring were made, as 
 
 Yellow Onions. 
 Plot Nos. 29. Limed. 37. Unlimed. 25. Limed. 23. Unlimed. 
 
 Nitrate of Soda, Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 follows: owing to the known deficiency of phosphoric acid in this soil, 
 the application of dissolved bone-black was increased from 600 to 800 
 pounds per acre: the amount of muriate of potash was also increased 
 from 180 to 350 pounds per acre: the amount of nitrate of soda remained 
 the same as in 1894, and a like quantity of nitrogen, in the form of 
 sulfate of ammonia, was applied, each upon its respective plot. No 
 further application of air-slaked lime was made, but sulfate of magnesia 
 
 KOHL-KABI. 
 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 2o. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 at the rate of 200 pounds per acre, was applied to all the plots. " This 
 was done for the reason that previouslv better results had been obtained 
 from the limed plot which received nitrate of soda than from the other 
 limed plot which received sulfate of ammonia, differences which might 
 have, in part, been attributed to the liberation of magnesia by the soda."' 
 The months of June and July proved to be very wet as compared 
 with the same months in 1894, when only 1.85 inches of rain fell. During 
 
42 
 
 NITRATE OF SODA 
 
 those two months in 1895, 9.19 inches of rain fell. It has been observed 
 that in very wet seasons sulfate of ammonia generally produces better 
 results than in dry seasons. This may be due, to some extent, to more 
 rapid nitrification because of the more abundant moisture, and no 
 doubt, also, when used upon acid soils, to the fact that the larger 
 amount of rain falling dilutes the soil moisture and weakens the acid 
 
 Early Cabbage. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 reaction, so that the soil acidity is less injurious to plants. On the 
 other hand, such excessive rain falls, coming just after nitrate of soda has 
 been applied, and before the crop has had opportunity to take it up, is 
 liable to carry some portion of the nitrogen down below the reach of 
 the plant roots. It will be seen by the following table of weights of 
 field and garden plots, that the yields from sulfate of ammonia com- 
 pare more favorably with those from nitrate of soda than heretofore. 
 
 Watermelons. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. LTnlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 There are 24 weights given in the table, and only five absolute 
 failures from plot 23, sulfate of ammonia without lime. The crops 
 which absolutely failed were alfalfa, onions, pumpkins, muskmelons and 
 dandelions, but barley, wheat, celery, mangel-wurzel and table beets, 
 carrots and cabbages failed to produce more than a fraction of a pound 
 each. This plot, however, produced the heaviest yield of watermelons, 
 
AS A FERTILIZER. 
 
 43 
 
 in marked contrast to the utter failure of the muskmelons. The yield 
 of oats and rye exceeded that produced upon plot 27, with nitrate of 
 soda, by less than a pound each. Therefore, in spite of the better crops 
 produced by the sulfate of ammonia on plot 23, the yields from nitrate 
 of soda on plot 27 were greater in the case of 21 out of 24 crops. Com- 
 paring the yields upon the limed plots, we find that nitrate of soda gave 
 the larger yield with 10 crops and sulfate of ammonia with 14, but two 
 of the 14, field corn and serradella, only exceeded the yield from nitrate 
 of soda by the fraction of a pound. 
 
 TABLE III. 
 
 1895 
 
 Barley (avg. of 2 rows) 
 
 Wheat " " 
 
 Oats " " 
 
 Rye " " 
 
 Sweet corn (ears and stover). 
 
 Field corn " " 
 
 Pop-corn 
 
 Panicum crus-galli (millet) . . 
 
 Alfalfa (1st and 2nd crop) . . . 
 
 Sorrel 
 
 Serradella 
 
 Blue lupine 
 
 Celery 
 
 Onions (Barletta) 
 
 Pumpkins 
 
 Beets, mangel-wurzel 
 
 Muskmelon 
 
 Carrots 
 
 Table beets 
 
 Cabbage (trimmed heads) . . . 
 
 Kohl-rabi 
 
 Dandelion 
 
 Flat turnip 
 
 Unlimed. 
 
 Plot 23. 
 
 Sulfate of 
 
 Amm'nia 
 
 Lbs. 
 
 
 
 8 
 2 
 4 
 2 
 5 
 
 11 
 
 
 
 108 
 
 39 
 
 30 
 
 
 
 
 
 
 
 
 1 
 
 
 28 
 Watermelon 186 
 
 .18 
 
 .78 
 40 
 ,15 
 .75 
 .45 
 .00 
 .25 
 05 
 50 
 05 
 00 
 00 
 10 
 00 
 15 
 20 
 60 
 80 
 00 
 50 
 00 
 
 Plot 27. 
 
 Nitrate 
 
 of Soda. 
 
 Lbs. 
 
 4.35 
 
 2.63 
 
 8.15 
 
 2.75 
 
 25.00 
 
 20.90 
 
 44-56 
 
 19.00 
 
 5-6o 
 
 124.60 
 
 56.55 
 44.00 
 0.50 
 2.50 
 25.00 
 24.10 
 26.40 
 43-00 
 54.10 
 57-IO 
 33-50 
 13.55 
 80.00 
 104.75 
 
 Limed. 
 
 Plot 25 
 
 Sulfate of 
 
 Amm'nia 
 
 Lbs. 
 
 16.88 
 6.90 
 10.18 
 8.23 
 59.80 
 22.35 
 42.30 
 17.20 
 16.75 
 
 108.60 
 39.65 
 29.25 
 10.55 
 9.70 
 48.60 
 90.65 
 47.90 
 83.85 
 
 105 . 70 
 70.40 
 57.50 
 20.62 
 
 124.00 
 20.60 
 
 Plot 29. 
 
 Nitrate 
 
 of Soda. 
 
 Lbs. 
 
 15.58 
 
 5.03 
 
 8.75 
 
 2.05 
 
 37.25 
 
 22.25 
 
 45-9« 
 
 15.60 
 
 10.60 
 
 102.50 
 
 39.05 
 
 25.75 
 
 13.80 
 
 19.70 
 
 134-05 
 119.25 
 64.60 
 
 84-45 
 
 99.45 
 
 97-15 
 
 53 . 55 
 23-58 
 107.80 
 
 57-10 
 
 GRASSES. 
 The grasses were sown in narrow beds across the four plots, the 
 varieties being separated by a cultivated path. As the seed was sown 
 
44 
 
 NITRATE OF SODA 
 
 in the spring of 1895, a full crop could hardly be expected that season 
 but all were cut, and the experiment continued for two more seasons. 
 For convenience and brevity we combine the yields for the three years 
 
 Timothy. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 in one table. Each variety was cut when in full bloom, or as soon 
 thereafter as possible. The weights for timothy in 1895 were un- 
 fortunately lost. The weights given are of undried material. 
 
 Sweet Corn (Maize). 
 Plot No. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 The figures in the following table do not represent pure cultures of 
 the several varieties, for, while as good seed as could be had was used, 
 there was some intermixture of other grasses, or plants, in every case. 
 
