Cornell MAniversity Library | BOUGHT WITH THE INCOME FROM THE SAGE ENDOWMENT FUND THE GIFT OF Henry W. Sane 1891 A ae eee (8. JI. 3777 ornell University Library Luther Burbank, his methods and discoveri TAT Cornell University Library The original of this book is in the Cornell University Library. There are no known copyright restrictions in the United States on the use of the text. http ://www.archive.org/details/cu31924008976908 wih , minal g “aD ]}UID J am sn jo ]souw yoiym yjiai saat} jnujsayo ayy ayijun ajinb ‘saysnq fiur6id uo umoj6 am flay} joy} UMouy £1 7} UayM a1qvywuat aiour ay} 710 sulaas az18 yJOUIUIDUI JOY TY ‘salgads asaupdps pup ‘uvI} -lauy ‘ubadoing jo s}1D1] ayy «Buyuiquioa §=‘abpj}I1ay pari fo synujsaya yunqging aim asayl Sjynujsa YD jo jayspg V LUTHER BURBANK HIS METHODS AND DISCOVERIES AND THEIR PRACTICAL APPLICATION PREPARED FROM HIS ORIGINAL FIELD NOTES COVERING MORE THAN 100,000 EXPERIMENTS MADE DURING FORTY YEARS DEVOTED TO PLANT IMPROVEMENT WITH THE ASSISTANCE OF The Luther Burbank Society AND ITS ENTIRE MEMBERSHIP UNDER THE EDITORIAL DIRECTION OF John Whitson and Robert John AND Henry Smith Williams, M. D., LL. D. VOLUME XI ILLUSTRATED WITH 105 DIRECT COLOR PHOTOGRAPH PRINTS PRODUCED BY A NEW PROCESS DEVISED AND PERFECTED FOR USE IN THESE VOLUMES NEW YORK AND LONDON LUTHER BURBANK PRESS MCMXV Fa 200978. Copyright, 1915, by The Luther Burbank Society Entered at Stationers’ Hall, London All rights reserved Ill Volume XI—By Chapters Bore word. iisecccicchs esc caseatectesesemstevvoractis ae Page 3 Nuts as a Profitable Crop —The Business Side of Nut, Growing 3... sco sca scsisisrasniaiguele-aie'a oi e's oid'n'9 stsiaienielginns The Paper Shell, and Other Walnuts —The Methods Used to Produce Them The Almond— and Its Improvement —Can It Be Grown Inside of the Peach? Seren meee e eee eee ewes mene enesemonsaes The Chestnut— Bearing Nuts at Six Months —A Tree Which Responds to Education The Hickory Nut, and Other Nuts ~-Improvements Which Have Been Wrought— and Some Suggestions On Growing Trees for Lumber —Ideas on Profitable Reforestration Pe ere ee eee eee eee eee res The Production of a Quick-growing Walnut —The Burbank Royal and Other Experiments... 1.00... 00 ccseseaeneee cc cneeenoes Trees Whose Products are Useful Substances —From the Sugar Maple to the Turpentine Tree Trees and Shrubs for Shade and Ornament —Some Miccellaneous Tree Experiments List of Direct Color Photograph Prints......... 131 155 193 239 271 FOREWORD TO VOLUME XI Mr. Burbank begins this, his eleventh volume, with a chapter, which, to the majority of readers, must be novel, describing, as it does, the business side of raising nut crops. He continues throughout the range of profitable nuts, discussing the paper- shell and other walnuts, the almond, the chestnut, the hickory and a miscellaneous company of other nuts—with many definite suggestions for improve- ment. He tells, also, in this volume, the method employed to produce in twelve years a walnut tree such as nature takes seventy years to produce; he gives his ideas on how reforestration may be accomplished profitably; he describes each class of tree which yields us gums and syrups, and con- cludes with a practical chapter on trees and shrubs for shade and ornamentation, together with a number of new tree experiments which offer encouragement. THE EDITORS. A Dwarf Chestnut Tree This bush-like tree is a fine ecample of a Burbank hybrid chestnut. The workman who stands beside the tree is five feet seven inches tall. Note the abundant crop of nuts on the tree and under the tree. Gathering chestnuts becomes a simple matter when the trees are of this type. NUTS AS A PROFITABLE CROP Tne Business SIDE OF NuT GROWING CHESTNUT bush!” exclaimed a visitor; A “that is the greatest marvel I have seen yet. I was brought up under chestnut trees; but when I see chestnuts growing on huckleberry bushes I am certainly having a new experience.” And I suppose this experience would be new to almost anyone who has not visited my experi- ment farm at Sebastopol. For, so far as I know, until very recently, there have been no chestnuts growing on bushes anywhere else in the world. But there are plenty of them in my orchard at Sebastopol; that is to say, if a sprig of a shrub only three feet or so in height and three feet across is entitled to be called a bush, Moreover the nuts that are borne on these miniature trees are of the finest variety—large, plump nuts, at least as large as half a dozen of the nuts you are likely to find growing on chestnut [VotumE XI—Cuapter I] LUTHER BURBANK trees of the largest size; and they are sweet in flavor. The manner of development of these anoma- lous dwarf chestnuts will be detailed in a later chapter. Here I refer to them only by way of introduction to suggest one of several modifica- tions in the growing of nut bearing trees that have been brought about within recent years and that, jointly, are placing the industry of nut growing on a new basis. If it is added that some varieties of the new chestnuts bear when only six months old, when grown from seed—rivaling corn or wheat, and seeming quite to forget the traditions of their own tribe—a further glimpse will be given of the modification that scientific plant development has wrought in the status of the nut bearing tree. No other tree, to be sure, quite rivals the chest- nut in this regard; but some of the new walnuts bear at eighteen months of age, which is quite remarkable enough. And in general the time of bearing of these nuts has been so hastened that the growing of a walnut orchard to-day is an alto- gether different matter from what it was a genera- tion ago. Moreover, a way has been found to induce the walnut tree to grow about ten times as fast as it formerly did; and the wood of the tree is of the [8] A Walnut Orchard This is a Califor- nia walnut orchard of forty acres, which earns nearly fifty thousand dol- lars a year. The trees are Persian walnuts of the variety known as Fran- quette, grafted on black walnut roots. LUTHER BURBANK finest quality for the use of lumbermen and cabi- net-makers. Of course the latter fact is of inci- dental interest only to the grower of nuts; yet it is not quite a negligible factor. And, from another standpoint, obviously, the wood-producing capaci- ties of the new trees have a high degree of importance. These and a few other transformations in the nut bearing trees, brought about by careful select- ive breeding, have, as I said, prepared the way for an entire change of attitude of the horticulturist toward the question of producing nuts as a busi- ness, comparable to the business of the fruit grower. THE Foop VALuE or Nuts Meantime there has been a marked change of attitude on the part of the medical profession, and, following them, of the general public, as to the value of nuts in the dietary. In point of fact, nuts have substantial merits as food-stuffs, and these merits are yearly coming to be more fully recognized. In the older coun- tries, nuts have already assumed—indeed have long held—a position of economic importance, and convincing evidence of their growing recognition in America is found in the reports of experiment stations of the Agricultural Bureau, which in re- cent years have from time to time urged the merits [10] ON NUT GROWING of various nuts upon the attention of agriculturists, A study of the market reports shows that nuts of many kinds are handled on a commercial scale in our cities. There should be nothing surprising in this; for, of course, in a wide view nuts are fruits, and there is no obvious reason why they should not have dietetic value. Moreover they are for the most part grown on perennial shrubs or trees rather than on succulent and perishable annuals, and thus have close relationship with the fruits of the orchard. But the fact that nut bearing trees for the most part receive no attention whatever from the culti- vator of the soil, their product being gathered only casually, has caused them to be regarded as wild products not falling within the scope of the horti- culturist. In most parts of the United States, in- deed, the nut bearing trees have received no atten- tion whatever from the cultivator of the soil, and their product has been regarded as a more or less superfluous luxury, rather than as having dietetic consequence. In the Gulf States and in California, in recent years, there has been a radical change of attitude. In these regions the cultivation of nuts is already becoming an industry of importance. More re- cently, the industry has extended to New York and [11] A Franquette Seedling The walnut, like most cultivated plants, cannot be de- pended upon to breed true from the seed. Nevertheless val- uable trees are sometimes produced in this way. Here is a Franquetté seedling that gives good promise, and which may have particular value for breeding experiments. ON NUT GROWING even to Canada. Meantime, the use of nuts on the table in all parts of the United States has become more and more habitual, and the shell fruits are beginning to take their proper place among the important products of the soil. Their recognition as really valuable foods is so comparatively recent, however, that it would not be superfluous to briefly run over the list of commercial nuts, with refer- ence to their food values and their present and prospective economic importance. Such an outline may advantageously prepare the way for the detailed account of the experi- mental work through which new varieties of sev- eral of the more important nuts have been developed. THe Curer MarKetas_e Nvts The marketable nuts include almonds, Brazil nuts, filberts, hickory nuts, pecans, Persian or English walnuts, chestnuts, butternuts, walnuts, pine nuts, peanuts, and cocoanuts, not to mention several less known and little used species. The cocoanut, the fruit of a palm tree, is indigenous to tropical and sub-tropical regions, and may very likely have played a part in the history of developing man not unlike that ascribed to the date and the fig. It is still a most important article of diet to inhabitants of tropical islands, being prized not merely for the meat of the nut [13] LUTHER BURBANK but for the milky fluid which it secretes in large quantity. The natives sacrifice the partially ripe nut for the sake of the milk, but most northerners find this a taste to be acquired with some effort. The meat of the ripe nut, as it comes to the northern market, is extremely palatable, and in a dried state, grated, it is widely employed to flavor sundry delicacies. The cocoanut is raised extensively in Cuba, and to a limited extent in Florida, the total number of these nuts produced in the United States in 1899 being 145,000. Most of the other nuts are similarly used as accessories of diet, for variety rather than as sub- stantials. They are capable, however, of playing a more important role, as the chemical analysis of their constituents shows that they are in the main highly concentrated foods, having little waste aside from the shells. They contain all the import- ant constituents of diet—proteins, fats, and carbo- hydrates—and are thus in themselves capable of sustaining life. They do not contain the various elements in proper proportion, however, to make them suitable for an exclusive diet. Moreover, their highly concentrated character makes them somewhat difficult of digestion if taken in large quantities. The chestnut differs from the other nuts in [14] A Heavy Crop This grafted Fran- quette walnut tree is so heavily laden that it is necessary to prop. the branches to save them from breaking. Note the wide spread of the branches and the beautiful symmetry of the tree as a whole. LUTHER BURBANK having a relatively high percentage of starchy matter, 42 per cent of its edible portion being found in the carbohydrate division—a proportion which no other nut except the acorn approaches. The amount of fat in the chestnut is proportion- ately small—only about 51% per cent., as against the 64.4 per cent. of the English walnut and the 71.2 per cent. of the pecan. As to protein—muscle-forming matter—the chestnut has but a little over 6 per cent., while the English walnut has 16.7 per cent., and the Ameri- can black walnut and the butternut head the list with 27.6 per cent. and 27.9 per cent. respectively. Chestnuts when fresh have a very much higher percentage of water than other nuts—no less than 45 per cent., whereas the generality of nuts have but three to five per cent. It appears, then, that the meat of the chestnut furnishes a less concentrated food than other nuts supply, and one that is rich in digestible starches, of which it contains six or seven times the propor- tion common to other nuts. This excess of starchy constituents explains why the chestnut is not gen- erally relished so much as many other nuts in the raw state. But it explains also why this nut may be eaten in large quantities when cooked. In France and in Italy chestnuts are very generally eaten, usually being prepared by boiling, [16] ON NUT GROWING and they constitute a really significant item in the dietary of the poorer classes. Large quantities of the nuts are also dried and ground to a flour, which keeps for some time without deteriorating, and from which sweet and nutritious cakes are made. It is said that in Korea the chestnut takes a place in the dietary not unlike that which the potato occupies with us, being used raw, boiled, roasted, or cooked with meat. PRODUCTION AND VALUE OF NUTS Until the chestnut blight came in very recent years, threatening the entire growth of chestnut trees in the Northeastern United States, there seemed a good prospect that the cultivation of this nut would become an important industry in the near future. Details as to the blight and the probable out- come will be considered in another connection. Meantime, there is no present indication that the other nuts indigenous to the northern parts of the United States are likely to be extensively culti- vated until they have profited by the experiments of the plant developer. The thick shells of hickory nuts and butternuts, and of the native walnuts, interfere with their commercial value. We shall consider in another connection the possibility of remedying these defects, but for the moment the nuts that are grown on a commercial scale are [17] ya} ay? ul pio} $2 yuuypa nays-iadpd ay} fo juaul -dojaaap ayy fo Asojls aUL ‘gunjajd ay} uz uaas aq UDI y1ays aanjnj ayy fo sauljjno fidjnd ayL ‘“pauefs poy 11ays ay} a10faq payaid alam sjnujom asayL synujD M neys Jadvd ON NUT GROWING solely those that will flourish in the warmer cli- mates, and hence the industries associated with their production are confined mostly to the Gulf States and to the Pacific Coast. To be sure, the aggregate wild nut crop of the Central and Northern States represents a consid- erable value. But no official estimate has been made as to the precise figures involved. In general, the nuts obtained from such trees are not looked upon as a commercial crop. They are for the most part consumed on the farm or in neighboring villages. Only three kinds of nuts are grown on a ‘commercial scale in the United States at the pres- ent time, these being, in the order of their productivity, the Persian or English walnut, the Pecan, and the Almond. According to the official reports of the Census Bureau, the total nut crop reported for 1909 was 62,328,000 pounds. This was 55.7 per cent. greater than the crop reported for 1899, and the value, $4,448,000, was 128.1 per cent greater. “California is by far the most important state in the production of nuts, and Texas ranks next. No other state reported as much as $100,000 worth of nuts in 1909.” The Census Report takes note of nuts other than the three just named, but the total value of [19] LUTHER BURBANK all the others is relatively insignificant, the com- bined value of the Persian walnuts, pecans, and almonds, amounting to $3,981,000, or about nine- tenths of the total for all nuts. Perhaps the most interesting feature of the report on the production of nuts is the very rapid increase in recent years. The crop of Persian or English walnuts in 1909, for example, was more than twice as great as that ten years earlier. The production of pecans in 1909 was more than three times as great as in 1899. The production of almonds, on the other hand, had decreased some- what in the decade under consideration. As to the actual number of trees under cultiva- tion, the almond heads the list, the trees in bearing in 1910 numbering 1,187,962, and young trees not in bearing numbering 389,575. By far the greater number of these are in California, which has 1,166,730 almond trees in bearing, whereas Ari- zona, the second state, has only 6,639, and all other states combined have only 14,593. The total pro- duction of almonds in 1909 was 6,793,539 pounds, with a value of $711,970. The almond is a native of western Asia, and has been cultivated from time immemorial. It is mentioned in the Scriptures as one of the chief products of the land of Canaan. In California it has been more or less under cultivation since about [20] A Comparison of Leaves At the left, a specimen of the Franquette