CHAPTER XVII
THE HISTORY OF DRY-FARMING
THE great nations of antiquity lived and prospered in arid and semiarid countries. In the more or less rainless regions of China, Mesopotamia, Palestine, Egypt, Mexico, and Peru, the greatest cities and the mightiest peoples flourished in ancient days. Of the great civilizations of history only that of Europe has rooted in a humid climate. As Hilgard has suggested, history teaches that a high civilization goes hand in hand with a soil that thirsts for water. To-day, current events point to the arid and semiarid regions as the chief dependence of our modern civilization.
In view of these facts it may be inferred that dry-farming is an ancient practice. It is improbable that intelligent men and women could live in Mesopotamia, for example, for thousands of years without discovering methods whereby the fertile soils could be made to produce crops in a small degree at least without irrigation. True, the low development of implements for soil culture makes it fairly certain that dry-farming in those days was practiced only with infinite labor and patience; and that the great ancient nations found it much easier to construct great irrigation systems which would make crops certain with a minimum of soil tillage, than so thoroughly to till the soil with imperfect implements as to produce certain yields without irrigation. Thus is explained the fact that the historians of antiquity speak at length of the wonderful irrigation systems, but refer to other forms of agriculture in a most casual manner. While the absence of agricultural machinery makes it very doubtful whether dry-farming was practiced extensively in olden days, yet there can be little doubt of the high antiquity of the practice.
Kearney quotes Tunis as an example of the possible extent of dry-farming in early historical days. Tunis is under an average rainfall of about nine inches, and there are no evidences of irrigation having been practiced there, yet at El Djem are the ruins of an amphitheater large enough to accommodate sixty thousand persons, and in an area of one hundred square miles there were fifteen towns and forty-five villages. The country, therefore, must have been densely populated. In the seventh century, according to the Roman records, there were two million five hundred thousand acres of olive trees growing in Tunis and cultivated without irrigation. That these stupendous groves yielded well is indicated by the statement that, under the Caesar's Tunis was taxed three hundred thousand gallons of olive oil annually. The production of oil was so great that from one town it was piped to the nearest shipping port. This historical fact is borne out by the present revival of olive culture in Tunis, mentioned in Chapter XII.
Moreover, many of the primitive peoples of to-day, the Chinese, Hindus, Mexicans, and the American Indians, are cultivating large areas of land by dry-farm methods, often highly perfected, which have been developed generations ago, and have been handed down to the present day. Martin relates that the Tarahumari Indians of northern Chihuahua, who are among the most thriving aboriginal tribes of northern Mexico, till the soil by dry-farm methods and succeed in raising annually large quantities of corn and other crops. A crop failure among them is very uncommon. The early American explorers, especially the Catholic fathers, found occasional tribes in various parts of America cultivating the soil successfully without irrigation. All this points to the high antiquity of agriculture without irrigation in arid and semiarid countries.
Modern dry-farming in the United States
The honor of having originated modern dry-farming belongs to the people of Utah. On July 24th, 1847, Brigham Young with his band of pioneers entered Great Salt Lake Valley, and on that day ground was plowed, potatoes planted, and a tiny stream of water led from City Creek to cover this first farm. The early endeavors of the Utah pioneers were devoted almost wholly to the construction of irrigation systems. The parched desert ground appeared so different from the moist soils of Illinois and Iowa, which the pioneers had cultivated, as to make it seem impossible to produce crops without irrigation. Still, as time wore on, inquiring minds considered the possibility of growing crops without irrigation; and occasionally when a farmer was deprived of his supply of irrigation water through the breaking of a canal or reservoir it was noticed by the community that in spite of the intense heat the plants grew and produced small yields.
Gradually the conviction grew upon the Utah pioneers that farming without irrigation was not an impossibility; but the small population were kept so busy with their small irrigated farms that no serious attempts at dry-farming were made during the first seven or eight years. The publications of those days indicate that dry-farming must have been practiced occasionally as early as 1854 or 1855.