AS A FERTILIZER. 
 
 TABLE IV. 
 
 45 
 
 Varieties of Grasses. 
 
 Awnless Brome Grass, 
 ( Brom us inennis). 
 
 Totals, 
 
 Meadow Fox-tail, 
 
 {A lopeciirits prateiisis). 
 
 Totals, 
 
 Tall Fescue, - - - 
 
 {Festiica elatior). 
 
 Totals, 
 
 Kentucky Blue Grass, 
 {Poa prateiisis. ) 
 
 Totals, 
 
 Red Top, - - - - 
 {Agros/i's viclgaris). 
 
 Totals, 
 
 Orchard Grass, 
 
 {Dactylis gloinerata). 
 
 Totals, 
 
 Meadow Oat Grass, 
 
 {A vena elatior.) 
 
 Totals, 
 
 Soft Grass, - - - 
 
 (Holcus lanattts). 
 
 Totals, 
 
 Rhode Island Bent, 
 
 {Agrostis canzna). 
 
 Totals, 
 Sweet Vernal, - - _ 
 {Anthoxant hum od. piielli). 
 Totals, 
 
 Sheep's Fescue, - - . 
 {Festuca ovina). 
 
 Totals, 
 Timothy, - _ - - 
 {Phleiim pratense). 
 
 Totals, 
 
 Year. 
 
 1895 
 1896 
 1897 
 
 1895 
 1896 
 
 1897 
 
 1895 
 1896 
 1897 
 
 1895 
 1896 
 
 1897 
 
 1895 
 1896 
 1897 
 
 1895 
 1896 
 
 1897 
 
 1895 
 1896 
 1897 
 
 1895 
 1896 
 1897 
 
 1895 
 1896 
 
 1897 
 
 1895 
 
 1897 
 
 1895 
 1896 
 1897 
 
 1896 
 
 1897 
 
 Unlimed. 
 
 Limed. 
 
 Plot 23. I Plot 27. 
 Sulfate of Nitrate 
 Amm'niai of Soda. 
 Lbs. Lbs. 
 
 11.25 
 10.13 
 9^30_ 
 ^80768" 
 
 17.75 
 
 13.15 
 
 9.00 
 
 39.90 
 
 21.75 
 26.70 
 ^4.30 
 
 20.25 
 24.45 
 16.30 
 
 61.00 
 
 1.00 
 14.45 
 _^2.30 
 T7775~ 
 
 26.00 
 32.25 
 17.00 
 
 72.25 
 
 36 . 25 
 27.70 
 12.00 
 
 75.95 
 
 Plot 25 
 
 Sulfate of 
 
 Amm'nia 
 
 Lbs. 
 
 27.00 
 
 19.05 
 
 9.50 
 
 55 . 55 
 
 36.00 
 
 22.40 
 
 _14^30 
 
 72790 
 
 11.00 
 
 14.10 
 
 4.30 
 
 29.40 
 
 ^'24700" 
 27.45 
 12.50 
 
 63.95 
 
 24.40 
 10.80 
 
 60.95 
 
 30.75 
 20.50 
 13.50 
 
 64.75 
 
 72.25 
 19.15 
 11.80 
 
 103.20 
 
 23.00 
 29.50 
 15.00 
 
 67.50 
 
 5.75 
 3.70 
 
 9.45 
 
 3.75 
 
 11.50 
 
 8.30 
 
 23.55 
 
 21.10 
 ^4.10 
 T572O" 
 
 40.50 
 25.30 
 12.40 
 
 78.20 
 
 35.25 
 24.30 
 12,50 
 
 72.05 
 
 68.75 
 
 20.92 
 
 7.30 
 
 "9679r 
 
 21.00 
 19.30 
 13.30 
 
 53.60 
 
 9.00 
 
 7.70 
 
 16.70 
 
 1.25 
 7.55 
 5.30 
 
 14.10 
 
 25.30 
 20.4 
 
 41.00 
 25.30 
 11.50^ 
 
 77.80" 
 
 42.50 
 34.10 
 22.80 
 99740" 
 
 "iOkT 
 
 16.50 
 3.30 
 
 35.80 
 
 28.00 
 29.65 
 14.00 
 
 71.65 
 
 42.00 
 29.30 
 15.90 
 
 Plot 29. 
 
 Nitrate 
 
 of Soda. 
 
 Lbs. 
 
 27.50 
 
 15.90 
 
 9.50 
 
 ^52790" 
 
 ~T77oo" 
 
 24.60 
 15.80 
 87:40 
 
 44.50 
 33.65 
 25.00 
 
 103.15 
 
 "T3725" 
 
 17.00 
 
 7.00 
 
 37.25 
 
 28.00 
 25.75 
 17.50 
 
 71.25 
 
 47.00 
 34.55 
 15.30 
 
 87.20 
 
 34.75 
 24.15 
 11.50 
 
 ?0.40 
 
 75.25 
 26.20 
 11.00 
 
 112.45 
 
 25.27 
 25.35 
 10.50 
 
 61.12 
 
 9.25 
 6.10 
 
 15.35 
 
 2.50 
 13.90 
 
 8.50 
 
 24.90 
 
 31.05 
 
 23.80 
 
 54.85 
 
 96.85 
 
 38.25 
 28.10 
 16.80 
 
 83.15 
 
 69.75 
 24.50 
 17.00 
 
 111.25 
 
 20.75 
 22.70 
 18.50 
 
 61.95 
 
 8.00 
 9.20 
 
 17.20 
 
 1.25 
 11.40 
 12.50 
 
 25. »5 
 
 80.80 
 23.7 
 "54750" 
 
46 
 
 NITRATE OF SODA 
 
 Upon plot 23, in the case of Kentucky blue grass, orchard grass, timothy, 
 and some others, the soil conditions appeared to be unfavorable to 
 their growth, and they only persisted in a feeble way, or gave place to 
 coarser plants. In harvesting it was impossible to separate each variety 
 
 pq 
 
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 ^ 
 
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 Ph 
 
 c^ 
 
 
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 R 
 
 
 
 
 crt 
 
 
 
 
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 from such an admixture, and therefore the figures are the weights for 
 the green material growing upon each narrow row, and, in the case of 
 the above named grasses, the quality of the crop secured from the 
 nitrate of soda, plot 27, and the limed plots, 25 and 29, was much 
 superior to that from plot 23. 
 
AS A FERTILIZER. 47 
 
 By comparing the figures in the case of the unlimed plots, we find 
 that eight of the varieties produced a heavier yield from nib-ate of soda, 
 plot 27, and four from sulfate of ammonia, plot 23. Of the varieties 
 of Agrostis — red top and Rhode Island bent — two of the four produced 
 their heaviest crop upon plot 23. Their thrifty growth upon this 
 plot, as compared with that of Kentucky blue grass, orchard grass and 
 timothy, showed plainly that they were able to grow upon soils where 
 the conditions were such as to preclude the profitable growth of the 
 last-named grasses. 
 