variety of Per- sian walnut; at the right a specimen of the black walnut. By hybridizing the Persian and the black walnuts, Mr. Burbank produced his remarkable Paradox walnut. LUTHER BURBANK 1853. The best manner of its cultivation, however, was not well understood, and the greater ease and certainty with which the walnut can be grown has led to the abandonment in recent years of many of the almond orchards. Nevertheless the crop is one of considerable importance, as the figures just given show. The total number of Persian or English walnut trees in bearing in 1910 numbered 914,270, of which all but about sixty thousand are in Cali- fornia. The rapid increase of the industry, and its prospect of still greater increase in the near future, is shown in the fact that the number of young trees, not yet of bearing age, was reported in 1910 as 806,413. The extension of the industry is shown also in the fact that of the trees not yet in bearing no fewer than 177,004 are in the single state of Ore- gon, and 5,513 in Mississippi. These figures fore- cast the spread of industry to meet the growing demand for walnuts in America. The total production of Persian walnuts in 1909 was 22,026,524 pounds, with a valuation of $2,297,336. It will thus be seen that the walnut takes rank as a commercial crop of genuine importance. The value of the crop approaches that of the total crop of apricots, although not as yet approaching the [22] iT eae The Paper Shell on the Tree In the course of his experiments, Mr. Burbank produced walnuts that were almost devoid of shell, but this proved a disadvantage as the birds soon learned the secret. It was necessary, therefore, to select specimens with thin shells, instead of those with no Shells, to continue the experiment. The ones here shown have shells of ideal thickness. LUTHER BURBANK value of the half dozen more popular orchard fruits. THE CULTIVATION OF THE PECAN In 1899 the pecan ranked third among nut-pro- ducing trees, both as regards number of trees under cultivation and actual product. The pecan trees in bearing at that time numbered 643,292, with a net product of 3,206,850 pounds. In the ten succeeding years the pecan industry came ahead very rapidly, and in 1910 the pecan was second to the almond as to number of trees in bearing, and second to the Persian walnut as to poundage and value of its crop. Moreover, the number of pecan trees under cultivation, but not yet of bearing age in 1910, was actually larger than the number of trees in bearing; showing a sur- prisingly rapid increase of the industry. The actual number of pecan trees in bearing in 1910 was 1,619,521, and the number of young trees under cultivation 1,685,066, making a total of 3,304,587, a number in excess of the combined: numbers of almond and Persian walnut trees under cultivation. The production of pecans in 1909 was 9,890,769 pounds, with a value of $971,596. The total pro- duction of 1899 was only 3,206,850 pounds. Thus, as already noted, the production increased by more than three hundred per cent in ten years. [24] The Burbank Tree Baler This is a modified saw-buck, devised by Mr. Burbank to aid in packing trees for shipment to different localities. The succeeding picture shows how the apparatus is used. LUTHER BURBANK There seems every prospect that the increase will be still more rapid in the coming decade. Peculiar interest attaches to the pecan because it is the one nut indigenous to the United States among those that at present have actual commer- cial importance. The pecan, indeed, must be looked to as now holding the position in the south- ern portions of the United States that the chestnut should occupy in the northern—that of premier nut. In recent years its merits have begun to receive wide attention, as the figures just quoted show, and the cultivation of pecan nuts for the market is likely to become a really important industry. Already there are numerous named varieties on the market, each having its champions. These varieties have peculiar interest because of the fact that each one of them represents not an artificially developed product as in the case of most varieties of fruits and grains, but merely the progeny of an individual tree. It appears that here and there, particularly in the state of Mississippi, there has grown a pecan tree of unknown antecedents that became locally famous for the large size and unusual quality of its fruit. These trees, it will be understood, are all of one species, and the nuts are obviously all of one kind; no one would think of mistaking any one [26] ON NUT GROWING of them for anything but a pecan. Yet the indi- viduality—the personality—of each tree is re- vealed in the average character as to size, shape, and peculiarities of shell and kernel, of its fruit, and also as to great difference in productiveness and earliness or lateness of bearing. THE VARIETIES OF PecAN Nuts Of course such individuality is precisely what we have become accustomed to expect in orchard fruits and other plants under cultivation. But until recently it has not been generally understood that such diversity is commonly to be found among wild plants. So the case of the pecan furnishes an interesting illustration of the variation of plants in the wild state. The pecan trees that show these individual variations are precisely like the culti- vated varieties of orchard fruits in that they do not breed true from seed. Doubtless it might be possible to develop true botanical varieties from each of them by selective breeding, but this is not Necessary any more than in the case of orchard fruits. For, like other trees, the pecan may be propagated by grafting or budding. Nothing more is necessary than to make cut- tings of twigs or buds from the parent stock, graft- ing these as cions on an ordinary pecan stock, to produce new trees in indefinite numbers, all of which retain the precise quality of the parent. [27] ‘yuauljuod ay} Sso1gp juas aq 0} aid fiayy f7 ‘asunoa fo ‘os fjqnop faoupjsip jaoys bp a0f fizuo paddiys aq 9} amp saadt ay} f2 Uaaa ‘auop lam aq pinoys Buryond jo uonpiado ay} JoYt qupj10d -u) fiqzyfiy st VW “yuaul -djys s0j saypunq asnoos uz ‘4aqzpq aye Jo pimp aut yuna ‘payond 6ujaq aip saat} Bunofi ay} alo uo1piadQ ul JayDg PLL ON NUT GROWING Such grafts were made in the case of each of a score or so of the famous individual pecans above referred to, with the result that as many varieties have been given assured permanency. For the most part, these varieties have been named after the location where the parent tree grew, as the San Saba, the Rome; or else after the original owner of an early cultivator, as the Jewett, the Pabst, the Post, the Russell, the Stuart. According to a recent report of the Department of Agriculture, there are ten of these varieties that have now been advertised and propagated for a sufficient time to gain wide distribution. Extensive orchards of pecans are now under cultivation in almost all of the southern states; yet the industry is so recent that, with a single exception, the parent trees of all the ten promi- nent varieties are still alive and in a more or less vigorous condition of bearing. Unfortunately the pecan is restricted as to hab- itat, but it flourishes as far north as St. Louis in the Mississippi Valley, in all the gulf states, includ- ing Texas, and along the south Atlantic seaboard. Texas is the chief producer (5,832,367 pounds in 1909), Oklahoma second (894,172 pounds), and Louisiana third (723,578 pounds). Quite possibly hardier varieties, which may be grown farther north, may in time be developed. [29] LUTHER BURBANK Meantime it is held with reason that within the territory to which it is naturally adapted, no other nut, native or foreign, can be considered to com- pete with it. The qualities of the pecan as a desert ana con- fectioners’ nut are familiar to everyone; but the best varieties have hitherto been raised in re- stricted quantities, and hence have not found their way extensively into the northern markets. With the increase of the industry to commercial pro- portions, this defect will soon be remedied, and the pecan may be expected to advance rapidly in popular favor. But for that matter, the demand already greatly exceeds the supply. OTHER NarIVvE PossIBILITIES Observation of the deferred recognition of the merits of the pecan suggests the inquiry as to whether there may not be other indigenous nuts that have similarly been ignored. It may well be doubted whether there is an- other of comparable merit, but there is at least one neglected one that the amateur at any rate might find worthy of attention, whatever its de- fects from a commercial standpoint. This is the familiar hazelnut, a near relative of the European filbert. The hazel-nut is smaller than its European cousin, but it is doubtless susceptible of improve- ment in that regard; and the hardy nature of the [30] Ready for Shipment These are bundles of young nut trees, wrapped so as to insure entire protection, being shipped by Mr. Burbank to various localities for testing under different con- ditions, notably with re- gard to hardiness. Ezx- tensive tests are often made in widely separated regions before a new va- riety is introduced, LUTHER BURBANK shrub makes it suitable for waste lands, or as an adjunct to the chestnut orchard, even far to the north. The hickory, the black walnut, and the butter- nut, already referred to as of doubtful commer- cial value, are nuts that may well appeal more confidently to the amateur. They grow wild in many regions of the Middle West where the chest- nut is not indigenous, and the black walnut and hickory in particular are widely famed for their lumber-—or were before the vandelism of the early settlers practically exhausted the supply. As -to palatability, there are many persons who would be disposed to place the butternut at the very head of the list of edible nuts; and no one will deny the toothsomeness of hickories and black walnuts. All in all, the opportunity for diversion and profit in this unexplored direction seems pecul- iarly inviting; and it is one that is likely to be - éagerly seized by an increasing number of votaries as the years go by. The fact that nut-bearing trees add permanent beauty to the landscape gives them an additional claim on the interest of that growing body of city dwellers who are nowadays harking back to the soil for aesthetic rather than for com- mercial reasons. Meantime the further fact that an unfruitful tree may ultimately be valuable as lumber should make additional appeal to those [32] ON NUT GROWING nature-lovers who, though calling themselves ama- teurs, like none the less to have their hobbies bring them a certain monetary return. —In general, the nut bearing trees have received no at- tention whatever from the cultivator of the soil, and their product has been falsely regarded as a more or less superfluous luxury, rather than as having valuable dietetic importance. Santa Rosa Nut Meats In developing the Santa Rosa walnut Mr. Burbank had in mind not merely thinness of shell and abundant bearing, but also the various qualities of meat that are desirable. Among other things, he eliminated the superfluous tannin, which gives the nut a disagreeable astringency as well as brownish color. The whiteness of the meats of the Santa Rosa is evidence of his success in this regard, THE PAPER-SHELL AND OTHER WALNUTS THE METHOD USED To Propuce THEM HE fact that more than 13,000 tons of wal- nuts are now raised annually in California, chiefly for shipment to the Eastern mar- kets, as against 2300 tons raised in the year 1895, suggests, better than any amount of commentary, the growth of this new industry. Part, at least, of the increased popularity of the walnut may be ascribed to the introduction of varieties having thin shells. All Persian, or so- called English, walnuts have relatively thin shells as compared with the American walnuts, but the production of the “paper-shell” varieties puts these nuts in a class quite by themselves. And this matter of the shell is one of real sig- nificance from the standpoint of the consumer. A nut like the American walnut, which can be cracked with difficulty, requiring the use of a ham- mer, can never gain great popularity. The diffi- [VoLumE XI—Cnapter IT] LUTHER BURBANK culties encountered in extracting the meat of the nut are too great. Contrariwise, a nut that has a shell so thin that it can easily be crushed in the fingers is sure to make its way and to be found more and more generally on the dinner-table. The terms “paper-shell” and “soft-shell” as applied to the walnut are interchangeable. There are now several varieties of walnuts on the mar- ket that are generally classified under one head or the other. Their name merely refers to the ease with which the nut can be cracked. As to this there is great variation among ordinary walnuts, and the soft-shell varieties also show a good deal of diversity. But the best varieties are so friable that they can readily be crushed in the fingers. In point of fact, the walnut is so variable that it is possible for the plant developer to consult his own wishes in the matter of modifying its shell, I have developed a variety in which the shell became so soft that it could readily be pene- trated by the bills of birds; in fact a nut that had a mere rim of shell, being thus comparable to the stoneless plum. There would be no difficulty in maintaining this variety of shell-less walnuts, but its thinness of shell was a disadvantage, and I found it desirable to breed the variety back to a somewhat thicker shell covering, by striking a compromise between the old hard-shell varieties [36] ON PAPER-SHELL WALNUTS and a nut that was practically without a protecting shell. One of the thin-shelled new walnuts was intro- duced under the name of the Santa Rosa Soft- Shell. It was produced by the usual method of selective breeding, and in producing it of course other qualities were in mind besides the thinness of shell. In particular, selection was made for early and abundant bearing, whiteness and pal- atability of meat, and absence of tannin—it being tannin which gives the brown color and bitter taste to the older or ordinary walnuts. The per- fected Santa Rosa may be depended upon to give more than twice as large a crop as the best speci- mens of the France variety of walnuts, known as the Franquette. It should be explained, however, that there are two varieties of the Santa Rosa Soft-Shell. One blooms with the ordinary walnut trees, while the other, like the Franquette, blooms two weeks later, generally escaping the frosts that sometimes affect the early bloomer. In producing the new soft- shell, I inspected nuts of the ordinary walnut from many sources. There is great variation among these nuts, and I found some that were almost entirely without shells. One seedling had nuts with the meats half exposed; that is, with shell covering a portion of its surface, suggesting the [37] LUTHER BURBANK abortive stone of the little French plum from which my race of stoneless plums was developed. By selection among the seedlings of this almost shell-less walnut, I discovered that a walnut with- out any shell, bearing simply a husk, could readily be produced. But, as I have just related, the birds were soon aware of my secret, and they taught me that, except for its scientific interest, the shell-less walnut had no value. After that the experiment in walnut breeding was carried on in a different direction, a shell being obviously desirable. In due time I devel- oped two varieties that had the shell of just the right consistency; combining this trait with the habit of early and abundant bearing and excellent quality of the nuts themselves. Cions from these trees, grafted and regrafted, make up the race of true Santa Rosa Soft-Shells, I am informed, however, that trees grown from the seed have been extensively sold as Santa Rosa Soft-Shells, although they may depart very widely from the characteristics of the parent form. In point of fact, the name cannot be applied with propriety to any trees except those that are grown from cuttings, for the walnut is a variable tree and cannot be depended upon to come true from the seed. The original Santa Rosa Soft-Shell, however, [38] A Foot of Santa Rosa Walnuts The picture shows the large size of the Santa Rosa walnuts, and the symmetrical form and smoothness of the shell. The shell itself is so thin that it can readily be crushed in the fingers. LUTHER BURBANK was grown from seed, and of course it was neces- sary in perfecting the varieties to grow successive generations in the same way. The parent tree was a walnut growing in San Francisco. It bore the most valuable nuts of the kind that had even been seen in California. Mr. Alfred Wright first called my attention to this tree about twenty years ago. I found that it bore not only abundantly but regularly, and that the nuts were of exceedingly fine quality, and of relatively thin shell, their chief fault being that the two halves would sometimes separate slightly, leaving the meat exposed to the air, so that the meat did not keep as well as if in a thoroughly sealed shell. The original tree was destroyed