About 1863 the first dry-farm experiment of any consequence occurred in Utah. A number of emigrants of Scandinavian descent had settled in what is now known as Bear River City, and had turned upon their farms the alkali water of Malad Creek, and naturally the crops failed. In desperation the starving settlers plowed up the sagebrush land, planted grain, and awaited results. To their surprise, fair yields of grain were obtained, and since that day dry-farming has been an established practice in that portion of the Great Salt Lake Valley. A year or two later, Christopher Layton, a pioneer who helped to build both Utah and Arizona, plowed up land on the famous Sand Ridge between Salt Lake City and Ogden and demonstrated that dry-farm wheat could be grown successfully on the deep sandy soil which the pioneers had held to be worthless for agricultural purposes. Since that day the Sand Ridge has been famous as a dry-farm district, and Major J. W. Powell, who saw the ripened fields of grain in the hot dry sand, was moved upon to make special mention of them in his volume on the "Arid Lands of Utah," published in 1879.
About this time, perhaps a year or two later, Joshua Salisbury and George L. Farrell began dry-farm experiments in the famous Cache Valley, one hundred miles north of Salt Lake City. After some years of experimentation, with numerous failures these and other pioneers established the practice of dry-farming in Cache Valley, which at present is one of the most famous dry-farm sections in the United States. In Tooele County, Just south of Salt Lake City, dry-farming was practiced in 1877--how much earlier is not known. In the northern Utah counties dry-farming assumed proportions of consequence only in the later '70's and early '80's. During the '80's it became a thoroughly established and extensive business practice in the northern part of the state.
California, which was settled soon after Utah, began dry-farm experiments a little later than Utah. The available information indicates that the first farming without irrigation in California began in the districts of somewhat high precipitation. As the population increased, the practice was pushed away from the mountains towards the regions of more limited rainfall. According to Hilgard, successful dry-farming on an extensive scale has been practiced in California since about 1868. Olin reports that moisture-saving methods were used on the Californian farms as early as 1861. Certainly, California was a close second in originating dry-farming.
The Columbia Basin was settled by Mareus Whitman near Walla Walla in 1836, but farming did not gain much headway until the railroad pushed through the great Northwest about 1880. Those familiar with the history of the state of Washington declare that dry-farming was in successful operation in isolated districts in the late '70's. By 1890 it was a well-established practice, but received a serious setback by the financial panic of 1892-1893. Really successful and extensive dry-farming in the Columbia Basin began about 1897. The practice of summer fallow had begun a year or two before. It is interesting to note that both in California and Washington there are districts in which dry-farming has been practiced successfully under a precipitation of about ten inches whereas in Utah the limit has been more nearly twelve inches.
In the Great Plains area the history of dry-farming Is hopelessly lost in the greater history of the development of the eastern and more humid parts of that section of the country. The great influx of settlers on the western slope of the Great Plains area occurred in the early '80's and overflowed into eastern Colorado and Wyoming a few years later. The settlers of this region brought with them the methods of humid agriculture and because of the relatively high precipitation were not forced into the careful methods of moisture conservation that had been forced upon Utah, California, and the Columbia Basin. Consequently, more failures in dry-farming are reported from those early days in the Great Plains area than from the drier sections of the far West Dry-farming was practiced very successfully in the Great Plains area during the later '80's. According to Payne, the crops of 1889 were very good; in 1890, less so; in 1891, better; in 1892 such immense crops were raised that the settlers spoke of the section as God's country; in 1893, there was a partial failure, and in 1894 the famous complete failure, which was followed in 1895 by a partial failure. Since that time fair crops have been produced annually. The dry years of 1893-1895 drove most of the discouraged settlers back to humid sections and delayed, by many years, the settlement and development of the western side of the Great Plains area. That these failures and discouragements were due almost entirely to improper methods of soil culture is very evident to the present day student of dry-farming. In fact, from the very heart of the section which was abandoned in 1893-1895 come reliable records, dating back to 1886, which show successful crop production every year. The famous Indian Head experimental farm of Saskatchewan, at the north end of the Great Plains area, has an unbroken record of good crop yields from 1888, and the early '90's were quite as dry there as farther south. However, in spite of the vicissitudes of the section, dry-farming has taken a firm hold upon the Great Plains area and is now a well- established practice.