 Turning to the limed plots we find that he7-e also nitrate of soda 
 gave the greatest total yield in 8 out of the 12 varieties, and in the other 4 
 instances the difference in favor of the sulfate of ammonia was slight. 
 In this three vear trial with 12 varieties of grasses, nitrate of soda was 
 
 Sweet Vernal-Grass. 
 
 Plot 23. Unlimed. Plot 25. Limed. Plot 27. Unlimed. Plot 29. Limed. 
 
 Sulfate of Ammonia. Nitrate of Soda. 
 
 All manured alike with potash and phosphoric acid. 
 
 found to be of superior value, not only in power of production, but in promot- 
 ing the growth of certain of our most commonly cultivated and most valuable 
 grasses, as timothy, orchard grass and Kentucky blue grass. 
 
 NURSERY STOCK. 
 
 A limited variety of fruit and shade trees was set on a portion of 
 these plots in the spring of 1896. The stock was selected for the pur- 
 pose, the trees of each kind as nearly uniform in size and apparent 
 vigor as possible. Any slight differences were equalized, when pos- 
 sible, in dividing up the stock for setting across the four plots. A like 
 number of trees of each kind was set on each plot, and they were 
 pruned in a uniform manner. In 1869 the diameter of each tree was 
 taken with calipers at the beginning and end of the season, and the 
 
48 
 
 NITRATE OF SODA 
 
 difference in the measurements showed the growth. The figures given 
 in the table in each case are the average for all the trees of each kind 
 on each plot. The diameters are given in centimeters. The length of 
 new growth was carefully measured, and the average for all the trees 
 of each kind was found for each plot, and is given in inches in the 
 tables. In 1897 it was impracticable to measure the length of new 
 shoots, and the increase in diameter only is given. 
 
 A glance at the table will show the superior effect of nitrate of soda 
 as compared with sulfate of ammonia, in its influence upon the growth 
 of nursery stock. Many years ago Ruffin, in writing of Virginia soils, 
 
 Sunflower. 
 Plot Nos. 29. Limed. 27 Unlimed. 25. Limed. 23. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 and of their improvement through the use of marls, we think called 
 attention to the fact that white birches and yellow pines, when consti- 
 tuting the natural growth upon land, indicate a lack of lime in the 
 soil, /. (?., they naturally thrive upon acid soils. We are therefore not 
 surprised to find that the white birch made its best growth in 1896, 
 upon the sulfate of ammonia, although the next year the largest aver- 
 age gain in diameter was made upon the nitrate of soda, plot 27, as 
 compared with the sulfate of ammonia, plot 23. In average growth of 
 
AS A FERTILIZER. 
 
 49 
 
 new wood, in all but 2 instances in the case of the 9 kinds of trees, the 
 greater growth was made upon the nitrate of soda, plot 27, as compared 
 with plot 23. Comparing the measurements made upon the limed 
 plots, the greater increase in average diameter was made upon the 
 
 
 
 
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 growth of new woyd in 11 out of 75 measurements. The latter included 
 every average measurement in the case of the grapes and currants. 
 Before closing with the experiment we wish to notice the yield of 
 small fruits in 1897. The weights are in grams as follows , 
 
5° 
 
 NITRATE OF SODA 
 
 Small Fruits, 
 1897. 
 
 Strawberries: Lady Rusk 
 
 " Haverland 
 
 " Chas. Downing. 
 
 Currants: Fay's Prolific 
 
 White Dutch 
 
 Gooseberry: Smith's Improved 
 
 Unlimed. 
 
 Plot 23. 
 Sulfate of 
 Amm'nia 
 
 Grams. 
 
 63.4 
 58.3 
 
 15.2 
 
 9.0 
 
 253.7 
 
 88.0 
 
 Plot 27. 
 Nitrate 
 of Soda. 
 Grams. 
 
 242.2 
 237.6 
 351-0 
 
 28.5 
 
 304.5 
 1428.0 
 
 Limed. 
 
 Plot 25. 
 Sulfate of 
 Amm'nia 
 
 Grams. 
 
 264.9 
 870.2 
 312.3 
 31.5 
 281.0 
 1505.0 
 
 Plot 29. 
 
 Nitrate 
 of Soda. 
 Grams. 
 
 203.7 
 351.1 
 
 519.3 
 
 89.6 
 
 352.6 
 
 1614.0 
 
 This experiment has well demonstrated that upon soils which give 
 an acid reaction — and such are far more common than is generally 
 supposed — nitrogen in the form of nitrate of soda, in connection with 
 phosphoric acid and potash^ gives far more profitable returns than sulfate of 
 ammonia. This fact is attested by the largely increased growth of 
 nearly all of a hundred or more kinds and varieties of field and 
 garden crops, and a large majority of a dozen of the more common 
 grasses and representatives of orchard and fruit trees, grapes and 
 small fruits. 
 
 Yellow Carrot (Danvers). 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 It has also shown that the application of air-slaked lime in con- 
 nection with nitrate of soda, potash and phosphoric acid will, upon acid 
 soils, generally render the fertilizers more effective and increase the 
 crops. The plants which are notable exceptions to this rule are the 
 lupines, serradella and watermelon, two varieties of Argrostis — red top 
 and Rhode Island bent — and the white birch. 
 
AS A FERTILIZER. 5 1 
 
 Liming is not particularly injurious to sorrel, as it will thrive upon 
 acid soils, with or without liming, if given an opportunity. The acid 
 condition of some soils forbids the growth of many cultivated plants 
 and grasses, and sorrel comes in naturally to cover the vacant spaces. 
 Liming and the use of nitrate of soda tend to correct the acidity, and 
 the soil conditions are changed so that cultivated plants can grow, and 
 sorrel is crowded out. 
 
 One great advantage in the use of niti^ate of soda commonly over- 
 looked is, without doubt, the fact that a basic residue is probably left 
 in the soil when the nitrogen is used by the plant, the tendency of 
 which is, doubtless, to modify soil acidity. On the other hand, the 
 residue from sulfate of ammonia is likely acid in character, and the 
 tendency, therefore, is to aggravate the condition of a soil already 
 acid. 
 
 AN EXPERIMENT WITH POTATOES. ^ 
 
 In 1896 and 1897 potatoes were grown upon plot 38 for the pur- 
 pose of testing various combinations of fertilizers, the experiment 
 being in charge of the Director. One of four questions involved was 
 the relative effect of dried blood and nitrate of soda as sources of nitro- 
 gen for the potato crop. The plot was divided into sections for the 
 experiment, and numbers i, 3 and 4 were used in this particular in- 
 quiry. Like quantities of muriate of potash and dissolved phosphate 
 rock were applied to each section, and equal amounts of nitrogen, in 
 its respective forms, to the several sections. Section i received half 
 its nitrogen in the form of dried blood and half in nitrate of soda. The 
 following table gives the yields for two years, calculated to bushels 
 per acre : 
 
 1 Tenth Annual Report, R. I. Expt. Station. 
 
5^ 
 
 NITRATE OF SODA 
 
AS A FERTILIZER. 
 