soon after my attention was called to it, to make room for a street, but I had secured nuts and had a colony of seedlings under inspection. Among these there was a great variation, giving me good opportunity for selection. Selection being made with refer- ence to all the desirable qualities of the walnut, in addition to thinness of shell, I presently devel- oped a variety that seemed worthy of introduction, and cions and trees from this were sent out under the name of the Santa Rosa Soft-Shell. The nuts of this variety are of medium size, and they ripen about three weeks earlier than any other walnuts grown in the state. The meat is [40] ON PAPER-SHELL WALNUTS white and most delicious of flavor. The thin shell is also white. The tree bears enormous crops, and about its only defect is that it may, on occasion, be caught by the late spring frosts. But even with this defect, it produces a larger crop of nuts than any other tree that I have seen. HYBRIDIZING WITH THE JAPANESE WALNUT The experiments in which I hybridized the Per- sian Walnut with the California Black Walnut, producing the tree named the Paradox, have been outlined in an earlier chapter, and will be referred to again in a later one. It will be recalled that this tree has extraordi- nary qualities of growth, but that it is almost ster- ile, producing only a few nuts on an entire tree, and these nuts of the poorest quality. Another hybridizing experiment that had great interest was that in which the Persian Walnut was crossed with the Japanese walnut, known as Jug- lans Sieboldii. The Persian walnut in these crosses was used as the pistillate parent. The first generation hybrids of this cross show a combination of qualities of the two parent spe- cies as regards the nuts, which are not borne abun- dantly. The foliage is much larger, however, than that of either species, the bark is white, and the tree itself is of enormously enhanced growth. It probably makes about twice as much wood in a [41] Trunk of the Franquette Walnut The Franquette is a specialized variety of the Persian wal- nul that is particularly prized in California because of ils cer- tain bearing. Note the smooth white bark of this tree in contrast with the rough black bark of the black walnut shown in the succeeding picture. ON PAPER-SHELL WALNUTS given period as either of the parent species. The leaves are quite hairy on both sides, even more so than those of the Japanese parent. The branches are inclined to droop. The nuts of the Japanese walnut have an exceedingly hard shell. The meat of the nut, how- ever, is delicious, perhaps equaling that of any other nut, with the exception of some varieties of the pecan. But it is very difficult to get the meats from the shell, as they are usually broken in cracking the nut. There is, however, a form of the Japanese wal- nut which is so variant that it is sometimes re- garded as a distinct species, under the name of Juglans codriformis, but which I think not cor- rectly entitled to this rank, inasmuch as the two forms are closely similar as to general appearance and growth. The chief difference is in the nuts, which in the cordiformis are usually heart-shaped, somewhat similar in appearance to the form of the central chestnut where these nuts grow three in a burr. The nut is exceedingly variable, not only in size but in form and thinness of shell. Some individual trees bear nuts that are six times as large as those borne on other trees in the neigh- borhood. The shell is much thinner than that of the Japanese walnut, and the meat is of the same excellent quality. [43] LUTHER BURBANK I speak thus in detail of this variety of the Japanese walnut, because its qualities are such as to merit fuller recognition than it has hitherto re- ceived. The tree is perhaps as hardy as the Amer- ican black walnut; it is as easily grown, and per- haps even less particular as to soil and climate. The trees are very productive, especially as they grow older. The branches droop under the weight of the nuts. Where other walnut trees bear nuts singly or in clusters of twos or threes, the Japanese walnut tree bears long strings of nuts, sometimes thirty or more in a single cluster. The nuts are thickly set about the axils, the cluster being from six to twelve inches in length. HYBRIDIZING NATIVE WALNUTS The cross between the Persian and Japanese walnuts, like that between the Persian and the Cal- ifornia black walnut, did not result in producing a tree that had exceptional value as a nut pro- ducer. This cross, like the other, seemingly brings together strains that are too widely separated; and while there is a great accentuation of the tendency to growth, so that trees of tremendous size are produced, there is relative sterility, so that a tree sometimes bears only a few individual nuts in a season. But the results were very strikingly different as regards the matter of bearing when the Cali- [44] Trunk of the Black Walnut A comparison of this picture with the preceding ones shows the striking difference in appearance between the Persian walnut and the American species. The two were combined, it will be recalled, to produce Mr. Burbank’s celebrated Paradox wal- nut, illustrated in other pictures of this volume. LUTHER BURBANK fornia black walnut was hybridized with the black walnut from the eastern part of the United States. These two trees are more closely related species, and have diverged relatively little. Doubtless the time when they had a common ancestor is rela- tively recent as contrasted with the period when that common ancestor branched from the racial stem that bore the Persian and Japanese walnuts. Yet the differences between the walnuts of the eastern and western parts of America are sufficient to introduce a very strong tendency to variation. Indeed, the result of crossing these species was in some respects scarcely less remarkable than that due to the crossing of the Persian walnut with the black walnut of California. In this case, as in the other, the hybrid tree proved to have extraordinary capacity for growth. Indeed, I have never been able to decide as to which of the hybrids is the more rapid grower. But in the matter of nut production, the discrep- ancy was nothing less than startling. For, whereas the first-generation paradox walnut produced, as we have seen, only occasional nuts, the hybrid between the two black walnuts—it was named the Royal—proved perhaps the most productive nut tree ever seen. I have elsewhere cited a tree, sixteen years of age, that produced twenty large apple boxes full [46] ON PAPER-SHELL WALNUTS of the nuts in a season—so extensive a crop that I sold more than $500 worth of nuts from this single tree that year. And the following year I sold nuts from another tree to the value of $1,050. The nuts were used for seed to produce trees of the same variety. This extraordinary difference between the two hybrids is doubtless to be explained by the slightly closer affinity between the parents of the Royal. Their relationship chanced to be precisely close enough to introduce the greatest possible vigor and the largest tendency to variation compatible with fertility. The parents of the Paradox, on the other hand, were removed one stage farther from each other, permitting the production of offspring of vigorous growth, but bringing them near to the condition of infecundity. They were not abso- lutely sterile, but their fecundity was of a very low order. The seedlings of the Royal hybrid vary in the second generation, as might be expected, although the variation in size and foliage is less than in the case of the Paradox. The extraordinary range of size, some of the second generation hybrids being giants and others dwarfs, has been elsewhere re- ferred to. It will be recalled that some of these second generation hybrids grew to the height of four feet in the first year, while beside them were [47] A Grafted Wainut Tree The selected varieties of walnuts do not breed true from the seeds; so it is necessary to graft them, in making commercial orchards, just as in the case of the orchard fruits. Here is a typical grafted specimen, growing in the back yard of. Mr. Burbank’s home in Santa Rosa. ON PAPER-SHELL WALNUTS others that grow only six or eight inches. One grew five hundred times as fast as another, the nuts from which they grew having been picked from the same tree, and planted the same day side by side. To make sure of securing trees having the traits of the original Royal, it is necessary to grow the trees from grafts either of the first generation hybrid or a selected second generation hybrid showing rapid growth. The number of the latter, however, is sufficient to ensure a reasonable pro- portion of good trees from any lot of seed; and the Royal has been in general demand as a tree to furnish stocks on which the Persian walnut may be grafted. It is found that on most soils a Persian walnut grafted on roots of the Royal hybrid will produce several times as large a crop as if on its own roots. Moreover the trees under these conditions are relatively free from the blight. The nuts of the Royal hybrid are similar to those of the parents, except that they are larger in size. The very thick shell is objectionable, as already noted. Doubtless the shell can be made thinner by selective breeding, but no comprehen- sive efforts in this direction have as yet been car- ried out. The black walnut, in spite of the really fine quality of its nut, has never become an impor- [49] ‘yas ayy fo ulof ay} ul jyuerod asaupdps ay) pup ‘avup -ipaddp jDiauaG $71 Ul Juar -pd uvisiag ayy GBuimojjos ‘yava fo saljyjonb smoys i1 jDYy} puD ‘Juaipd Jayj}Ia upy} 4a610] yonur $1 pligfiy ay} joy} uaas aq JM IT ‘salads OM} asay} uaamjeq plqfiy yuvqging D ‘1a}zuad ay} ur /1pjoqfiag sup}6ur sp umouy ‘jnujpm asaupvdvr ay} fo uaunoads vw ‘jfa] ay) yo {ynujpa _ysi}6uq 10 uDis dag ay) fo uauroads po ‘sybit aya IV 6urids {fo pup sjuaiDd ON PAPER-SHELL WALNUTS tant article of commerce. But there are great pos- sibilities open to it if the shell could be reduced to a condition comparable to that of the English walnut. The nuts borne by the Paradox are interme- diate in form and appearance between the types of nuts of its parents. Exteriorly they resem- ble the Persian walnut, but the shell partakes of the thickness and solidarity of that of the black walnut. In at least two instances among the thou- sands of second generation Paradox walnut trees that have been grown, the trees produce extra large fine walnuts in abundance. However, both of these are quite thick-shelled, but from their second generation hybrid, which can be multiplied abundantly, good, hardy, thin-shelled varieties may be produced. It is possible that further hybridizations, in which the Royal and Paradox hybrids were them- selves crossed, might result in the development of a variety, properly selected, that would retain the good qualities of the Persian nut, and combine these with the size and prolific bearing of the Royal. HyYsripizInc METHODS The experiment, at any rate, is well worth try- ing. But, of course, whoever undertakes it must be content to make haste slowly, for the black wal- [51] LUTHER BURBANK nut has not as yet been made to bear in childhood, so to speak, as the chestnuts and some strains of the English walnut now do. But in this regard also there would doubiless be rapid improvement under selection. The actual method of hand-pollenizing is very simple. Nothing more is necessary than to break off the flower bearing branch, just at the right time, and shake it over the flowers of the pistillate parent. Of course one cannot make sure that some of the flowers will not be self-fertilized, but by plant- ing a large number of the nuts, it will be possible to determine from the appearance of the seedlings which ones are hybrids. Also where the trees grow close together, there are sometimes natural hybrids, though I was not aware of this when I made my first experiments, in years 1875-1880. When I made my first experiments at hybrid- izing the walnuts, I planted the seeds of the entire tree. In the rows of seedlings, I could at once determine which ones were hybridized, as these grew far more rapidly than the others, besides dif- fering notably in general appearance. My first experiment was made with two black walnuts, and it was the success of this that led me to attempt to hybridize the Persian and California walnuts the following year. The hybridization in [52] Hybrid Watnuts In Mr. Burbank’'s catalogue of 1894, a picture was given of the first nuts ever borne by the Paradox walnut, his celebrated hybrid between the Persian walnut and the California black walnut, “These nuts,’’ he said, “as would be expected, arc a complete combination of the two species in every respect; one was tested, the others planted, and variations are now in or-- der.” The variations ap- peared in due course, as this picture, showing the fruit of later genera- tions, amply testifies. LUTHER BURBANK which the Japanese walnut was used was made a few seasons later. The results, as regards the pro- duction of nuts, have been sufficiently detailed. Up to the present no variety of commercial value as a nut bearer has been produced, although the indirect influence of the hybrids on the Persian walnut industry, through their use as stocks, has been quite notable. THE BUTTERNUTS There is a very near relative of the black wal- nut, known as the butternut, that was formerly well-known in most forest regions of the eastern United States. The two trees are of closely similar appearance, and the nuts have the same characteristic thick and corrugated shell. The butternut, however, is oval in shape, whereas the walnut is nearly round. The meat of the butternut is also somewhat richer in quality, and it is generally regarded as superior in flavor. The meat itself, indeed, is by many peo- ple regarded as superior to that of any other nut. The difficulty is that the shell, like that of the black walnut, is very thick, making it difficult to extract the meat without breaking it. The butternut thrives generally where the black walnut does. It makes a more spreading tree, but the wood is softer and far inferior for cabinet purposes. [54] ON PAPER-SHELL WALNUTS There is an Asiatic species, known as Juglans Manschurica, that may be regarded as interme- diate in form between the butternut and the black walnut. It rather closely resembles the Japanese walnut in general appearance, but it bears a nut with rough surface like the butternut, and the meat is also similar in quality and appearance to that of the butternut, being superior to that of the black walnut. This tree may be said to form a connecting link between the Japanese walnut, the American black walnut, and the butternut. Possibly it could be used advantageously in a hybridizing experiment that would ultimately blend the strains of these different species. THE CULTIVATION OF THE WALNUTS The idea of growing walnuts commercially is one that has scarcely been thought of in the tem- perate regions of the United States. Even in regions of the middle and eastern states where the English walnut will grow, it has never been culti- vated extensively, and of course this tree is too tender to be profitably grown in the northern states. But the black walnut and butternut, on the other hand, are exceedingly hardy trees, thriving even in regions where the winters are excessively cold. All of these trees, however, require a deep, rich, [55] More Hybrid Walnuts The nut of the Paradox walnut has the outward appear- ance of the Persian walnut, one of its parents. The shell re- tains, however, a gcod deal of the thickness of jhe black walnut, bui this can doubtless be modified by selective breeding in later generations. ON PAPER-SHELL WALNUTS moist, loamy soil, in order to thrive. Trees that produce wood of such extraordinary hardness of ‘texture, and nuts so stocked with fats and proteins, could not be expected to draw adequate nourish- ment from impoverished soil. In point of fact, the black walnut and the butternut, in the regions of the United States to which they are indigenous, are usually found growing along the rivers, or in rich alluvial valleys. Any idea that they could be raised to advantage on soil that is too poor to pro- duce ordinary crops of cereals or vegetables, is fallacious. At the moment, there is not demand enough for the black walnut or the butternut to justify the raising of these trees on a commercial scale. It will be necessary to produce new varieties by hybridization and selective breeding before these nuts can be made popular. But, as I said before, there is every reason to believe that a series of experiments looking to the production of improved varieties would be more than justified by the re- sults obtained, and I shall point out in another connection the commercial possibilities of produc- ing lumber trees in this way that make the project doubly attractive. It may be well to call attention to one or two peculiarities of the walnut that should be known to anyone that attempts hybridizing experiments. [57] LUTHER BURBANK In particular it should be understood that the staminate flowers of the walnut usually bloom