The curious thing about the development of dry-farming in Utah, California, Washington, and the Great Plains is that these four sections appear to have originated dry-farming independently of each other. True, there was considerable communication from 1849 onward between Utah and California, and there is a possibility that some of the many Utah settlers who located in California brought with them accounts of the methods of dry-farming as practiced in Utah. This, however, cannot be authenticated. It is very unlikely that the farmers of Washington learned dry-farming from their California or Utah neighbors, for until 1880 communication between Washington and the colonies in California and Utah was very difficult, though, of course, there was always the possibility of accounts of agricultural methods being carried from place to place by the moving emigrants. It is fairly certain that the Great Plains area did not draw upon the far West for dry-farm methods. The climatic conditions are considerably different and the Great Plains people always considered themselves as living in a very humid country as compared with the states of the far West. It may be concluded, therefore, that there were four independent pioneers in dry-farming in United States. Moreover, hundreds, probably thousands, of individual farmers over the semiarid region have practiced dry-farming thirty to fifty years with methods by themselves.
Although these different dry-farm sections were developed independently, yet the methods which they have finally adopted are practically identical and include deep plowing, unless the subsoil is very lifeless; fall plowing; the planting of fall grain wherever fall plowing is possible; and clean summer fallowing. About 1895 the word began to pass from mouth to mouth that probably nearly all the lands in the great arid and semiarid sections of the United States could be made to produce profitable crops without irrigation. At first it was merely a whisper; then it was talked aloud, and before long became the great topic of conversation among the thousands who love the West and wish for its development. Soon it became a National subject of discussion. Immediately after the close of the nineteenth century the new awakening had been accomplished and dry-farming was moving onward to conquer the waste places of the earth.
H. W. Campbell
The history of the new awakening in dry-farming cannot well be written without a brief account of the work of H. W. Campbell who, in the public mind, has become intimately identified with the dry-farm movement. H. W. Campbell came from Vermont to northern South Dakota in 1879, where in 1882 he harvested a banner crop,--twelve thousand bushels of wheat from three hundred acres. In 1883, on the same farm he failed completely. This experience led him to a study of the conditions under which wheat and other crops may be produced in the Great Plains area. A natural love for investigation and a dogged persistence have led him to give his life to a study of the agricultural problems of the Great Plains area. He admits that his direct inspiration came from the work of Jethro Tull, who labored two hundred years ago, and his disciples. He conceived early the idea that if the soil were packed near the bottom of the plow furrow, the moisture would be retained better and greater crop certainty would result. For this purpose the first subsurface packer was invented in 1885. Later, about 1895, when his ideas had crystallized into theories, he appeared as the publisher of Campbell's " Soil Culture and Farm Journal." One page of each issue was devoted to a succinct statement of the "Campbell Method." It was in 1898 that the doctrine of summer tillage was begun to be investigated by him.
In view of the crop failures of the early '90's and the gradual dry-farm awakening of the later '90's, Campbell's work was received with much interest. He soon became identified with the efforts of the railroads to maintain demonstration farms for the benefit of intending settlers. While Campbell has long been in the service of the railroads of the semiarid region, yet it should be said in all fairness that the railroads and Mr. Campbell have had for their primary object the determination of methods whereby the farmers could be made sure of successful crops.
Mr. Campbell's doctrines of soil culture, based on his accumulated experience, are presented in Campbell's "Soil Culture Manual," the first edition of which appeared about 1904 and the latest edition, considerably extended, was published in 1907. The 1907 manual is the latest official word by Mr. Campbell on the principles and methods of the " Campbell system." The essential features of the system may be summarized as follows: The storage of water in the soil is imperative for the production of crops in dry years. This may be accomplished by proper tillage. Disk the land immediately after harvest; follow as soon as possible with the plow; follow the plow with the subsurface packer; and follow the packer with the smoothing harrow. Disk the land again as early as possible in the spring and stir the soil deeply and carefully after every rain. Sow thinly in the fall with a drill. If the grain is too thick in the spring, harrow it out. To make sure of a crop, the land should be "summer tilled," which means that clean summer fallow should be practiced every other year, or as often as may be necessary.