 53 
 
 POTATO EXPERIMENT, 1896 and 1897. 
 
 No. 
 of 
 Sec- 
 tion 
 
 Source of Nitrogen'. 
 
 Ra- 
 tion 
 
 Year 
 
 Yields of Tubers in 
 Bushels per Acre. 
 
 Total. 
 
 Large. 
 
 Small. 
 
 
 ( Dried Blood 
 
 1 
 1 
 
 1 
 
 1 
 
 1896 
 1897 
 
 1896 
 1897 
 
 1896 
 
 1897 
 
 289.26 
 246.90 
 
 209.75 
 120.96 
 
 
 1 
 
 ] Nitrate of Soda 
 
 79.51 
 
 
 ( Dried Blood 
 
 
 1 
 
 1 Nitrate of Soda 
 
 125.94 
 
 
 Average, 
 Dried Blood 
 
 268.08 
 
 165 35 
 
 102.72 
 
 3 
 
 299.78 
 260.80 
 
 211.61 
 127.46 
 
 88.17 
 
 3 
 
 
 133.34 
 
 
 Average, 
 Nitrate of Soda 
 
 
 
 280.29 
 
 169.53 
 
 110.75 
 
 4 
 
 302.26 
 284.31 
 
 198.00 
 148.80 
 
 104.26 
 
 4 
 
 Average, 
 
 135.51 
 
 
 293.29 
 
 173-40 
 
 119.88 
 
 
 
 1 
 
 Comparing the average yields for the two years, we find that sec- 
 tion 4, the///// ration of nitrate of soda, has given the largest crop ; dried 
 blood, section 3, ranks second ; and the half ration of each, section 3, 
 produced the least. 
 
 The average yield from the full ration oi nitrate of soda was 13 
 bushels in total crop — 3.87 bushels of large potatoes and 9.13 bushels of 
 small ones more than the average produced by the full ration of dried 
 blood on section 3. 
 
 The average yield from the full ration of nitrate of soda was 23.21 
 bushels vci totdl crop — 8.05 bushels of large potatoes and 17.16 bushels 
 of small ones, more than the average produced by the half ration each 
 of dried blood and nitrate of soda on section i. 
 
 POT EXPERIMENTS. 
 
 The following is condensed from an article 1 entitled, " Observa- 
 tions regarding the relative assimilability of various forms of nitrogen 
 upon an acid soil, limed and unlimed," and contains the results of an 
 experiment which was begtm in 1893 and continued through 1897. 
 
 1 Tenth Annual Report, R. I. Expt. Station, 1897, pages 241 to 253. By 
 Dr. H. J. Wheeler, B. L. Hartwell and G. E. Adams. 
 
54 
 
 NITRATE OF SODA 
 
 This experiment was conducted in galvanized iron pots or cans, 
 i8 inches in diameter and 26 inches deep, sunk in the soil of a yard 
 made for the purpose. Proper drainage was provided to guard 
 against water flowing into the pots from the outside. In each pot was 
 placed 154 pounds of subsoil and 100 pounds of surface soil taken 
 from plot 00 of the co-operative experiment. The soil was a sandy 
 loam with yellow loam subsoil, and it had received no manure what- 
 ever for many years. Great care was taken to insure a uniform qual- 
 
 Spring Rye. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 ity of soil in all the pots. Like quantities of dissolved bone-black, 
 muriate of potash, and nitrogen in the several forms have been annu- 
 ally added to each pot. Four pots were assigned to each form of 
 nitrogen, two of which were treated, the first year, with air-slaked 
 lime at the rate of 4 tons per acre, and the other two were unlimed. 
 No further application of lime has been made. The dried blood used 
 has been from the same lot, containing 12.45 P^^ cent, of nitrogen. 
 "Pennsylvania tankage," containing 8.9 per cent, 'of nitrogen, was 
 used in 1893 and 1894, and since then, finely ground leather, containing 
 
AS A FERTILIZER. 
 
 55 
 
 7.06 per cent, of nitrogen, has been substituted. Indian corn was 
 raised in 1893, but, owing to the individuality of the plants and the 
 small number which could be grown in each pot, the results were 
 unsatisfactory and the figures are omitted. In 1894 oats were grown. 
 When in the " milk " they were cut, and dried at 100° C. The follow- 
 ing table gives the weight for each pot in grams : 
 
 Oats. 
 Plot Nos. 29. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
56 
 
 NITRATE OF SODA 
 
 POT EXPERIMENT.— TABLE I. 
 
 
 
 No. 
 
 OF 
 
 Pot. 
 
 Limed. 
 
 Unlimed. 
 
 OATS, 1894. 
 
 Grams 
 
 Grams 
 
 
 
 
 per pot. 
 
 per pot. 
 
 
 f 
 
 20 
 
 
 17.2 
 
 Without Nitrogen 
 
 1 
 
 27 
 23 
 
 55 
 
 8 
 
 19.4 
 
 
 ■ 
 
 24 
 6 
 
 60 
 
 2 
 
 59.4 
 
 Nitrate of Soda 
 
 
 13 
 
 7 
 
 78 
 
 6 
 
 69.9 
 
 
 
 14 
 
 69 
 
 9 
 
 
 
 
 18 
 
 
 
 7.1 
 
 Sulfate of Ammonia 
 
 
 25 
 19 
 
 72 
 
 9 
 
 14.0 
 
 
 ^ 
 
 26 
 
 83 
 
 1 
 
 
 
 f 
 
 4 
 
 
 
 58.9 
 
 Dried Blood. 
 
 
 11 
 5 
 
 67 
 
 9 
 
 50.3 
 
 
 f 
 
 12 
 
 2 
 
 68 
 
 1 
 
 45.7 
 
 ' ' Pennsylvania Tankage " 
 
 1 
 J 
 
 9 
 
 3 
 
 73 
 
 1 
 
 47.3 
 
 
 i 
 
 
 
 I 
 
 10 
 
 76 
 
 5 
 
 
 In the case of the imlinied plots, nitrate of soda produced consider- 
 ably better results than any other form of nitrogen. 
 
AS A FERTILIZER. 
 
 57 
 
 In 1895 spring rye was sown, harvested in the "milk," and dried 
 at 100° C. The weight in grams per pot was as follows : 
 
 POT EXPERIMENT.— TABLE II. 
 
 SPRING RYE, 1895. 
 
 Without Nztroo-e?t. 
 
 Nitrate of Soda 
 
 Sulfate of Ammonia. 
 
 Dried Blood. 
 
 Ground Leather. 
 
 No. 
 
 Limed. 
 
 Unlimed 
 
 OF 
 
 Pot. 
 
 Grams 
 per pot. 
 
 Grams 
 per pot. 
 