and shed their pollen from one to four weeks before the fruit-bearing nutlets appear. One would naturally suppose, under these cir- cumstances, that the pollen would all be lost and that there could be no crop. But, in point of fact, the pollen appears to retain its vitality for a long time, and even where it has been shed some weeks - before the ripening of the pistillate flowers, there may be a full crop. The hand-pollenizer must bear in mind this tendency of the two types of walnuts to mature their flowers at different times. Still, as already suggested, the pollen appears to retain its vitality, and ultimately to be able to effect fertilization even though applied some time before the maturation of the pistils. In France the early spring frosts are likely to be very destructive to the ordinary walnuts, and the French nut raisers have come to depend largely on the Franquette, a variety already referred to. While this variety is in some respects inferior, it has the one supreme quality of not blossoming until the season of spring frosts is over. It blooms perhaps four weeks later than ordinary varicties. This ensures a good crop from the Franquette variety, even in years when others have been dam- aged by the frost, so that the average production [58] Effects of the Walnut Blight In some seasons the walnut suffers from a blight that very seriously injures the crop. The picture shows sam- ples of nuts ruined by the blight in a recent year. Mr. Burbank’s selective ex- perimenis, as the reader is aware, are always con- ducted with an eye to pro- ducing varieties that are relatively immune to the attacks of furgous pests. Such specimens as these would obviously be avoided in ail breed- ing experiments. LUTHER BURBANK of this variety throughout a term of years may be higher than that of others that in any given season may surpass it. There is obvious opportunity to hybridize this variety with the other varieties of the Persian wal- nut that blossom earlier, but produce a better crop of nuts. Such crossing would doubtless supply material from which races may be developed that will retain the late blossoming habit of the Fran- quette, combined with the nut producing qualities of the other parent. We have seen that a tendency to fruit late in the season is usually correlative to a tendency to early ripening of fruit so that late bloomers are adapted to growth relatively far to the north. A late blooming strain of the Franquette walnut might furnish material for the development of a variety of walnuts that will be hardy enough to grow in higher altitudes than those to which the English walnut is now limited. But for the pro- duction of real hardy races it is probable that hybridizing with the black walnut—the same cross that produced the Paradox—must be looked to, to supply the foundation for a series of experiments in selective breeding. The pioneer work, indeed, has been done in the production of the Paradox walnut itself. It may reasonably be supposed that further [60] ON PAPER-SHELL WALNUTS experiments in which this hybrid is used as a parent will lead to the development of altogether new races of nuts that will have economic importance. The entire matter of the development of com- mercial nuts has only recently begun to attract the attention of the orchardists. There is reason to expect that the developments of the next few gen- erations will be comparable to the progress of the past century in the development of orchard fruits. —The edible nuts are destined to occupy a far more important place in the dietary than they have ever had before, at all events in the temperate zone. And the walnut is in the van of the new movement. Almond Tree tn Blossom One great fault of the almond tree is that it tends to blos- som so early in the season that its flowers are likely to be blighted by the frosts. This makes it impossible to raise almonds commercially in many regions where they otherwise would thrive. Careful selective breeding will probably overcome the defect. THE ALMOND AND ITs IMPROVEMENT Can It BE Grown INSIDE OF THE PEACH? after I began importing plants, I attempted to cross the Japanese plum with the almond. The cross was made without very great difti- culty, and the results were exceedingly interesting. Each species was fertilized with the pollen of the other, and here as elsewhere it appeared to make no particular difference in which way the cross was made. The hybrid seedlings partook somewhat of the character of the earliest of the hybrids produced by crossing the plum and the apricot. Most of the seedlings outgrew either parent, their enhanced vigor suggesting that of the hybrid walnuts. But on the other hand some of them almost refused to grow at all, being permanently dwarfed, and in this regard suggesting a certain number of the sec- ond generation of the walnut hybrids. | the early years of my experimenting, soon [Votume XI—Cuarter IIT] LUTHER BURBANK This wide diversity of form and vigor in the first generation hybrids is a rather unusual phe- nomenon. As a rule, we have observed that first generation hybrids are somewhat uniform in char- acter, and that the tendency to wide diversity ap- pears in the second generation. Indeed, attention has more than once been called to the fact that the discovery that such is the tendency among hybrids was the one that put me on the track of most of my successful plant developments. At the time when my experiments in hybridiz- ing the Japanese plum and the almond were com- menced, there were few, if any, other plant experi- menters anywhere in the world who seemed fully to grasp the principle that variation occurs in the second generation, and that it is by raising large numbers of second generation hybrids from which to make selection, that the development of new and useful varieties of plants may best and most rapidly be carried out. This principle is so familiar to-day that horti- culturists and botanists who refer to it very com- monly overlook the fact that the recognition of the principle is very recent. Twenty-five years ago I found it impossible to convince most well known horticulturists and bot- anists and biologists—with many of whom I had some spirited discussions on the subject—that the [64] Two Almonds, One Showing the Nectarine Color The almond and the nectarine are very readily hybridized. In- deed, they are constantly crossed ly the bees where- ever thcy blossom at the tc lune in the same neighborhood. Here is a specimen that reveals its hybrid origin in the form and color of its fruit, . fet LUTHER BURBANK great individual variations occur in the second and a few succeeding generations. To-day all these men, in common with horti- culturists and biologists in general, acknowledge that these variations and recombinations do occur. Indeed, nothing more is necessary than the most casual inspection of the new varieties that have been developed at Santa Rosa in the intervening period to establish the validity of what was gen- erally regarded as an heretical view only twenty- five years ago. And yet the case of the first generation hybrids between the Japanese plum and the European almond, showing the wide diversity just recorded, suggests that it is not always easy to lay down rules of thumb. Observation of the phenomenon of plant development in the field may present com- plexities that make the sifting out of principles difficult. No one whose first hybridizing experi- ments happened to be performed with chance hybrids of the plum and almond, and who saw among his first generation seedlings all the range of forms from dwarfs to giants, would have been likely to conclude that the first generation hybrids are generally uniform in character and that varia- tion takes place in the second generation. Looking back now, and being able to check the observation with knowledge gained through not- [66] Almonds on the Stem The pieture suggests the tough leathery character of the seed-covering that makes us the almond fruit. Unlike its allied stone fruits, the almond has been selected for the seed itself, not for the pulp that surrounds it. Mr, Burbank has shown that the pulp may also be made attractive through hy- bridizing and selection, as we shall see. LUTHER BURBANK ing the effect of hybridizing hundreds of other species, it is interesting to make inquiry as to why the first generation hybrids of the plum and almond showed such anomalous diversity. I am inclined to think that the answer may be found in the assumption that either one parent or the other was itself a hybrid. Perhaps both parents were hybrids. The fact that almonds are known to cross with the peach and the nectarine— to which reference will be made more at length presently—lends color to this assumption. And of course there is no question that the Japanese plums are largely hybridized. In a word, then, the hybrids produced by cross-pollenizing the Japan- ese plum and the almond were probably in reality second generation hybrids having the strains of other species than the almond and the Japanese plum in their veins. Be this as it may, the facts as to the curious diversity among the plum-almond hybrids have more than passing interest. It should further be recorded that the diversity in size was matched by the wide range of diversity in minor characteristics. The bark and leaves varied extensively among the different hybrids; on some trees the buds were round and plump, and on others long and sharp. Many of the trees produced somewhat abundant blossoms, and the [68] ON THE ALMOND individual blossoms varied widely in color and in size. But there were other trees that produced no blossoms whatever under any circumstances. These would form great clusters of buds, but instead of bursting into flowers the buds would drop off and ordinary branches would come out in their stead. In the case of buds already opened to form flowers, the blossoms not only varied as to size and color, but they showed the most astonishing diversity as to their essential fructifying organs. Some of the blossoms had numerous pistils and no stamens. Others had numerous stamens and no pistils. In yet other cases there were blossoms having stamens and pistils but absolutely without petals. In no case was fruit formed. The blossoms one and all were sterile. An attempt was made to fructify the blossoms by pollenizing them with pollen from each of the parents. But the effort was futile. The ovaries were seemingly incapable of maturing. It would appear, then, that the Japanese plum and the almond, as represented by the particular specimens that were used in these hybridizing experiments, were just at the limits of affinity that permitted cross-fertilization, but imposed sterility [69] *joa11dD so umjd 410 yovad ayy fo djnd ay} wos quazajnp ajbuppays Bury -auri0os $s} puowyD fipp-jua -said ayy fo Bujsaaoo fisa -yypa] ay} ‘fiput 71 sp jDYT aq ‘padojaaap uaaq aavy syimi{ auojs 1ayzo Imo }]D yaqym wo1f qnif auoejs fo adfiy] aamjiwmjid ay} fijasojz> joyaauios sjuasaidat puout “jo ayy yoyy ‘AjqqisnDjd jmoyjat = ou ‘pajsab -6ns uaaq spy FI spuoul]yy paj2a}2§ ON THE ALMOND on the offspring. The parents were a shade more widely removed from each other genetically than were, for example, the plum and the apricot or the Persian and California walnuts. Conceivably this fact, and not the mixed ances- try of either parent, may have accounted for the diversity of form of the progeny. As the plum-almond hybrids were sterile, it is obvious that the experiments through which I had hoped to develop new varieties and perhaps new species of fruits could go no further in this direc- tion. It is of course possible that individual plums and almonds or different varieties of the two races might be found that would combine to produce fertile offspring. This supposition finds support in the fact that my earliest crosses between the plum and the apricot were also sterile; whereas later ones produced the fertile plumcot, as the reader is aware. . So it is obviously worth while to continue the experiments of hybridizing the plum and the almond, and there is every reason to hope that interesting and valuable results may be attained. My own experiments, however, although they have been repeated occasionally and have never been quite lost sight of during the twenty-five years that have intervened since the first tests were made, have produced only the anomalous results [71] LUTHER BURBANK just related. Yet even these, in addition to their scientific interest, may be thought to point the way to more practical developments. At least they prove that there is no barrier between the tribe of plums and the tribe of almonds that may not be partially broken down. THe ALMOND CrosseD WITH PEACH AND NECTARINE Since the almond can be crossed with the plum it may reasonably be expected that mating would be effected with its closer relatives, the nectarine and peach, with even greater facility. And in point of fact it has been observed that the almond crosses with the nectarine so readily that it is practically impossible to prevent cross- fertilization when the two trees grow in the same neighborhood. The bees appear to visit them in- discriminately, and to effect hybridization so com- monly that it is impossible to raise fruit from the seed with any degree of certainty when there has been an opportunity for cross-fertilization. The same thing is true, as might be expected, of the peach; which, indeed, as we have elsewhere seen, is scarcely separable botanically from the nectarine. Most varieties of almond blossom very early in the season, before nectarines or peaches are in bloom. But where the trees are blossoming at the same time in the same neighborhood the bees are almost certain to mix them ind‘scriminately. [72] Another Group of Almond Fruit Although the al- mond is so different as fo texture of ils pulp from the other stone fruits, yet the relationship is ob- vious even to casual ob- servation. If proof of this relationship were needed, it is furnished by the re- sults of hybridizing ex- periments, which give most interesting specimen Ss, variously combining the qualities of almond and of peach or nectarine. LUTHER BURBANK It is nothing unusual in California where almonds and peaches are growing in the same orchard, and where peach seeds are planted, to have one third of the seedlings turn out to show marked characteristics of the almond; or, contrari- wise, to find that a number of the almond seed- lings show the characteristics of the peach. This, of course, is sometimes annoying to the practical orchardist, but it suggests interesting pos- sibilities for the plant developer. Wishing to see just where the experiments might lead, I have crossed the almond with the nectarine, using great care to make sure that the experiment was not vitiated by accidental pollen- izing. In some cases I have used the old method of tying a sack over the flower, which I do not usually consider necessary in pollenizing if prop- erly performed. Hybridizing experiments of this type have been carried on somewhat extensively for at least fif- teen years. I have thus produced a_ hybrid almond-nectarine that has an absolutely smooth skin, with nothing of the roughness and comatose condition usually found in the almond. The hybrid reproduced the color and quality of the flesh of the white nectarine parent as well as its smooth skin. And as the almond quality of seed and stone was fairly reproduced, the combination [74] Some Mammoth Specimens At the left, a se- lected specimen of the common almond; in the center, the Palestine al- mond; at the right a speci- men of the “big fat’ al-. mond,—the latter obvious- ly well named. Noite the characteristic fexture of the shell, which does not vary greatly in these sneci- mens, but which differs markedly from that of alt other stone fruits. LUTHER BURBANK ‘was a very curious one—to all intents and pur- poses a smooth-skinned peach, with white flesh, bearing at its core an almond nut. Further experiments in selective breeding will be necessary to develop the hybrid to a stage at which its qualities of flesh and nut respectively will give it commercial importance; but the foun- dation for such development is supplied in the hybrid already secured. This hybrid, it may be noted incidentally, is a most remarkably vigorous grower. An allied series of experiments of equal inter- est was inaugurated by hybridizing the Languedoc almond and the Muir peach, using, as in the other case, the utmost precaution to prevent foreign pollenization. Many seedlings were grown from this cross and a large number of them have been under observa- tion for years. The most notable thing about these hybrid seed- lings from the outset was the tendency of many of them to take on rapid growth. Some of them grow five or ten times as fast as the average seed- lings of either parent. This propensity of hybrids to rapid growth is something that we have seen manifested in many other cases. It is, indeed, a rather common result when species that vary by just the right amount are hybridized. The hybrid [76] Meats of Selected Almonds These are the meats of the almonds shown in the preceding picture, arranged in the same or- der, with the