These methods, with the exception of the subsurface packing, are sound and in harmony with the experience of the great dry-farm sections and with the principles that are being developed by scientific investigation. The "Campbell system" as it stands to-day is not the system first advocated by him. For instance, in the beginning of his work he advocated sowing grain in April and in rows so far apart that spring tooth harrows could be used for cultivating between the rows. This method, though successful in conserving moisture, is too expensive and is therefore superseded by the present methods. Moreover, his farm paper of 1896, containing a full statement of the "Campbell method," makes absolutely no mention of "summer tillage," which is now the very keystone of the system. These and other facts make it evident that Mr. Campbell has very properly modified his methods to harmonize with the best experience, but also invalidate the claim that he is the author of the dry-farm system. A weakness of the "Campbell system" is the continual insistence upon the use of the subsurface packer. As has already been shown, subsurface packing is of questionable value for successful crop production, and if valuable, the results may be much more easily and successfully obtained by the use of the disk and harrow and other similar implements now on the market. Perhaps the one great weakness in the work of Campbell is that he has not explained the principles underlying his practices. His publications only hint at the reasons. H. W. Campbell, however, has done much to popularize the subject of dry-farming and to prepare the way for others. His persistence in his work of gathering facts, writing, and speaking has done much to awaken interest in dry-farming. He has been as "a voice in the wilderness" who has done much to make possible the later and more systematic study of dry-farming. High honor should be shown him for his faith in the semiarid region, for his keen observation, and his persistence in the face of difficulties. He is justly entitled to be ranked as one of the great workers in behalf of the reclamation, without irrigation, of the rainless sections of the world.
The experiment stations
The brave pioneers who fought the relentless dryness of the Great American Desert from the memorable entrance of the Mormon pioneers into the valley of the Great Salt Lake in 1847 were not the only ones engaged in preparing the way for the present day of great agricultural endeavor. Other, though perhaps more indirect, forces were also at work for the future development of the semiarid section. The Morrill Bill of 1862, making it possible for agricultural colleges to be created in the various states and territories, indicated the beginning of a public feeling that modern methods should be applied to the work of the farm. The passage in 1887 of the Hatch Act, creating agricultural experiment stations in all of the states and territories, finally initiated a new agricultural era in the United States. With the passage of this bill, stations for the application of modern science to crop production were for the first time authorized in the regions of limited rainfall, with the exception of the station connected with the University of California, where Hilgard from 1872 had been laboring in the face of great difficulties upon the agricultural problems of the state of California. During the first few years of their existence, the stations were busy finding men and problems. The problems nearest at hand were those that had been attacked by the older stations founded under an abundant rainfall and which could not be of vital interest to arid countries. The western stations soon began to attack their more immediate problems, and it was not long before the question of producing crops without irrigation on the great unirrigated stretches of the West was discussed among the station staffs and plans were projected for a study of the methods of conquering the desert.
The Colorado Station was the first to declare its good intentions in the matter of dry-farming, by inaugurating definite experiments. By the action of the State Legislature of 1893, during the time of the great drouth, a substation was established at Cheyenne Wells, near the west border of the state and within the foothills of the Great Plains area. From the summer of 1894 until 1900 experiments were conducted on this farm. The experiments were not based upon any definite theory of reclamation, and consequently the work consisted largely of the comparison of varieties, when soil treatment was the all-important problem to be investigated. True in 1898, a trial of the "Campbell method" was undertaken. By the time this Station had passed its pioneer period and was ready to enter upon more systematic investigation, it was closed. Bulletin 59 of the Colorado Station, published in 1900 by J. E. Payne, gives a summary of observations made on the Cheyenne Wells substation during seven years. This bulletin is the first to deal primarily with the experimental work relating to dry-farming in the Great Plains area. It does not propose or outline any system of reclamation. Several later publications of the Colorado Station deal with the problems peculiar to the Great Plains.