 20 
 
 
 4.2 
 
 27 
 
 
 3.8 
 
 23 
 
 56.7 
 
 
 24 
 
 44.6 
 
 
 6 
 
 
 22.7 
 
 13 
 
 
 24.5 
 
 7 
 
 118.7 
 
 
 14 
 
 93.6 
 
 
 18 
 
 
 0.6 
 
 25 
 
 
 1.0 
 
 19 
 
 108.4 
 
 
 26 
 
 97.5 
 
 
 4 
 
 
 1.0 
 
 11 
 
 
 1.7 
 
 5 
 
 117.6 
 
 
 12 
 
 100.5 
 
 
 2 
 
 
 3.9 
 
 9 
 
 
 8.9 
 
 8 
 
 64.9 
 
 
 10 
 
 76.3 
 
 
 " The superiority of nitrate of soda as a form of nitrogen for acid soils 
 is again strikingly manifested." 
 
 RESULTS WITH BARLEY IN 1896. 
 
 "For the reason that plants of the same kind, weighing exactly 
 alike, may contain unlike amounts of nitrogen, and since the actual 
 amount of nitrogen in plants is dependent, within certain limits, upon 
 the quantity of that element present in assimilable form within the 
 soil, the quantities of nitrogen removed from the soil by the crop have, 
 in most cases, been determined. By this means, much more reliable 
 information is furnished as to the relative assimilability of the several 
 forms of nitrogenous manures." 
 
58 
 
 NITRATE OF SODA 
 
 POT EXPERIMENT.— TABLE III. 
 
 
 
 6 
 b 
 
 pL, 
 
 
 Limed. 
 
 
 Unlimed. 
 
 
 BARLEY, 1896. 
 
 Grams of barley 
 hay per pot. 
 
 Per cent, of nitro- 
 gen in the crop 
 (fully dried). 
 
 Grams of nitrogen 
 
 obtained from the 
 
 soil by the crop. 
 
 >-i 
 
 ^ o 
 
 S OS 
 
 Per cent, of nitro- 
 gen in the crop 
 (fully dried). 
 
 Grams of nitrogen 
 
 obtained from the 
 
 soil by the crop. 
 
 
 
 20 
 
 
 
 
 9.61 
 
 1.75 
 
 0.168 
 
 Without Nitrogen . . 
 
 - 
 1 
 
 27 
 23 
 
 58.67 
 
 1.14 
 
 0.791 
 
 8.18 
 
 1.14 
 
 0.093 
 
 
 I 
 
 24- 
 
 69.26 
 
 1.00 
 
 0.693 
 
 
 
 
 
 - 
 
 6 
 
 
 
 
 51.07 
 
 2.29 
 
 1.170 
 
 Nitrate of Soda 
 
 13 
 
 7 
 
 100.32 
 
 2.17 
 
 2.177 
 
 51.12 
 
 2.43 
 
 1.242 
 
 
 
 14 
 
 103.56 
 
 2.07 
 
 2.144 
 
 
 
 
 
 f 
 
 18 
 
 
 
 
 * 
 
 * 
 
 * 
 
 Sulfate of AininoniL 
 
 1 
 
 J 
 1 
 
 25 
 19 
 
 102.48 
 
 2.00 
 
 2.050 
 
 2.46 
 
 * 
 
 * 
 
 
 
 26 
 
 98.78 
 
 1.66 
 
 1.646 
 
 
 
 
 
 - 
 
 4 
 
 
 
 
 21.26 
 
 2.32 
 
 0.493 
 
 Dried Blood 
 
 - 
 
 11 
 
 5 
 
 12 
 
 118.21 
 120.52 
 
 1.73 
 1.66 
 
 2.045 
 2.000 
 
 82.85 
 
 2.27 
 
 0.746 
 
 
 ' 
 
 2 
 
 
 
 
 11.20 
 
 1.89 
 
 0.212 
 
 Ground Leather .. . 
 
 1 
 
 9 
 
 3 
 10 
 
 73.90 
 79.14 
 
 1.23 
 1.22 
 
 0.909 
 0.966 
 
 11.71 
 
 2.06 
 
 .... 
 
 0.241 
 
 * Not determined, owing to small amount of substance. 
 
 In the limed series it will be seen that, so far as concerns the 
 weight of dry matter in the crop, dried blood proved superior to either 
 sulfate of ammonia or nitrate of soda, yet the plants receiving nitrate of 
 soda actually removed the larger amount of nitrogen from the soil. In this 
 instance the weight of the crop fails to indicate properly the relative 
 assimilability of the nitrogen of the dried blood and the nitrate of soda. 
 
 Dried blood in the unlimed series exceeded leather in yield and 
 amount of nitrogen removed. ^'■Nitrate of soda as a source of nitrogen 
 on an acid soil has again shown its marked superiority, the total product of 
 barley hay, and the amount of nitrogen removed being far greater in the case 
 of those pots than in any of the others. 
 
 Deducting the amount of nitrogen found in the crop from the 
 
AS A FERTILIZER. 
 
 POT EXPERIMENT.— TABLE IV. 
 
 59 
 
 BARLEY, 1897. 
 
 f 
 I 
 WitJioiit Nitroo-en. . \ 
 I 
 I 
 
 Nitrate of Soda. 
 
 Sulfate of Ammonia 
 
 \ 
 I 
 
 Dried Blood \ 
 
 I 
 
 I 
 
 I 
 
 Ground Leather . . . ■ \ 
 
 I 
 
 I 
 
 20 
 27 
 23 
 24 
 6 
 13 
 
 14 
 18 
 25 
 19 
 26 
 4 
 11 
 5 
 
 12 
 
 2 
 
 9 
 
 3 
 
 10 
 
 Limed. 
 
 o 
 
 <D 
 
 ^ 
 
 
 
 o3 O 
 
 H 
 
 /2 Ph 
 
 O 
 
 <+-, s- 
 
 Ph 
 
 o <u 
 
 
 CO ^ 
 
 
 2^ 
 
 
 
 o 
 
 32.79 
 27.19 
 
 80. SI 
 75. 8f 
 
 79.96 
 61.95 
 
 85.37 
 
 87.26 
 
 o , 
 
 ^^ 
 
 3'^ 
 
 30.45 
 .40.96 
 
 2.02 
 1.91 
 
 PI 
 
 1) 
 
 
 U) 
 
 -t-J 
 
 p^ 
 
 ^1 
 
 a 
 
 o 
 
 o 
 
 f< 
 
 ;^ 
 
 
 
 t+j 
 
 M 
 
 <+J 
 
 T1 
 
 +j 
 
 
 <D 
 
 >. 
 
 tfi 
 
 O^ 
 
 H 
 
 
 
 rt 
 
 , — 1 
 
 u 
 
 
 o 
 
 O 
 
 u 
 
 
 1.623 
 1.449 
 
 1.76 1.407 
 1.89 1.171 
 
 1.60 
 1.67 
 
 1.53 
 1.26 
 
 1.366 
 
 1.457 
 
 0.466 
 0.516 
 
 Unlimed. 
 
 r^ pH 
 
 o aJ 
 Pi 
 
 O 
 
 4. 
 