common al- mond at the left and the Palestine almond in the center. Although these al- mond meats differ so rad- ically in form, it will be seen that they retain the characteristic almond qualify throughout, just as we saw in the case of the shells in the preced= ing picture. LUTHER BURBANK walnuts furnished the typical illustration of this on the most spectacular scale. The fruit of these almond-peach hybrids varied a good deal on different trees. Sometimes the fruit was leathery like that of the almond, but in other cases it was edible and quite peach-like. In a few cases the pulp was so fully developed thai it might be considered a fairly good peach. The seed covering was usually in the shape of an almond and smoother, thinner, and generally more elongated than the peach stone. It was hard- shelled and corrugated, but had not the texture of the peach stone. The meat within was sweet or slightly bitter, suggesting a rather inferior almond. Thus the fruit of this hybrid might be said to be fairly intermediate between the fruits of the parents, yet on the whole the flesh of the peach and the stone of the almond, respectively, tended to be prepotent. This is what would perhaps be expected, when we recall that the flesh is the spe- cialized modern development in the case of the peach, and that the seed is similarly specialized and developed in the case of the almond. We have found occasion to believe that pre- potency or dominance is conditioned on newness of development; the case of the peach-almond hybrid gives a measure of support to this theory. [78] Variations in Seedling Almonds Like the other cul- tivated orchard fruits, the almond does not breed true from the seed. If the crop is to be kept uniform, the orchard must be grafted. Interesting varia- tions may result, however, from growing the seed- lings, as this picture sug- gests. Here is material for the development of any. number of varieties, LUTHER BURBANK But while the specific qualities of peach and almond, representing their specialized develop- ment in comparatively recent times, thus tend to be segregated along Mendelian lines, yet the traits in each case are of such long standing that they do not Mendelize in the clear and satisfactory way that we have seen manifested in some other cases —for example, the color of the blackberry, and its thorns. There is, to be sure, a very marked segregation in the second generation, illustrated by the most astonishing variation among different second gen- eration hybrids in the matter of size, rapidity of growth, and almost every quality of flower and fruit. This variation was so marked, indeed, as to rob the seedlings of the value they might other- wise have had as stock for grafting. The large- growing specimens have value for this purpose, but the diversity among the seedlings is so great that they cannot at present advantageously be grown with any hope of producing dependable stocks. In the matter of the fruit, the second genera- tion hybrids are equally variable. There are some specimens that tend to reproduce the almond qual- ity and others that tend to reproduce the peach quality. And as might be expected there are yet [80] The Almond and Its Cousin Here, reading from left to right, are shown the peach, the almond, and the nectarine. The peach and nectarine are regarded as variant examples of the same species. The al- mond crosses readily with either, prodacing in- teresting hybrids. LUTHER BURBANK others that combine the quality of the two fruits. The best of these bear fruits that are obviously peaches, even peaches of fair qualities, yet that have at their center what would be at once recog- nized as an almond nut, with characteristic shell and seed, In a word, these are almonds grown inside the peach—a combination of obvious interest. But this anomalous fruit, notwithstanding its interest, did not present commercial possibilities that could at the moment be realized. The peaches that thus bear almonds are not of the best quality as compared with recognized varieties of commer- cial peaches. Neither, on the other hand, were the almonds borne by these peaches of a quality to enable them to compete in the market with the best varieties of commercial almonds. What had been produced, in a word, was a rather inferior peach bearing at its core a rather inferior almond. The combination has obvious scientific interest, but it has no immediate com- mercial value. There is no reason to doubt that a continuance of the experiment in which selection was made among the best specimens of this hybrid fruit, together with further hybridization in which the strains of the best peaches and the best almonds were successively introduced, might result in pro- [82] Seeds of Peach, Nectarines, and Almond The picture shows the stone of the nec- tarine at the left, two peach stones in the center, and the almond stone at the right. Note the thin shell of the latter in com- parison with the former. Doubtless the difference is due to selective breeding through countless generations, LUTHER BURBANK ducing a peach-almond that would have flesh equal to the best varieties of peaches and a nut equal to the best almonds. Even now there are apricots that bear delicious nuts. Inasmuch as the apricot is already in this condition, there is no reason why the peach should not do the same. The apricot seeds of California are now nearly all shipped to France to make almond oil. At the time when the experiments above re- ferred to were carried out, however, it was not clear that a fruit combining the qualities of the peach and the almond would have great commer- cial value. The peach industry and the almond industry are so entirely different that the inaugu- ration of altogether new methods would be neces- sary to make them operable in combination. Hence the hybridizing experiments were not carried beyond the second generation, and the hybrid trees were thereafter used as stocks for the engrafting of cions that gave greater commercial promise, even though less interesting from a scien- tific standpoint. A NEw PeacH-ALMonp Cross A subsequent series of experiments was under- taken, however, to which reference has been made in another connection, in which the almond was combined with the purple-leafed peach. [84] Structure of the Almond The picture at the Icfit shows a cross-sec- tion of the almond, reveal- ing the relative thickness of pulp and shell and meat. At the right, the thin sheil has been cut away, and the meat ex- tracted. Mr. Burbank sug- gests the desirability of breeding experiments to produce almonds | having ' white stones to avoid the necessity for bleaching. LUTHER BURBANK It has already been recorded that the first gen- eration hybrids of this cross bore green leaves exclusively, but that purple leaves appeared in a certain proportion of the hybrids of the second and subsequent generation. In this cross, the purple-leafed peach was used invariably as the pistillate parent. There is every reason to suppose, however, that the results would have been the same had the cross been made the other way. Among the second generation seedlings were not only some with red leaves, but others that showed a combination of colors varying from the pure green almond leaves through different shades to the crimson leaf of the peach. There was thus exhibited a pronounced ten- dency to segregation of colors in certain cases, and a combination of the colors in others. Selection being made among the trees with the purple leaves, this characteristic, as might have been expected, reproduced itself, and a race of purple-leafed peach-almonds was developed. The fruit of this hybrid is purple fleshed, and as to its general characteristics it is a fair compromise be- tween the peach and the almond, not unlike the hybrid form already described. This form of peach-almond has considerable merit as an ornamental tree, and it will probably [86] Leaves of a Peach-Almond Cross Mr. Burbank has experimenied extens- ively in hybridizing the almond and the peach as well as the nectarines. The hybrids, particularly in the second and later gen- erations, show all manner of variations, some of them combining the qualities of both parents in a very striking way, others re- verting strongly in one di- rection or the other. The spray of leaves here shown manifests the influ- ence of both parents. LUTHER BURBANK prove of value as an acquisition for the garden and dooryard. Even though a peach that bears an edible seed has no greatly added commercial value, owing to the small size of the seed, such a fruit with large seed of thinner shell, and with peach flavor, should certainly be appreciated. IMPROVING THE ALMOND All this has to do with the production of a compound fruit in which the almond seed is only an accessory. It remains to say a few words about the almond itself as a commercial nut. The importance of the subject will be obvious when we record that in a recent year more than three thousand tons of almonds were produced in California alone. When it is further recalled that numberless unsuccessful attempts have been made to establish almond orchards in various warmer regions of the United States, and that the failure of these orchards has been due almost exclusively to a single remedial defect, the importance of the almond from the standpoint of the plant developer will be more clearly understood. The one great defect of most varieties of almond is that they bloom so early that their blos- soms are likely to be destroyed by frost. A second minor defect is that many of the varieties of almond do not bear well unless they are cross- fertilized with pollen from other varieties, [88] A Peach-Almond Hybrid In this specimen the fibrous covering of the stone is increased in strength, as the picture suggests. It would seem as if hybridization had accentuated the almond quality, without iniroduc- ing any tangible quality of the peach. There are other specimens, however, in which the fleshy covering is juicy and peach- like. LUTHER BURBANK The later defect is obviously one that requires only reasonable intelligence in the planting of different varieties in contiguous rows, so that cross-fertilization may readily take place, or the production of varieties with perfect blossoms. To overcome the defects due to too early blooming is a somewhat more difficult matter. Fortunately, however, there is a rather wide range of variation among different kinds of almond as to the matter of time of blooming. It follows that there should be no great difficulty in producing, by selective breeding, a variety that combines desirable qualities of nut production with the habit of late blooming. The difficulty has been that until recently orchardists have not rec- ognized the possibility of thus segregating and recombining characters, and they have “trusted to luck” in setting out their almond orchards, so in a large number of cases the profitless trees were cut down or regrafted to Burbank prunes. Latterly, the California orchardists have learned that there are two or three varieties that may be depended on, notably the Nonpareil and the Ne Plus Ultra, both of which originated in Cal- ifornia from seedlings grown by A. T. Hatch of Salinas County. These may best be polenized, in the opinion of experienced orchardists, by the variety known as Texas Prolific. [90] ON THE ALMOND Unfortunately neither of the varieties men- tioned produces nuts of the largest size, but their certainty of bearing gives them advantage over varieties that would otherwise be superior but which cannot be depended upon. It should not be difficult, except that such an experiment necessarily takes time, to crossbreed the different varieties that have individual traits of exceptional value, and thus to produce in the second generation, or through successive selec- tions, varieties that will combine the best quali- ties. Indeed, something has already been accom- plished in this direction, notably in the case of such a variety as that known as Drake’s Seedling, a late blooming variety that is prolific and a regular and abundant bearer, notwithstanding its parent form was the Languedoc which has been pretty generally condemned for irregular bearing. There is no good reason why the almond should not bear as regularly and as abundantly as the apple or peach or cherry. As to the shell of the almond, this has been so specialized through selective breeding that in the best varieties it is perhaps as soft and thin as desirable. If it becomes too soft, it is liable to injury in shipping, and thus the appearance of the nuts is marred and their market value impaired; also being subject to destruction by birds before [91] ‘payipou ssa, 40 azour ‘fijiyonb puouyD 23} -s}iajapipyo ayy aapy jDYI sjpaut spaq wayyy jo TV ‘sjuamd puouyp jo aoua -nyui payipul ayy moys saayjyo ataym ‘auojs yovad ayy fo avupspaddD 93)$}419} -oDIDYy? ay} moys uray} fo auros jDY} Uaas aq 711M FI ‘spiiqfiy puoujp-yoved fo sadfiz snoima jo sauojs ayy amp asayl sayovad ul UMIO.1 SpuouU]Y ON THE ALMOND itis harvested. Perhaps, however, selective breed- ing may advantageously be carried out with an eye to the whitening of the shell of the nut. At present it is necessary to bleach the shells after the nuts are thoroughly dried, first with low pressure steam and then with the fumes of sulphur. Such bleach- ing is necessary to meet the demands of the consumers, It would obviously cheapen production and save a good deal of trouble if a variety could be produced that would have the desired color of shell in the natural state. Another defect is that the almond tends to cling to the tree too tena- ciously, requiring unnecessary labor. Any almond grower would appreciate these two experiments. My own experiments of late have been in all the directions mentioned, and I have reason to sup- pose that I now have better almonds than any heretofore grown. It is clear, then, that there are various directions in which the almond may profit by the attentions of the plant developer. The steady and increasing demand for this nut warrants the expectation that systematic efforts for its improve- ment may meet with an adequate financial reward. Already the cultivation of the almond is an indus- try that exceeds in importance that of any other nut except the walnut and pecan. And it is an [93] LUTHER BURBANK industry that will increase in proportion as the efforts of the plant developer make the almond a more certain bearer. What has just been said will sufficiently indicate the lines along which the plant developer must work in order to produce these results. —It is obviously worth while to continue the experiments of hybridizing the plum and almond, and there is every reason to believe _ that interesting and valuable results may be attained. THE CHESTNUT—BEARING NUTS AT SIX MONTHS A TREE Wuicu REeEsponps To EDUCATION HEN a boy in Massachusetts, I used to \ Y observe the great variation among the native American chestnuts in my father’s wood lots. Like most boys I was fond of nuts, and in gathering them I soon learned that there were certain trees that bore large, glossy, rich brown nuts with sweet toothsome meats, and that there were other trees that bore only small, flat, ash-colored nuts of insignificant size and inferior quality. I observed that the trees that bore these seem- ingly quite different nuts differed also in size and in foliage. And I particularly noted that such variations were not seemingly due to any local conditions, inasmuch as the trees bearing fine nuts and those bearing poor ones might stand side by side. I noted similar variations regarding a good [VoLumE XI—Cuapter IV] LUTHER BURBANK many other trees and plants of various kinds. But I recall that the variations among the chestnuts, and also among hickories and shell-barks, made a very vivid impression on my mind. It seemed strange that trees obviously of the same kind should show such diversity as to their fruit. When, at a later period, I began my experi- ments in California, I recalled the variable chest- nuts, and it occurred to me that a plant showing such inherent tendency to vary should afford an unusual opportunity for development—for by this time I had come to appreciate the value of varia- tion as the foundation for the operations of the plant experimenter. But I had conceived the idea also—as our earlier studies have shown—that there would be very great advantage in hybridizing the best native species of plants with plants of foreign origin. And I had the chestnuts in mind among others when I sent to Japan and Italy and the east- ern states for new plants with which to operate. So the very first lot of plants that came to me from Japan (in November, 1884), included twenty-five nuts that I find listed in a memorandum as “mon- ster” chestnuts. The same shipment, it may be of interest to recall, included loquats and persim- mons with which some interesting experiments were made; pears, peaches, and plums of which [96] Six Months Old Chestnut Tree in Bearing This is a veritable infant prodigy. Only six months ago, its cotyledons broke the soil; and to-day it bears goodly clus- ters of maturing fruit, as the picture shows. To cause a tree to take on this habit of