At the Utah Station the possible conquest of the sagebrush deserts of the Great Basin without irrigation was a topic of common conversation during the years 1894 and 1895. In 1896 plans were presented for experiments on the principles of dry-farming. Four years later these plans were carried into effect. In the summer of 1901, the author and L. A. Merrill investigated carefully the practices of the dry-farms of the state. On the basis of these observations and by the use of the established principles of the relation of water to soils and plants, a theory of dry-farming was worked out which was published in Bulletin 75 of the Utah Station in January, 1902. This is probably the first systematic presentation of the principles of dry-farming. A year later the Legislature of the state of Utah made provision for the establishment and maintenance of six experimental dry-farms to investigate in different parts of the state the possibility of dry-farming and the principles underlying the art. These stations, which are still maintained, have done much to stimulate the growth of dry-farming in Utah. The credit of first undertaking and maintaining systematic experimental work in behalf of dry-farming should be assigned to the state of Utah. Since dry-farm experiments began in Utah in 1901, the subject has been a leading one in the Station and the College. A large number of men trained at the Utah Station and College have gone out as investigators of dry-farming under state and Federal direction.
The other experiment stations in the arid and semi-arid region were not slow to take up the work for their respective states. Fortier and Linfield, who had spent a number of years in Utah and had become somewhat familiar with the dry-farm practices of that state, initiated dry-farm investigations in Montana, which have been prosecuted with great vigor since that time. Vernon, under the direction of Foster, who had spent four years in Utah as Director of the Utah Station, initiated the work in New Mexico. In Wyoming the experimental study of dry-farm lands began by the private enterprise of H. B. Henderson and his associates. Later V. T. Cooke was placed in charge of the work under state auspices, and the demonstration of the feasibility of dry-farming in Wyoming has been going on since about 1907. Idaho has also recently undertaken dry-farm investigations. Nevada, once looked upon as the only state in the Union incapable of producing crops without irrigation, is demonstrating by means of state appropriations that large areas there are suitable for dry-farming. In Arizona, small tracts in this sun-baked state are shown to be suitable for dry-farm lands. The Washington Station is investigating the problems of dry-farming peculiar to the Columbia Basin, and the staff of the Oregon Station is carrying on similar work. In Nebraska, some very important experiments dry-farming are being conducted. In North Dakota there were in 1910 twenty-one dry-farm demonstration farms. In South Dakota, Kansas, and Texas, provisions are similarly made for dry-farm investigations. In fact, up and down the Great Plains area there are stations maintained by the state or Federal government for the purpose of determining the methods under which crops can be produced without irrigation.
At the head of the Great Plains area at Saskatchewan one of the oldest dry-farm stations in America is located (since 1888). In Russia several stations are devoted very largely to the problems of dry land agriculture. To be especially mentioned for the excellence of the work done are the stations at Odessa, Cherson, and Poltava. This last-named Station has been established since 1886.
In connection with the work done by the experiment stations should be mentioned the assistance given by the railroads. Many of the railroads owning land along their respective lines are greatly benefited in the selling of these lands by a knowledge of the methods whereby the lands may be made productive. However, the railroads depend chiefly for their success upon the increased prosperity of the population along their lines and for the purpose of assisting the settlers in the arid West considerable sums have been expended by the railroads in cooperation with the stations for the gathering of information of value in the reclamation of arid lands without irrigation.
It is through the efforts of the experiment stations that the knowledge of the day has been reduced to a science of dry-farming. Every student of the subject admits that much is yet to be learned before the last word has been said concerning the methods of dry-farming in reclaiming the waste places of the earth. The future of dry-farming rests almost wholly upon the energy and intelligence with which the experiment stations in this and other countries of the world shall attack the special problems connected with this branch of agriculture.