 69 
 
 2 
 
 40 
 
 43 
 
 33 
 
 28 
 
 24 
 
 1 
 
 23 
 
 12 
 
 31 
 
 
 3 
 
 8 
 
 06 
 
 9 
 
 .74 
 
 .1^ o ^ 
 
 PL, 
 
 be 
 
 95 
 
 0.851 
 0.570 
 
 0.240 
 
 0.135 
 0.156 
 
 1 Not determined, owing to small amount of substance. 
 
 8 This pot received caustic magnesia in 1896 and 1897, and results are re- 
 served for publication elsewhere, 
 s Waterlogged. 
 
 pots without nitrogen, from that in the pots when nitrogen was added, 
 and then letting loo represent the average amount of nitrogen taken 
 from the soil by the plants in the nitrate of soda pots, we obtain the 
 following values for the nitrogen, which the plants were able to obtain 
 from the other forms of nitrogen employed. 
 
 Limed. 
 Pots. Average. 
 
 Nitrate of Soda. . , 23. 24 100.0 
 
 Sulfate of Ammonia 19. 26 92.2 
 
 Dried Blood 5. 12 90.3 
 
 Ground Steamed Leather 3. 10 13.8 
 
 Unlimed. 
 Pots. Average. 
 20. 27 100.0 
 
 4. 11 45.5 
 
 2. 9 0.9 
 
6o 
 
 NITRATE OF SODA 
 
 "These results bring out plainly the fact that upon an acid soil, 
 where nitrification progresses but slowly, much of the money invested 
 in the best forms of organic nitrogen, such as blood, meat and fish, is 
 practically wasted ; and since these forms make up the major part of 
 the nitrogen of most of the commercial fertilizers sold in the state, the 
 importance of testing the soils for acidity, and of supplying lime 
 where needed, cannot be too strongly insisted upon." 
 
 Barley. 
 Plot Nos. 39. Limed. 27. Unlimed. 25. Limed. 23. Unlimed. 
 Nitrate of Soda. Sulfate of Ammonia. 
 
 All manured alike with Potash and Phosphoric Acid. 
 
 The superiority of nitrate of soda as a source of nitrogen over organic 
 forms could hardly be more clearly demonstrated. On a well-limed 
 soil it is shown to furnish nearly S per cent, more available nitrogen than 
 sulfate of ammonia, and about lo per cent, more than good dried blood. 
 In the case of an acid unlimed soil, it is practically loo per cent, more 
 profitable to use than sulfate of ammonia or steamed leather, and fur- 
 nishes j.^.5 /if r cent, more available nitrogen than dried blood. 
 
AS A FERTILIZER. 6l 
 
 SUGGESTIONS REGARDING THE USE OF 
 NITRATE OF SODA AND LIME. 
 
 NITRATE OF SODA is valuable as a fertilizer upon any soil in 
 field, garden or greenhouse, in which additional nitrogen is 
 required for maximum plant growth, and when, for any reason, a soil 
 is acid, it becomes probably the most efficient form of nitrogenous 
 material to apply. This is, doubtless, because of the fact that what 
 remains in the soil after the nitrogen is used by plant growth seems, 
 in a measure, to neutralize the soil acidity and thereby give better 
 conditions for the thrifty growth of most agricultural plants. Soils 
 upon which clover and timothy fail to make a "catch" when sown, 
 and where red-top {Agrostis vulgaris) quickly takes the place of tim- 
 othy, and forms the bulk of the hay crop ; soils where the cultivated 
 grasses soon die out and give place to wild grasses, rushes and sorrel ; 
 soils where wheat and barley fail to thrive, and soils where beets, spin- 
 ach and lettuce fail altogether, or make but a feeble growth, a7^e most 
 probably acid, and should be promptly tested for acidity. If a soil is 
 acid — when tested, changing a blue litmus paper to a reddish color 
 sometimes approaching a brick-red — it is economy to use some other 
 agent in addition to nitrate of soda for correcting the acid condition. 
 
 The most convenient and, generally, cheaper materials for this 
 purpose are air-slaked lime and wood ashes, both leached and un- 
 leached. The fact that applications of wood ashes often show a 
 marked effect for many years is, doubtless, due to the influence of the 
 thirty or more per cent, of carbonate of lime which they contain, 
 along with other carbonates, all of which neutralize acidity and help 
 to promote nitrification in acid soils deficient in lime. One ton per 
 acre of air-slaked lime is capable of producing surprising results when 
 used with other fertilizers upon acid soils, and the application of lime 
 Jias to be made but once in several rears. In connection with the " Phos- 
 
62 NITRATE OF SODA 
 
 phate experiment" at the Rhode Island Agricultural Experiment 
 Station, 1 upon a sandy loam soil, so acid and infertile that without 
 lime or fertilizers Indian corn will not grow more than from four to 
 six inches high, one ton of air-slaked lime per acre, applied in 1894, and 
 annual applications of nitrate of soda and muriate of potash, with 
 suitable quantities of phosphoric acid in different forms, but no further 
 application of lime, has produced an increase in the total hay crop of 
 1896-97 and the first crop of 1898, of 8889 pounds of hay, as compared 
 with the total yield from the unlimed plots. This gain of practically 
 four and a half tons of hay per acre in three years is the direct result 
 of the application of one ton of air-slaked lime in 1894. In addition 
 to increase in quantity, the quality of the hay from the limed plots has 
 been superior to that from those unlimed. 
 
 SEEDING TO GRASS. 
 This is probably the best time in the rotation to apply lime or 
 ashes. If the latter are used, about 100 bushels, or two tons per acre, 
 should be applied ; spread them evenly, and work them well into the 
 soil. If lime is used, one to two tons per acre is generally suflficient. 
 Too much lime may be as injurious as too little. If purchased as a 
 waste product already slaked, spread evenly upon the field, and work 
 into the soil by thorough harrowing. If purchased in the caustic, or 
 freshly-burned state, haul to the field and place in heaps of about one 
 half barrel each at proper distances over the field. With a watering- 
 pot spray about one and a quarter pails of water upon each heap, and 
 cover with a few shovel-fulls of moist earth. In one or two days the 
 heaps will have slaked to a fine dry powder, which can best be spread 
 from a scoop-shovel. Select, if possible, a time w^hen there is no wind 
 to interfere with the spreading, but it is desirable to spread it and 
 harrow it in before any heavy rain falls. If any lumps remain 
 unslaked, and the field is to be immediately seeded, they should be 
 gathered up and removed, as, otherwise, they would be slaked by the 
 first fall of rain, and, thereby, kill all the seed in the vicinity of each 
 lump, though it be no larger than a hickory-nut. If the lime can be 
 spread, harrowed in, and the seeding postponed until after a good rain 
 has fallen, all small lumps will then have become slaked, and the 
 lime more thoroughly incorporated with the soil by the additional 
 
 1 See Annual Reports for 1896 and 1897. 
 
AS A FERTILIZER. 63 
 
 cultivation. Caustic lime increases in weight about 27.5 per cent, by 
 dry-slaking with a small quantity of water. When eight barrels of 
 caustic lime, 250 pounds net each, are used per acre, the dressing is 
 equivalent to one and a quarter tons of air-slaked lime. 
 