an annual. plant is a remarkable triumph of selective breeding. LUTHER BURBANK the reader has already heard; and climbing black- berries and yellow and red fruited raspberries that had.a share in the development of some fruits that presently attained commercial importance. But perhaps there was nothing in the entire consignment that was destined to produce seed- lings with more interesting possibilities of devel- opment than the 25 “monster” chestnuts. For the hereditary factors that these nuts bore were to have an important influence in developing new races of chestnuts of strange habits of growth— chestnuts dwarfed to the size of bushes, yet bear- ing mammoth nuts, and of such precocity of habit as sometimes to begin bearing when only six months from the seed. To be sure other chestnut strains were blended with the Japanese before these anomalous results were produced; but it is certain that the oriental parents had a strong influence in determining some at least of the most interesting peculiarities of the new hybrid races. Very Mixep ANCESTRY That the antecedents of the precocious chest- nuts may be clearly revealed, let me say at the outset that the Japanese forms were hybridized with the three other species as soon as they were old enough to be mated, and that the hybrids in turn were crossed and recrossed until the strains [98] Yearling Chestnut Tree in Bearing These precocious chestnuts are complex hybrids, com- bining the traits of European, American, and Japanese ances- tors. Such chestnut bushes as this will perhaps take the place of the devastated chestnut forests of our eastern states. LUTHER BURBANK had been blended of all the different kinds of chestnuts that could be obtained. These included, in addition to the Japanese species just cited, representatives of the European chestnut in several of its varieties—one of which came from China—and of the native American chestnut of the familiar type; and also the little native species known as the Chinquapin. It is interesting to record that the chinquapin, with its almost insignificant nut, crossed readily with the Japanese species, the mammoth nut of which would seem to place it in quite another class. But, in point of fact, there is apparently a very close affinity between all the different chestnuts. All of them have varied and thus perpetuated forms that more or less bridge the gap between the typical representatives of the different species, and, so far as my observations go, all of them may readily be interbred. In a word, the chestnut fur- nishes most plastic material for the purposes of the plant developer. Just how I have utilized that material will appear as we proceed. At the time when I received the chestnuts from Japan, there were already at hand trees of the European and American species of various sizes. So soon as the Japanese seedlings were of sufficient size, I grafted them on these European and Amer- ican trees, in this way being able to stimulate [100] ON THE CHESTNUT development, and to observe the progress of cions from several hundred seedlings on the same tree. This, of course, is precisely the method I used with my plums and other orchard fruits. The advantages already detailed in connection with the orchard fruits were found to apply equally to the chestnut. The engrafted cions were led to fruit much earlier than they would have done on their own roots; there was saving of space; and it was easy to hybridize the many cions that were thus collected on a single tree. Of course, I was carrying forward numerous experiments with the chestnut at the same time— crossing each species with every other species, so that in a single season there would be a large number of hybrid forms of different parentage. So when two of the hybrids were interbred, the strains of four different species or varieties were blended. Thus a hybrid of the second generation might combine the ancestral strains of the Japa- nese and European and American chestnuts and of the little chinquapin. Moreover I had opportunity for wide selection among hybrids that combined these various strains in different ways. And for the next generation, I could combine different hybrids or inbreed a given strain or introduce the traits of a different variety as I might choose. [101] Branch of a Six Months Old Chestnut The picture shows the way in which the chestnut burs form in relation to the catkins. Many of the hybrid chestnuts have the peculiar quality of putting forth blossoms at almost every season, so that flower buds and blossoms and mature fruit, mag be found on the same branch. ON THE CHESTNUT In point of fact, all these methods were utilized, and in addition, of course, my usual method of rigorous selection was employed, so that I soon had a colony of chestnuts not only of the most complicated ancestry, but also a carefully selected colony in which none that did not show excep- tional traits of one kind or another had been permitted to remain. Precocious Traits Of the many rather striking peculiarities of the new hybrids, doubtless the one that attracts most general attention is the habit of precocious bear- ing. From the outset my hybrids were urged to early bearing, by the method of grafting and selection, as already noted; and of course I saved for further purposes of experiment only the individuals that were the most precocious. But, even so, I was not prepared to find my seedlings bearing large nuts in abundance in eighteen months from the time of planting the seed. Yet such extraordinary pre- cocity as this was shown by many of the seedlings in the third and subsequent generations. Moreover, if the grafts are taken from the seed- lings and placed on older trees, they would pro- duce, although not so abundantly, within six months after grafting. During the past ten years, seedlings have quite often produced nuts, like [103] LUTHER BURBANK annual plants, the first year of planting, while growing on their own roots, and when not over twelve to eighteen inches in height. The value of such habits of early bearing, from the standpoint of the plant developer, will be obvious. Ordinarily one must expect, in dealing with nut-bearing trees, to wait for a long term of years between generations. In the case of the hickory, for example, after one has planted the nut, it cannot be expected that the seedlings will bear flowers and thus give opportunity for a sec- ond hybridizing for at least ten years, and no large crop of nuts may be produced till the tree is forty or fifty years old. So even two or three genera- tions of the hickory compass a large part of a century. But with my new hybrid chestnuts, generation may succeed generation at intervals of a single year, just as if we were dealing with an annual plant instead of a tree that may live for a century. And of course to this fact very largely I owe the rapid progress of my experiments in the develop- ment of new varieties of chestnuts. Not only do the mixed hybrids show this extra- ordinary precocity, but some of them also develop the propensity to bear perpetually. On the same tree may be found at a given time flowers and ripe nuts. Flowers both staminate and pistillate ap [104] A Goodly Crop The picture shows the tops of several pearling chestnut “bushes.” It will be seen that these young plants are heavily laden with large burs. Within the burs, nuts of large size are maturing. LUTHER BURBANK pear on the same tree from time to time, season after season, and in due course the flowers are replaced by growing nuts, so that there is a regular succession month after month. This habit of perpetual bearing, manifested by a tree that ordinarily produces its flowers and in turn its nuts at fixed seasons, is perhaps scarcely less remarkable than the habit of early bearing. Doubtless the two are genetrically associated. CHESTNUT SEEDLINGS The care of the chestnut seedlings presents no important complications. My general plan in selecting seedlings for further tests is the same employed in the selection of seedling fruit trees. Prominent buds, large leaves, thick, heavy twigs, almost invariably fore- cast large, fine nuts. There is, however, an excep- tion to be noted in the case of the Japanese chest- nut, which has smaller leaves. It is necessary to bear this in mind in dealing with seedlings that have a Japanese strain. It is needless to say that the capacity to select the right seedlings for preser- vation is highly important, as an element in saving time and expense in the practical development of improved varieties of chestnuts. I have already referred to the saving of time that may be accomplished through grafting the chestnut seedlings instead of waiting for them to [106] A “Low Head” Chestnut Hybrid This hybrid chestnut is headed in such a way tha pare with the tree of different 1 six years old, but has been { it forms a low bush. Com- Ype shown in the Succeeding picture. LUTHER BURBANK develop on their own roots. Unlike most other trees, the chestnut should not be grafted until just before the bark begins to slip in the spring. If grafted much earlier it is necessary to protect the grafts by tying a paper sack over them until they start growth to prevent evaporation; but in every case it is better to wait till shortly before the bark begins to slip. This is unlike the cherry, which must be grafted very early or success is extremely doubtful. When grafting is performed after the bark begins to slip, it is necessary to tie down the bark against the graft with a string to keep it in place, otherwise it rolls away from the graft and union does not take place. If grafting is done at the right time and with reasonable care, it is usually successful. In the main, very little attention has been paid to the chestnut by cultivators of nuts, Until very recently, such chestnuts as have appeared in the market have been gathered from wild trees, or, imported from Europe. Recently, however, the possibility of cultivating the chestnut has gained a good deal of attention and in a certain number of cases orchards have been started. I have intro- duced three different varieties of hybrid chestnuts, one of them known as the Hale, another as the Coe, and the third as the McFarland, and these [108] “High Head” Chestnut This tree, like the one shown in the preceding picture, is six years old. Like the other, it is a complex hybrid, but it has been allowed to take on an upright growth, similar to that of the common American chestnut. The complex chestnut hybrids show the widest range of variation as to form and size and manner of growth. LUTHER BURBANK have been grafted on ordinary chestnut stocks to form the basis of many chestnut orchards of the southern states. In some cases the roots of the chinquapin have been used as the foundation for grafting, in regions where the ordinary chestnut does not occur. Chest- nut orchards have also been started by planting the seed. Reasonable success attends this method, but of course it lacks the certainty of grafting. Now-a- days no one attempts to start an orchard except by grafting. Unfortunately there has developed within very recent years a disease that attacks the chestnut tree.and invariably destroys it. The disease at first appeared in the neighborhood of New York City about the year 1904, and it has spread in all directions each year reaching out a little farther, until in 1914 there were very few chestnut trees unscathed within fifty or sixty miles of the original center of contagion. The cause of the disease is a fungus that is perpetuated by minute spores that are presumably carried through the air and that, when they find lodgment, develop in such a way as to destroy the cambium layer of the bark, presently causing the death of the tree. The small twigs of a single branch will often first show the influence of the fungus and the leaves may die and become brown [110] | Chinquapins and Chestnuts The chinquapin ts a species of chestnut bearing very small nuts, which have, however, the typical chestnut form and qual- ity. The picture, showing chinquapins at the top and chestnuts be- low, illustrates both the similarity in form and the contrast in size. The strains of the chinquapin have been combined with those of the other chestnuts in Mr. Burbank’s complex hybrids. LUTHER BURBANK and shriveled on one or two large limbs of the tree when no other part of it is affected. But in the ensuing season the disease is sure to spread, and the tree seldom survives beyond the third year. As yet no way of combatting the pest has been suggested, except the heroic measure of cutting down trees immediately they are attacked, and burning every portion of their bark. In this way it is hoped to limit somewhat the spread of the disease but it is by no means sure that the method will be effective. There appears to be danger that the pest will spread until it has decimated the ranks of the chestnut throughout the eastern United States; and of course there is no certainty that it may not find its way to the Pacific Coast, although the lack of chestnut trees in the desert and plateau regions of the middle west may serve as a barrier. The precise origin of the fungus that causes the disease was not known until the summer of 1913, when it was discovered by Mr. Frank N. Meyer, of the United States Department of Agriculture, that the fungus (which bears the name Endothia para- sitica) is indigenous to China. The Oriental chest- nut trees have become practically immune to it, however, and it does not destroy them, but merely blemishes their bark here and there with canker spots. No one knows just how the disease found [112] ON THE CHESTNUT its way to the United States, but it presumably came on lumber brought from the Orient. The appearance of this pest came as a very dis- couraging factor just at a time when interest in the chestnut as a commercial proposition was being thoroughly aroused. Government bulletins had called attention to the value of its nut and its possibility as a paying crop. But, of course, all expectations were nullified in the regions where the ravages of the chestnut fun- gus are felt. Fortunately, it appears that some of the hybrid races that bear the Oriental strain are immune to the disease. Observations as to this have been made very recently by Dr. Robert T. Morris, of New York. Reports show that hybrids between the Japanese chestnut and the American Chinqua- pin are peculiarly resistant. The chinquapin itself is at least partially immune to the disease, but of course this plant bears a nut that is too small to have commercial value. The hybrids, however, in some cases are said to retain the good qualities of the chestnut tree combined with the capacity to bear large nuts acquired from their Oriental ancestor. It is obvious, then, that here is another case in which the introduction of new blood from the Orient may be of inestimable value. The loss of [113] A Typical Cluster This typical cluster of hybrid chestnuts, in the formative stage, suggests the prolific bearing of the tree. What the hybrids lack in size, they appear to make up in productivity. ON THE CHESTNUT our native chestnuts is indeed a calamity, but it is a calamity that is not irreparable: We may have full assurance that new chestnut groves will spring up in the wake of the pest. It is obvious that the quick growing chestnut offers great advantages for such reforestration. The probability that these will prove immune to the pest gives them added attractiveness. If, how- ever, the existing varieties should prove not to be immune, it will be necessary to develop resistant varieties. For it is obvious that the cultivation of the chestnut will not be abandoned merely because it has met with an unexpected setback. It has already been pointed out that the chest- nut has exceptional food value on account of its high percentage of starchy matter. It therefore occupies a place in the dietary that is not held by any other nut. So there is an exceptional incentive to reintroduce the trees in devastated regions. THE CHESTNUT ORCHARD Possibly the coming of the chestnut plague, even though it has resulted directly in the destruc- tion of the entire chestnut groves throughout wide regions, may be a blessing in disguise, as it may make it necessary to bring the chestnut under cultivation in order to preserve the nut at all, whereas in the past it has grown so abundantly in the wild that little attention has been paid to it. [115] *syuauiad -%9 sayjanf ul asay] Buisn s} yuDqung “4jy puD ‘Buiizao2 fiuids may} dn aai6 0} pua} jwy] ‘laaamoy ‘suaunvads 1ayjO aiD alay et *s]saiof{ usajspa amo fo sjnu -jsaya jpI1dfi] ay} saz7quias -atl umoys alay Uaurjvads ay} ‘papbat sty} uy “sjat -ainbs 10 sp4iq fo syap]}D ayy ysuiphp uojjvaj01d ajd -urp sps0f{o joy} Guliaaoca fiuids p aapy sjmujsayo pligfiy ay} fo jsoy eG | papajold MIM V ON THE CHESTNUT Accounts of the destruction of the trees have doubtless brought the chestnut to the attention of many people who hitherto have never given it a thought. The value of the chestnut as an orna- mental tree and its possibilities as a nut producer will perhaps be more fully appreciated than they otherwise would be on the familiar principle that blessings brighten as