The United States Department of Agriculture
The Commissioner of Agriculture of the United States was given a secretaryship in the President's Cabinet in 1889. With this added dignity, new life was given to the department. Under the direction of J. Sterling Morton preliminary work of great importance was done. Upon the appointment of James Wilson as Secretary of Agriculture, the department fairly leaped into a fullness of organization for the investigation of the agricultural problems of the country. From the beginning of its new growth the United States Department of Agriculture has given some thought to the special problems of the semiarid region, especially that part within the Great Plains. Little consideration was at first given to the far West. The first method adopted to assist the farmers of the plains was to find plants with drouth resistant properties. For that purpose explorers were sent over the earth, who returned with great numbers of new plants or varieties of old plants, some of which, such as the durum wheats, have shown themselves of great value in American agriculture. The Bureaus of Plant Industry, Soils, Weather, and Chemistry have all from the first given considerable attention to the problems of the arid region. The Weather Bureau, long established and with perfected methods, has been invaluable in guiding investigators into regions where experiments could be undertaken with some hope of success. The Department of Agriculture was somewhat slow, however, in recognizing dry-farming as a system of agriculture requiring special investigation. The final recognition of the subject came with the appointment, in 1905, of Chilcott as expert in charge of dry-land investigations. At the present time an office of dry-land investigations has been established under the Bureau of Plant Industry, which cooperates with a number of other divisions of the Bureau in the investigation of the conditions and methods of dry-farming. A large number of stations are maintained by the Department over the arid and semiarid area for the purpose of studying special problems, many of which are maintained in connection with the state experiment stations. Nearly all the departmental experts engaged in dry-farm investigation have been drawn from the service of the state stations and in these stations had received their special training for their work. The United States Department of Agriculture has chosen to adopt a strong conservatism in the matter of dry-farming. It may be wise for the Department, as the official head of the agricultural interests of the country, to use extreme care in advocating the settlement of a region in which, in the past, farmers had failed to make a living, yet this conservatism has tended to hinder the advancement of dry-farming and has placed the departmental investigations of dry-farming in point of time behind the pioneer investigations of the subject.
The Dry-farming Congress
As the great dry-farm wave swept over the country, the need was felt on the part of experts and laymen of some means whereby dry-farm ideas from all parts of the country could be exchanged. Private individuals by the thousands and numerous state and governmental stations were working separately and seldom had a chance of comparing notes and discussing problems. A need was felt for some central dry-farm organization. An attempt to fill this need was made by the people of Denver, Colorado, when Governor Jesse F. McDonald of Colorado issued a call for the first Dry-farming Congress to be held in Denver, January 24, 25, and 26, 1907. These dates were those of the annual stock show which had become a permanent institution of Denver and, in fact, some of those who were instrumental in the calling of the Dry-farming Congress thought that it was a good scheme to bring more people to the stock show. To the surprise of many the Dry-farming Congress became the leading feature of the week. Representatives were present from practically all the states interested in dry-farming and from some of the humid states. Utah, the pioneer dry-farm state, was represented by a delegation second in size only to that of Colorado, where the Congress was held. The call for this Congress was inspired, in part at least, by real estate men, who saw in the dry-farm movement an opportunity to relieve themselves of large areas of cheap land at fairly good prices. The Congress proved, however, to be a businesslike meeting which took hold of the questions in earnest, and from the very first made it clear that the real estate agent was not a welcome member unless he came with perfectly honest methods.
The second Dry-farming Congress was held January 22 to 25, 1908, in Salt Lake City, Utah, under the presidency of Fisher Harris. It was even better attended than the first. The proceedings show that it was a Congress at which the dry-farm experts of the country stated their findings. A large exhibit of dry-farm products was held in connection with this Congress, where ocular demonstrations of the possibility of dry-farming were given any doubting Thomas.
The third Dry-farming Congress was held February 23 to 25, 1909, at Cheyenne, Wyoming, under the presidency of Governor W. W. Brooks of Wyoming. An unusually severe snowstorm preceded the Congress, which prevented many from attending, yet the number present exceeded that at any of the preceding Congresses. This Congress was made notable by the number of foreign delegates who had been sent by their respective countries to investigate the methods pursued in America for the reclamation of the arid districts. Among these delegates were representatives from Canada, Australia, The Transvaal, Brazil, and Russia.
The fourth Congress was held October 26 to 28, 1909, in Billings, Montana, under the presidency of Governor Edwin L. Morris of Montana. The uncertain weather of the winter months had led the previous Congress to adopt a time in the autumn as the date of the annual meeting. This Congress became a session at which many of the principles discussed during the three preceding Congresses were crystallized into definite statements and agreed upon by workers from various parts of the country. A number of foreign representatives were present again. The problems of the Northwest and Canada were given special attention. The attendance was larger than at any of the preceding Congresses.