 If phosphoric acid in some insoluble form, as fine ground bone, 
 slag meal, or floats is used in the fertilizer, it is doubtless best to make 
 a liberal application at time of seeding, and to confine the subsequent 
 top-dressing mainly to applications of potash and nitrate of soda ; but 
 if soluble phosphates are used, as dissolved bone-black, dissolved bone, 
 or dissolved phosphate rock, a lighter application should be made at 
 seeding-time, especially if done in the autumn, and then phosphoric 
 acid should be regularly included in the spring top-dressing. If seed- 
 ing is done in the early fall, and the soil has been tolerably well fertil- 
 ized for previous crops, so as to be in good condition, either of the 
 following formulas may be used : 
 
 Fall Seeding No. i. 
 
 Nitrate of Soda 5° to 100 pounds per acre. 
 
 Muriate of Potash 5° to 100 " " 
 
 Fine ground Bone , .400 to 600 " " 
 
 Slag meal (Thomas slag) 600 to 800 pounds, or floats (raw phos- 
 phate rock finely ground) 800 to 1000 pounds may be used in place of 
 the fine ground bone with about equally good effect. Each spring, 
 following the seeding, just after the grass begins to start into growth, 
 the following top-dressing should be applied : 
 
 Nitrate of Soda 130 pounds per acre. 
 
 Muriate of Potash 100 " '' 
 
 If the field is kept in grass more than three years, about 300 
 pounds of dissolved bone-black, or its equivalent in dissolved phos- 
 phate rock or dissolved bone, should be regularly added to the spring 
 top-dressing. The above formula can be equally well used for spring 
 seeding, although in the latter case the nitrate of soda and muriate of 
 potash should be increased by the amount used in the spring top- 
 dressing. 
 
 If soluble phosphates are used, and the seeding is done in the 
 early fall, the following formula will do good service : 
 Fall Seeding No. 2. 
 
 Nitrate of Soda 5° to 100 pounds per acre. 
 
 Muriate of Potash 50 to 100 " " 
 
 Dissolved Bone-Black 150 to 250 " " 
 
64 NITRATE OF SODA 
 
 From 200 to 300 pounds of dissolved phosphate rock may be sub- 
 stituted for the bone-black if found to cost less. If the above formula 
 is used, the following top-dressing should be applied each spring when 
 the growth of grass begins : 
 
 Nitrate of Soda 120 pounds per acre. 
 
 Muriate of Potash 120 " " 
 
 Dissolved Bone-Black or Phosphate 
 
 Rock 300 
 
 Formula No. 2 may be used for spring seeding by adding to it the 
 top-dressing intended for spring application. 
 
 WINTER WHEAT. 
 
 If the soil is acid, lime should be applied as for seeding to grass, 
 and 
 
 Fine Ground Bone 300 to 400 pounds per acre, 
 
 or Dissolved Phosphate Rock ..200 to 300 " " 
 
 used at time of seeding. In the spring, top-dress with 120 pounds of 
 nitrate of soda per acre. If the soil is known to be deficient in potash, 
 120 pounds of muriate of potash should be applied at time of sowing. 
 
 WINTER RYE. 
 
 The same fertilizer may be used for rye as for wheat, except 
 that rye is less dependent upon the lime than is wheat. Rye can with- 
 stand the unfavorable conditions of an acid soil fairly well, and will 
 generally produce a crop, especially if top-dressed in early spring with 
 120 pounds of nitrate of soda per acre. 
 
 OATS. 
 
 The following formula has been used for the oat crop, in connec- 
 tion with the "rotations," at the Rhode Island Experiment Station : 
 
 Nitrate of Soda 200 pounds per acre. 
 
 Dissolved Phosphate Rock , 176 " " 
 
 Fine Ground Bone 180 " " 
 
 Muriate of Potash 120 " " 
 
 The above should give a good crop upon soil of moderate quality. 
 BARLEY AND BEETS. 
 
 The following formula has been used upon acid soils, in connec- 
 tion with work performed by the Rhode Island Experiment Station in 
 
AS A FERTILIZER. 65 
 
 different parts of the State. In each case the soil received, in addition, 
 a dressing of two and a half tons of air-slaked lime per acre 
 
 Nitrate of Soda 300 pounds per acre. 
 
 Muriate of Potash 300 " " 
 
 Dissolved Bone-Black 900 " " 
 
 The equivalent of the bone-black in dissolved phosphate rock 
 might frequently be more economical. 
 
 MANGELS AFTER CLOVER. 
 
 This land was limed at the rate of two and a half tons per acre, 
 previous to seeding to clover. Lime should always be used upon acid 
 soils before attempting to grow beets of any variety. 
 
 Nitrate of Soda 360 pounds per acre. 
 
 Dissolved Phosphate Rock 840 " " 
 
 Muriate of Potash 300 " " 
 
 PEAS. 
 
 The following formula has produced good crops of peas in one of 
 the rotations at the Rhode Island Experiment Station : 
 
 Nitrate of Soda 120 pounds per acre. 
 
 Dissolved Phosphate Rock 397 " " 
 
 Muriate of Potash 135 " " 
 
 GARDEN CROPS AND VINES. 
 
 Nitrate of Soda 450 pounds per acre. 
 
 Fine Ground Bone 500 " " 
 
 Dissolved Phosphate Rock , .500 " " 
 
 Muriate of Potash 300 " " 
 
 When successive crops are grown upon the same land in one sea- 
 son, additional applications of fertilizer will be required. Top-dress- 
 ing all crops valued for the leaf growtli, as cabbage, celery, lettuce, 
 etc., with nitrate of soda will greatly increase the growth. 
 
 TURNIPS. 
 
 Nitrate of Soda 120 pounds per acre. 
 
 Dissolved Phosphate Rock 331 " " 
 
 Fine Ground Bone 240 " '' 
 
 Muriate of Potash 150 " " 
 
66 NITRATE OF SODA 
 
 ASPARAGUS. 
 
 This plant fails, or produces but a feeble growth, upon an acid 
 soil without lime. Two tons, or more, per acre of air-slaked lime can 
 be safely applied if a soil shows much acidity. 
 
 Nitrate of Soda 450 pounds per acre. 
 
 Dissolved Phosphate Rock 500 " " 
 
 Fine Ground Bone 400 '' " 
 
 Muriate of Potash 300 " " 
 
 If the soil is deficient in potash, the quantity used in the formula 
 should be considerably increased. One half of this fertilizer may be 
 applied and worked into the soil in the early spring, and the remain- 
 der, just before cutting ceases, and the permanent summer growth 
 begins. A vigorous growth of top through the summer and fall is 
 desirable, as the roots are then prepared to send up an abundant crop 
 of shoots the following spring. 
 