they take their flight. And it may chance that the tree will be placed under cultivation so generally as to be more abundant twenty-five or thirty years from now in the de- vastated regions than it would have been if the chestnut blight had not appeared. In any event it seems now at least as desirable as ever before to urge the value of this tree both for ornamental purposes and as a producer of commercial nuts, and the rules for the develop- ment of chestnut orchards that have been given by the Department of Agriculture may be reviewed to advantage. Even if people living in the infected district are slow to take up the cultivation of the chestnut, the orchardists of other regions may advantageously do so. For I repeat that it is not supposable that the coming of a fungoid pest will be permitted to exterminate one of our most valuable native trees. In developing a commercial chestnut orchard it is obviously desirable to graft with the improved [117] *sain} -a1d GBulpaazons ay} ul umoys suaunvads ay} ya ‘Buizazaca fiuzds $72 0} pavBat yyim ‘uaurjoads siy} jspajuoy “ang ay} ul -ynm synu ay} fo xing ay} yim pammdwioa sp ‘paanpat fijaaijpjai $1 Bujiaa0oa fulds ay} ‘uaas aq 7]im sD ‘uaunoads sy} uy ing ay, uz synujsay) ON THE CHESTNUT varieties. Quite aside from the matter of produc- ing trees that are immune to the fungus pest, the orchard may be made far more productive if grafted with foreign stock than if the native species were used. And of course my new hybrid varieties offer attractions that excel those of any other variety of chestnut. Some of my seedlings, for example, produce nuts two inches in diameter, each weighing an ounce or more; and these are borne in clusters of from six to nine nuts to the burr. It is notable, however, that the excessively large nuts are usually lacking in flavor; although the reasonably large ones are of the best quality. These hybrid varieties graft readily on the native stock. They may be counted on to bear abundantly in their second season. It may be well, however, to pick off the burs as soon as formed during the first year or two, in order that the energies of the tree may be given over to the production of branches. Even where the blight has destroyed the chest- nut, the sprouts that spring up everywhere about the stumps of the trees may be grafted and trees of more satisfactory shape than the old ones and far more productive may thus be developed in the course of a very few years. Where the chestnut orchard is developed from [119] LUTHER BURBANK the seed or by transplanting seedlings, it is recom- mended that it should be located on a well drained gravelly soil. The trees thrive well on rocky hill- sides, and even on rather poor sand, but observa- tion has shown that they are somewhat uncertain of growth on stiff clay soils in the east, although Italian chestnuts in California are said to thrive on heavy clays. In general, the experts consider it more important to have a thoroughly drained soil than soil of a particular character. The authors of the Government Bulletin that has urged the merits of the chestnut as a commer- cial crop show that the chinquapin chestnuts are practically free from the blights that have hitherto menaced the American species. It will be recalled that my new varieties were developed on the foundation of stocks imported from Japan. It will also be understood, as a mat- ter of course, that my selections with this tree as with all other plants have been made always with an eye to the exclusion of any races that showed susceptibility to fungus pests of any kind. As an illustration of the care with which these selections were made, in the development of the perfected varieties, I may note that in various instances only three or four seedlings were selected out of a company of ten thousand. I may add that orchards made by grafting cions of these im- [120] An Impregnable Fortress Noie the size and offensive or defensive ‘quality of the spines that protect this chestnut bur. No bird or squirrel could hope to penetrate such an array of bayonets. Such aspecimen, obviously, would not be among those chosen to carry forward an experiment in breeding the spines off the chestnut bur.” LUTHER BURBANK proved hybrid chestnuts on ordinary American stock have proved enormously productive. It has been estimated that rocky and otherwise useless hillsides may be made productive, where practically nothing else could be grown that would be of special value. IMPROVEMENTS TO BE MADE In continuing my experiments in developing the chestnut, I have endeavored to effect wider hybridizations. In particular I wish to cross the hybrid chestnut with the evergreen golden chest- aut (Castanopsis chrysophylls) of California, but the wild trees of this species are so distant from my grounds that I have not found it feasible to gather their pollen, and the ones I have under cultivation, although fifteen years of age, have not yet blossomed. This golden chestnut is a very remarkable species. On the heights of the Sierra Nevada mountains it grows as a shrub only four or five feet tall, much branched. These shrubs produce nuts quite abundantly. Along the coast the same tree grows to a height of 150 feet, with an immense trunk. One can scarcely believe that the little bush and the gigantic tree are of the same species. In point of fact there is a considerable differ- ence in the constitution of the two varieties, the giant from along the coast being rather tender, [122] Exposed Treasures Fortunately the bur of the chestnut opens spontaneously, when the nuts are ripe. Now they invite the squirrels to which they were hitherto altogether inaccessible, and the little rodents are cer- tain to drop a specimen here or there by accident or to bury it where it is forgotten, thus inadvert- enily helping the parent tree io scatter its progeny into. new territories. LUTHER BURBANK while the bush-like mountain form is very hardy. Being an unusually ornamental evergreen the mountain variety should be extensively planted in cold climates. I am inclined to believe that the golden ever- green chestnut and the chestnut oak could be com- bined by crossing. If so, remarkable trees could be produced. As yet, however, I have not been able to attempt this hybridization, nor, indeed, have I as yet hybridized the golden chestnut with the ordinary chestnut, for the reason above stated. I have made tentative efforts, however, to cross my early bearing hybrid chestnuts with the Cali- fornia tanbark or chestnut oak, Quercus densi- florus. Notwithstanding the wide difference between the species, numerous nuts were produced and it seems probable that these were hybrids. As to this, however, I cannot be certain until the seed- lings have come to maturity. The object of such wider hybridizing is, in particular, merely to test the possibilities of cross- ing a plant that shows a high degree of inherent flexibility. But it is also desirable for practical reasons to accentuate the variability and to carry forward further series of experiments in selective breeding. [124] Chestnut Bur of Another Type There are usually only two or three chestnuts in a bur, but sometimes, as we have seen, the number may be increased to four or five. The hybrid chestnuts have been selected for prolific bearing, and their nuts are not only of very large size but are usnally borne in large clusters. This picture shows ihe tupical arrangement when _ there are three nuts in a bur. Compare with the preced- ing picture, with its large cluster. LUTHER BURBANK There is a great difference among the different chestnuts as to the amount of their sugar content. In some species the starch is so little transformed that the nuts are scarcely edible unless cooked. In others there is an abundant sugar content the nuts being sweet and palatable. Of course I have had this matter in mind in developing my hybrid vari- eties. But there is still opportunity for improve- ment. It is also desirable to reduce the amount of tannin contained in some of the chinquapin varieties. Some of the chinquapin varieties also have the habit of holding the leaves during the winter, giv- ing the trees a very untidy appearance. Seedlings that show this tendency should be avoided in making selection. PoINTsS IN SELECTION Of course it is elementary to say that the nuts should be selected for dark, rich, glossy brown color, for tenderness of flesh, and for productive- ness. Of my three introduced varieties, all were early and abundant bearers, but one was particu- larly notable for its earliness, and another for its combination of good qualities. Doubtless the feature that is next in line of improvement in the development of the chestnut is the bur itself, which should be made spineless. [126] Bur and Catkin It always seems matter for surprise that the round burs of the chestnut should grow in catkins that seemed destined to produce fruit-clusters of a quite different type. Here is a picture that emphasizes the contrast, as it shows a well developed bur in connection with the remains of the catkin. As the stam- inate and pistillate flowers of the chestnut are borne in different clusters, cross polleniza- tion is very readily effected. LUTHER BURBANK In the wild state, the chestnut needs a spiny bur to protect it from squirrels and birds. It has de- veloped this protective covering through natural selection, just as the walnut has developed its thick coat filled with bitter and astringent juices. But the cultivated chestnut does not require the pro- tective spines, and it will be obviously advantage- ous from the standpoint of the cultivator to have these removed. I have for some years been working on the hybrid chestnuts with this in mind. I now have one variety that is relatively spineless, its burs not having more than one spicule where the ordi- nary chestnut bur has ten. There is every reason to expect that in a few generations more I shall develop a chestnut that has a bur as smooth as that of the walnut. The partially spineless variety that I have developed has nuts that are not as large or as good in quality as could be desired. But for the moment J am selecting it solely with refer- ence to the removal of spines; being confident that once this is attained there will be no difficulty in breeding the good qualities of the hybrid nut into the combination. The new partially spineless variety has been developed merely by selection from a hybrid seed- ling that produced nuts showing a tendency to have fewer spines than ordinarily. Of course the [128] ON THE CHESTNUT tendency to vary in this regard was accentuated by hybridization just as were other tendencies. Or, stated otherwise and a little more technically, the hybridization has made possible the segregation of hereditary characteristics, bringing to the surface factors for spinelessness that no doubt have been transmitted as recessive traits for a very large number of generations. Doubtless there was a time when the chestnut did not have a spiny bur. So my spineless variety, when perfected, will represent a remote reversion, or the bringing to the surface of a tendency that has long been sub- merged. No doubt difficulties will be involved in perfect- ing the race of chestnuts with smooth burs similar to those that attended the development of the thornless blackberry and the spineless cactus. But there is reason to expect that the same measure of success will be attained with the chestnut that was attained with the other spine bearers. A nut that combines all the good qualities of my hybrid early bearing chestnuts and in addition is born in a spineless bur would have a combina- tion of qualities that should appeal to the orchard- ist, and doubtless will do so when the idea that nuts may form valuable commercial crops gains wider vogue. [129] A Hickory Tree The hickories are native American trees celebrated for the quality of their wood as well as for their nuts. In some parts of New England the hickory is colloquially known us the ‘white walnut.’ THE Hickory NuT—AND OTHER NUTS IMPROVEMENTS Wuicuo Have BEEN WrovuGHut AnD SoME SUGGESTIONS HERE is perhaps no other wild plant pro- ducing a really delicious food product that has been so totally neglected by the culti- vator as the shagbark or shellbark hickory tree. The better varieties of hickory-nuts always find a ready sale in the market, and are highly prized by the housekeeper. But such nuts as find their way to the market are almost without exception the product of wild trees, gathered usually by some wandering boy, and often regarded as the property of whoever can secure them, regardless of the ownership of the land on which the tree grows. Even the new interest in nuts as food products and as orchard crops that has been developed in our own generation, has not as yet included the hickory, or at least has not sufficed to bring the hickory tree from the woods and give it a place within the territory of the orchardist. [VoLumE XI—Cuapter V] LUTHER BURBANK The reason for this, doubtless, is that the hickory is a tree of very slow growth, and that it is also exceedingly difficult to propagate by budding or grafting, or any other process except from the seed. The prospect of improving the product of a tree that does not bear until it is ten or fifteen years old, and that resists all efforts to force it to early bearing, is not alluring, considering the short span of human life. Yet we can scarcely doubt that the hickory nut will presently be brought within the ken of the plant experimenter, and that there will ultimately be developed nuts of very choice varie- ties, comparable in size, probably, to the English walnut, and having a quality that will place them at least on a par with any other nut now grown in the temperate zones. Even in the wild state, the best of shellbark hickories bear nuts of unchallenged quality. It is a matter of course that these nuts can be improved by cultivation and selective breeding. Material for such selective breeding is fur- nished abundantly by the wide variation of hick- ories in the wild state. I had observed this varia- tion in my boyhood days, just as I had noted the variation in the chestnuts. The shagbark hickory, doubtless the best of the tribe, was quite abundant along the banks of the Nashua River near my [132] ON THE HICKORY NUT home, and I early learned to distinguish the great difference in the products of the trees, all of which, of course, were natural seedlings. Among hundreds of trees there would be scarcely two that bore nuts of precisely the same appearance and quality. Some of these hickory nuts were long and slender, with prominent ridges; some were short and compact and smooth in contour; some were very flat and others were nearly globular. The shell varied correspondingly in thickness, and the meat varied greatly in whiteness and in flavor. As a boy I knew very well which trees to seek in the fall in order to secure nuts that were plump and thin-shelled, with sweet and delicious meats. It was only after the crop of these trees had been gathered that inferior ones gained attention. I knew very well, also, that different trees varied greatly in productiveness, some bearing nuts so abundantly each year that the ground was literally covered when the nuts fell. Others pro- duced nuts very sparingly. The trees that thus varied as to their fruit, varied also in form, in size, and in rapidity of growth. In a word, the wild hickories represented numerous varieties that a boy could differentiate, whether or not a botanist might choose to classify them as members of the same species. [133] LUTHER BURBANK All these varied members of the shagbark tribe bore nuts that had an unmistakable individuality of flavor that distinguished them from any other nuts. Much as they varied in size and degrees of excellence, all of them were hickory nuts, and could be mistaken for nothing else. There were, however, other hickory trees growing in equal abundance on my father’s place, though they dif- fered essentially in appearance from the shagbark nuts, that produced nuts of a far less interesting character. Hickories of this kind were locally called pig- nuts. They are classified by the botanist as Hicoria glabra. The trees of this species are more upright and symmetrical, and of much more rapid growth than the shagbark. The nut has a thin husk-like shell, but the meat is difficult to remove, and is so ill- flavored that it is little prized by any one. Indeed, the nuts are usually not gathered at all if shagbark hickories of any quality can be obtained. Nevertheless, there was great diversity among the pig-nuts no less than among the hickories of the better species. So with these also there is doubtless opportunity for improvement through selective breeding, although up to the present time no comprehensive experiments in this direction have been made. [134] Hickory Nuts There is marked variation in the size, form, and qualily of the nuts of different hickory trees, even when growing in the same neighborhood. Thus their is good opportunity for selective breeding, but unfortunately the hickory is of such slow growth that few experimenters have the courage to undertake ifs development. The hickory does not