The fifth Congress will be held under the presidency of Hon. F. W. Mondell of Wyoming at Spokane, Washington, during October, 1910. It promises to exceed any preceding Congress in attendance and interest.
The Dry-farming Congress has made itself one of the most important factors in the development of methods for the reclamation of the desert. Its published reports are the most valuable publications dealing with dry-land agriculture. Only simple justice is done when it is stated that the success of the Dry-farming Congress is due in a large measure to the untiring and intelligent efforts of John T. Burns, who is the permanent secretary of the Congress, and who was a member of the first executive committee.
Nearly all the arid and semiarid states have organized state dry-farming congresses. The first of these was the Utah Dry-farming Congress, organized about two months after the first Congress held in Denver. The president is L. A. Merrill, one of the pioneer dry-farm investigators of the Rockies.
Jethro Tull (see frontispiece)
A sketch of the history of dry-farming would be incomplete without a mention of the life and work of Jethro Tull. The agricultural doctrines of this man, interpreted in the light of modern science, are those which underlie modern dry-farming. Jethro Tull was born in Berkshire, England, 1674, and died in 1741. He was a lawyer by profession, but his health was so poor that he could not practice his profession and therefore spent most of his life in the seclusion of a quiet farm. His life work was done in the face of great physical sufferings. In spite of physical infirmities, he produced a system of agriculture which, viewed in the light of our modern knowledge, is little short of marvelous. The chief inspiration of his system came from a visit paid to south of France, where he observed "near Frontignan and Setts, Languedoc" that the vineyards were carefully plowed and tilled in order to produce the largest crops of the best grapes. Upon the basis of this observation he instituted experiments upon his own farm and finally developed his system, which may be summarized as follows: The amount of seed to be used should be proportional to the condition of the land, especially to the moisture that is in it. To make the germination certain, the seed should be sown by drill methods. Tull, as has already been observed, was the inventor of the seed drill which is now a feature of all modern agriculture. Plowing should be done deeply and frequently; two plowings for one crop would do no injury and frequently would result in an increased yield. Finally, as the most important principle of the system, the soil should be cultivated continually, the argument being that by continuous cultivation the fertility of the soil would be increased, the water would be conserved, and as the soil became more fertile less water would be used. To accomplish such cultivation, all crops should be placed in rows rather far apart, so far indeed that a horse carrying a cultivator could walk between them. The horse-hoeing idea of the system became fundamental and gave the name to his famous book, "The Horse Hoeing Husbandry," by Jethro Tull, published in parts from 1731 to 1741. Tull held that the soil between the rows was essentially being fallowed and that the next year the seed could be planted between the rows of the preceding year and in that way the fertility could be maintained almost indefinitely. If this method were not followed, half of the soil could lie fallow every other year and be subjected to continuous cultivation. Weeds consume water and fertility and, therefore, fallowing and all the culture must be perfectly clean. To maintain fertility a rotation of crops should be practiced. Wheat should be the main grain crop; turnips the root crop; and alfalfa a very desirable crop.
It may be observed that these teachings are sound and in harmony with the best knowledge of to-day and that they are the very practices which are now being advocated in all dry-farm sections. This is doubly curious because Tull lived in a humid country. However, it may be mentioned that his farm consisted of a very poor chalk soil, so that the conditions under which he labored were more nearly those of an arid country than could ordinarily be found in a country of abundant rainfall. While the practices of Jethro Tull were in themselves very good and in general can be adopted to-day, yet his interpretation of the principles involved was wrong. In view of the limited knowledge of his day, this was only to be expected. For instance, he believed so thoroughly in the value of cultivation of the soil, that he thought it would take the place of all other methods of maintaining soil-fertility. In fact, he declared distinctly that "tillage is manure," which we are very certain at this time is fallacious. Jethro Tull is one of the great investigators of the world. In recognition of the fact that, though living two hundred years ago in a humid country, he was able to develop the fundamental practices of soil culture now used in dry-farming, the honor has been done his memory of placing his portrait as the frontispiece of this volume.
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