 INDIAN CORN, No. i. 
 
 Nitrate of Soda 225 pounds per acre. 
 
 Dissolved Phosphate Rock 420 " " 
 
 Fine Ground Bone 150 " " 
 
 Muriate of Potash 120 " " 
 
 INDIAN CORN, No. 2. 
 
 Muriate of Potash 180 pounds per acre. 
 
 Dissolved Phosphate Rock 550 " " 
 
 Nitrate of Soda 250 " " 
 
 IRISH POTATOES. 
 
 The fertilizer used in growing potatoes upon plot 38, in a fertil- 
 izer experiment with potatoes at the Rhode Island Experiment Sta- 
 tion, was composed of the following : 
 
 Nitrate of Soda. 344 pounds per acre. 
 
 Dissolved Phosphate Rock 875 " '• 
 
 Muriate of Potash 215 " " 
 
 On many soils, high grade sulfate of potash in place of the muri- 
 ate would probably give an equally good crop, and the quality of the 
 tubers might be better. Li'/ac should not be used with, or just preceding, 
 the potato crop, for, although it has a tendency to slightly increase 
 
AS A FERTILIZER. 67 
 
 the crop, and especially the proportion of marketable tubers, the neu- 
 tral or alkaline condition of the soil, which it creates, is highly favor- 
 able to the development of the "scab" fungus, and a "scabby" crop 
 is likely to follow its use. If the '' scab " germ is not present in the soil, 
 and the seed tubers are so thoroughly disinfected that it is /lot introduced 
 upon them, then potatoes may be safely grown upon freshly-limed 
 land. 
 
 The formulas given above are not intended as " hard and fast 
 rules" under all circumstances, but as suggestions which the prudent 
 cultivator may safely adapt to his individual circumstances. 
 
 Nitrate of soda usually furnishes from 15 to 16 per cent, of nitro- 
 gen, /. e., 15 to 16 pounds in every 100 pounds of material. Muriate 
 of potash yields about 50 per cent, of actual potash. The phosphatic 
 materials are much more variable in composition, but dissolved bone- 
 black contains, generally, from 15 to 16 per cent, of available phos- 
 phoric acid ; dissolved phosphate rock about 13 per cent., although 
 different lots may vary from 11 to 17 per cent., of available phosphoric 
 acid. Fine ground bone has about 2 per cent, of nitrogen and some 
 20 to 27 per cent of total phosphoric acid ; slag meal, about 18 per 
 cent, of total phosphoric acid, and floats, about 26 per cent. In pre- 
 paring the foregoing formulas, the relative cost and efficiency of the 
 phosphatic materials, as well as the actual content of phosphoric acid, 
 has been considered. 
 
For full information in regard to Nitrate of 
 Soda as a Fertilizer apply to address below. All 
 publications furnished free. 
 
 PROPAGANDA FOR NITRATE OF SODA, 
 
 12 JOHN STREET, 
 
 NEW YORK CITY. 
 
INDEX. 
 
 PAGE 
 
 Composition of Nitrate 67 
 
 Cost of Fertilizers (table showing). . 9 
 
 Cost of Fertilizer per acre 6, 7 
 
 Cost of Nitrogen per acre 7 
 
 Cost of Sulphate of Ammonia per acre 7 
 
 Cost of Dried Blood per acre 7 
 
 Experiment Farm 9 
 
 Experiment Abbott's Run 13 
 
 Experiment Hope Valley (Corn) 16 
 
 Experiment Summary, Kingston (Corn) 12 
 
 Experiments, Westerly, R. I. , (Corn) 22 
 
 Experiments with Barley 57 
 
 Experiments, Noose Neck (Corn) 24 
 
 Experiments, Kingston (Com) g 
 
 Experiments, Jamestown (Corn) 27 
 
 Experiments with Variety Crops 31 
 
 Experiments with Crass 43 
 
 Experiments with Nursery Stock 47 
 
 Experiments with Potatoes 51, 53 
 
 Field Trials 9 
 
 Formula Asparagus 66 
 
 Formula Barley and Beets 64 
 
 Formula for Experimental Plats 6, 7, 8 
 
 Formula for Grass, Fall Seeding 63 
 
 Formula for Garden Crops and Vines : 65 
 
 Formula for Indian Corn - 66 
 
 Formula for Irish Potatoes 66 
 
 Formula for Mangels after Clover 65 
 
 Formula for Oats 64 
 
 Formula for Peas 65 
 
 Formula for Turnips 65 
 
 Formula for Winter Rye 64 
 
 Formula for Winter Wheat 64 
 
 Full Ration Nitrate of Soda 6, 7, 8 
 
 Full Ration Sulphate of Ammonia 7, S 
 
 Full Ration Dried Blood 7, 8 
 
 Hope Valley Experiment (Corn) 16 
 
 Mixed Minerals, Composition of 6 
 
 Mixed Minerals, Cost of 6 
 
 Notes and Conclusions, Experiment Station Farm 11 
 
 Notes and Conclusions, Hope Valley 18 
 
PAGE 
 
 Notes and Conclusions, Westerly (Corn) 22 
 
 Plans of Experiments 5 
 
 Purpose of Experiments 5 
 
 Pot Experiments '. 53 
 
 Ration per Acre '. 6 
 
 Summary Kingston Experiment (Com) 12 
 
 Summary of Total Yields in Four Years (Com) 21 
 
 Summary Com, Abbott's Run 15 
 
 Seeding to Grass 62 
 
 Suggestions Regarding Use of Nitrate of Soda and Lime 61 
 
 Summaiy, Westerly Experiments (Com) 24 
 
 Table Showing Results, Hope Valley (Com) 17 
 
 Table Showing Yield of Com on Station Farm 10 
 
 LIST OR CUTS. 
 
 PAGE 
 
 Alfalfa 40 
 
 Barley 60 
 
 Blue Lupine 46 
 
 Cabbage 33 
 
 Cantaloupe 31 
 
 Celery 37 
 
 Cow Pea 31 
 
 Dandelion 39 
 
 Early Cabbage 42 
 
 Field Com 11 
 
 Field Com (Maize) 20 
 
 German Millet . . 40 
 
 Kohl-Rabi '. 41 
 
 Lettuce 35 
 
 Mangel Wurzel 33 
 
 Oats 55 
 
 Potatoes 52 
 
 Spring Rye 54 
 
 Sunflower 4S 
 
 Sorghum 37 
 
 Sugar Beets 36 
 
 Soja Bean 32 
 
 Sweet Vernal Grass 47 
 
 Sweet Corn (Maize) 44 
 
 Table Beets 36 
 
 Timothy 44 
 
 Watermelons 42 
 
 Yellow Carrot (Danvers) 50 
 
 Yellow Onions 41 
 
m 
 
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 MM 
 
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