ordinarily bear nuls until it is ten or twelve years old. LUTHER BURBANK I have now little doubt that some of the variant hickories that I knew as a boy were hybrids. The two species of hickory are closely related, and I have reason to believe hybridize not infre- quently in the wild state. I have received speci- mens of hickory nuts from different parts of the United States that I feel certain were natural hybrids. And I entertain no doubt that such hybridization occurs not infrequently. It is probable that when the attempt is syste- matically made to develop the hickory nut the method of hybridizing the two species will be employed to give still wider variation and to facilitate a wider selection. Some EnorMovus Hickories There is a variety of the hickory nut that grows in the valleys of the Mississippi and the Ohio that is of relatively enormous size. The shell of this variety, however, is thick, and the meat is not generally as fine in flavor as that of the eastern shellbark hickory. But the size of this wild variety gives assurance that under cultivation and selec- tion the nut may be made to take on proportions that will be very attractive. Doubtless the com- paratively small size of the wild hickory nut has led to its neglect, although we must recall that the walnut and the butternut have also been neglected, notwithstanding their much larger size. [136] ON THE HICKORY NUT The chief reason why these nuts have been overlooked, doubtless, is that the idea of making nuts a cultivated crop, comparable to orchard fruits, has only recently been conceived in America —or at all events has only recently been given general recognition. It is not improbable that it may be found feasible to hybridize the hickory with the black walnut or the butternut. These trees, to be sure, do not belong to the same genus, but they are not very distantly related, and we have seen that generic bounds do not necessarily constitute impassable barriers. Could hybridization be effected between the hickory and either the walnut or the butternut, the product should be a nut of very great value. It would be necessary, of course, to breed selectively, doubtless for a number of generations, to secure size and quality, and in particular to develop a race of thin-shelled nuts. But that all this may be accomplished cannot greatly be in doubt. In any event, the experiment is well worth making. There is reason to expect that the next three or four generations will see somewhat the same rapid progress in the art of developing the nut- bearing trees that has been witnessed in the past three or four in the development of orchard fruits. [137] LUTHER BURBANK And certainly the hickory nut, walnut and butter- nut constitute better native material than the wild plums, for example, with the aid of which some of the finest varieties of cultivated plums have been developed within the most recent years. And, indeed, it must not be forgotten that the work of developing our native nuts has already passed the experimental stage with regard to at least one species. This is the nearest relative of the hickory, a member indeed of the same genus, which is familiar as the pecan. This nut grows only in the southern parts of the United States, being far less hardy than the other hickories. But what it lacks in hardiness it makes up in quality, and it is pretty generally regarded as the best nut that is grown in temperate climates, not even excepting the English walnut. The relationship between the northern hick- ories and the pecan is attested by the fact that in the regions where the two tribes intermingle, they hybridize freely. I have received specimens of the nuts that were undoubtedly hybrids between the shagbark hick- ory and the pecan, and these included two or three varieties that are among the finest nuts that I have ever seen. The seedlings that grew from them included two trees that gave great promise. Unfortunately [138] A Butternut Tree The butternut is an indigenous tree, closely related to the black walnut. As a limber tree, it is inferior to the walnut, but if bears a nut of very exceptional quality. It is to be hoped that someone will make the experiment of hybridizing the butlernut and the walnut. LUTHER BURBANK the gophers destroyed them both. So the experi- ments I had contemplated in connection with them were not carried out. But I am confident that great improvements in the pecan will result from hybridizing this nut with the shagbark hickory. THE CULTIVATION OF THE PECAN Even in its existing varieties, however, the pecan nut has very attractive qualities; and it has the distinction of being the only native nut that has hitherto been placed under cultivation on an extensive scale and has attained commercial importance. We have already referred to the economic importance of this nut in an earlier chapter, and mention was there made of the fact that all the pecans now under cultivation are directly derived from a few wild varieties that have been propa- gated by budding and grafting. It is only in recent years that a method of grafting this nut success- fully has been developed, and as yet little or noth- ing has been done toward improving the wild varieties. The fact that the nut in its wild state has such attractive qualities gives full assurance that under cultivation and development it will prove of even greater value. In selecting the best wild varieties for cultiva- tion, attention has been paid to the matter of early [140] ON THE HICKORY NUT bearing, and in particular to persistent bearing. So the orchards that have recently been started are stocked with trees that may be expected to bear crops of nuts in about seven or eight years, and that may be depended on to produce a crop each year with reasonable certainty. But as to both time of bearing and regularity and abundance of production, there is still opportunity for much improvement. Doubtless improved varieties may be secured through mere selection by raising seedlings from the nuts grown on trees that were especially good bearers. But it is probable, also, that the full pos- sibility of the pecan will not be realized until ex- tensive series of hybridizing experiments have been carried out. I have spoken of the natural hybrids between the pecan and the shagbark hickory. Hitherto, no extensive experiments in hybridizing these species have been carried out, although it is possible that some of the wild varieties of pecans that have been brought into the orchard were natural hybrids. It is to be hoped that experiments along this line will be taken up in the near future, but, of course, many years will be required before notable results can be attained. It is desirable, also, to attempt hybridizing the pecan with the butternut and walnut, and with the [141] A Pecan Tree The pecan is closely related to the hickory, but is a much less hardy tree, being confined to our southern states. It some- times hybridizes with the hickory in the wild state, and it is possible that new and hardy varieties of nuts might be produced by selection among the progeny of such a cross. The pecan ts rapidly assuming importance as a commercial nut. ON YHE HICKORY NUT English walnut and the Japanese walnut. If hybridization could be effected, it may be expected that trees of rapid growth, similar to my hybrid walnuts, will be produced. Not unlikely some varieties that tend to produce nuts at a very early age, like my hybrid chestnuts, may also appear as the result of such combinations. And in any event it may confidently be expected that new varieties will give opportunity for wide selection, and for relatively rapid improvement in the qualities of the nuts themselves. We have learned that the pre-eminent qualities of our various cultivated fruits have largely been given them by hybridization. The contrast between the tiny beech plum, for example, and its gigantic descendant a few gen- erations removed, offers an object lesson in the possibilities of fruit development by hybridizing and selection. And, for that matter, each and every one of our improved varieties of orchard fruits teaches the same lesson, even though the wild progenitor is not at hand for comparison. So there is every reason to expect that the wild pecan will similarly respond to the efforts of the plant developer, and that its descendants, a few generations removed, will take on qualities that even the most sanguine experimenter of to-day would scarcely dare to predict. [143] LUTHER BURBANK One improvement that might probably be secured without great difficulty is the introduction of the quality of hardiness, so that the pecan might be cultivated farther to the north. At present the pecan does not produce profitably as a rule, even in the coast counties of California, as the nights are too cool, thus making the season too short for the pecan to ripen its fruit. About Vacaville they thrive much better, and the Sacramento and San Joaquin Valleys, where the nights are very warm, there is as good prospect of growing the pecan profitably as anywhere else in the world. But in the main the cultivation of this nut has hitherto been restricted to the region of the Gulf of Mexico. It is obviously desirable that so valuable a nut should be adapted to growth in wider territories. The fact that the pecan will hybridize with the hardy hickory obviously points the way to the method through which this end may be attained. The peculiarity of the hickory and pecan that is associated with their long life and slow growth, is the fact that during their first year the. seedlings make perhaps 99 per cent. of their growth under ground. They produce enormous roots before they make any appreciable growth above ground. It is nothing unusual to find pecan seedlings an inch high with roots from four to six feet in length, and an inch in diameter at the widest part. [144] The Hazetnut The hazelnut grows wild in many regions of our eastern and central states, but it is almost never seen under cultivation, There are several varieties, and they would probably repay experi- ments in selective breeding. There is no reason why the hazelnut should not have commercial value if properly cultivated, LUTHER BURBANK Such a root system prepares the tree for the strong growth that characterizes it later; but a seedling that makes only a few inches of growth in the first season is a rather discouraging plant from the standpoint of the cultivator. Doubtless the pecan may be induced to change its habit in this regard by hybridizing. The example of the hybrid walnuts may be cited as showing that a tree that is ordinarily slow of growth may be made to take on the habit of very rapid growth without relinquishing any of its other characteristics of hardiness and the production of valuable timber. The case of the Royal walnut shows also that the tree that thus becomes a rapid grower may also have the habit of enormous productivity. If the pecan could similarly be stimulated to increased rapidity of growth, and to a proportion- ate capacity for nut bearing, this tree would be a fortune-maker for the orchardist. And there is no obvious reason why the pecan should not have the same possibilities of development that have been demonstrated to be part of the endowment of its not very distant relative, the walnut. FILBERTS AND HAZELNUTS There is yet another native American nut as hardy and as widespread as the hickory, that has been even more persistently neglected. This is the familiar hazelnut. [146} ON THE HICKORY NUT There are two familiar types of hazelnut that often grow in the same region, and that resemble each other so closely that the boys who gather the nuts commonly do not discriminate between them. One of these grows in husks with a long beak, while the other has an incurved husk that in some cases does not fully cover the nuts. There are sundry varieties of the two species that may some- times be found growing in the same patch. The fact of such variation in the wild species is of course important from the standpoint of the would-be plant developer. We have learned from frequent repetition that where there is variation there is opportunity for selection and improve- ment. The hazelnut has a European relative that is as familiar in America as the filbert. This is merely a larger hazelnut, the qualities of the two nuts both as to form and flavor being such as to leave no question of their relationship. But for some reason the European nut appears not to thrive in this country. At all events it has never been culti- vated here on a commercial scale. But for that matter the hazelnut has never been cultivated on a scale commercial or otherwise, unless in the most exceptional instances when it has been brought into the garden by some one rather as a curiosity than for any commercial pur- [147] ‘sjnu_ 7091 -doz} sayjo fiupur yjidl sp jjam sp ‘sBaur -]nu ay) yyIM pajzuautlsedza spy yunqing ‘ayy *su076aa udayjiou ur umos6 f7 sspj)6 dapun pajpayyna aq }snur pup sjup}d jyp9ido1; fiz -]soul amp Mays °D91;, 811 Ay snua6 ayy =O} Guo} -3q shaujnu ays Baujnn PUM PUL ON THE HICKORY NUT pose. Yet the nut is a really valuable one, and certainly it is one that would repay cultivation and development. Attempts have been made to grow the Euro- pean filbert in Sonoma County, California, both from seed and from division, but in all cases these attempts have failed. The purple-leaved hazelnut grows and thrives here in California as it does almost everywhere else in the United States. The species known as Corylus rostrata grows wild rather abundantly in certain sections, but so far as I have observed, it is a shy bearer. There is no obvious reason why the European filbert should not be cultivated in this country if a study is made of its needs as to soil and climate. Also, there is no seeming reason why it should not be hybridized with the American hazelnut. The result of such hybridizing, if we may draw infer- ences from analogy, would be the production of a race of hazel-filberts of greatly increased size, and of improved quality. There is a so-called filbert, or Chilean hazelnut, that grows in South America. This plant bears a nut similar to the filbert, but much larger in size and of far better quality. It is difficult, however, to get a start in the cultivation of this plant, as its seeds when brought to this country ordinarily do not germinate. I have at last succeeded, however, [149] LUTHER BURBANK in producing several young trees. The nut is four times as large as the hazel nut. This is a beautiful tree, and should prove of great value. In its own country the plant is very highly prized, selling for a large sum when only a few inches high. The European filbert grows readily from the seed, but does not by any means come true. In- deed, it proves exceedingly variable. But this, of course, from the standpoint of the plant developer could not be regarded as a fault. If through se- lective breeding a variety could be produced that would bear regularly and abundantly, and in par- ticular if the size of the nuts was increased, this would be one of the most important of all nuts. As yet, however, a variety that is adapted to growth in this country has not been produced. So there is abundant opportunity for work on the part of the plant experimenter. With the American hazel and the European filbert for material—whether or not further aid may be expected from the Chilean species—there is opportunity to produce a nut that will amply repay almost any experimenter for the time and labor that may be spent upon it. SoME ForeIcn PossIBILitIES A nut that has come to be fairly well known in the market in recent years, but which has hitherto scarcely been grown in this country, is the [150] A Variety of Tropical Nuts Mr. Burbank has often said that he would like to have a lab- oratory in the _ tropics, where he could erperiment with the vast number of plants that have never been brought under culti- vation. In default of that, he experiments with great numbers of seeds sent him from the tropics. Here are a few specimens among the many, these being tropical nuts with which he chances to be experimenting ai the pres- ent time. Just what will come of these experiments, tt would be futile to predict. LUTHER BURBANK Pistachio. The tree on which this nut grows is a member of the sumac family. The nuts are small, but on the best trees are produced in profusion. In recent years the Department of Agriculture of the United States Government has imported a great number of plants and seeds of the pistachio, which are now being grown experimentally, and which, it is hoped, will form the basis of an ex- tensive culture of this nut. The experiment has not as yet progressed far enough to make predic- tion possible as to the results. My own experience with the nut is limited to the growing of a single plant about twenty-five years ago, which, after I had cultivated it for a dozen years was found not to be a fruiting variety, and so was destroyed. An Australian tree-shrub or small tree, called the Macadamia ternifolia, has been introduced in California in recent years, and is regarded as a valuable acquisition. The tree is ornamental, and it bears a fruit that is regarded as of value. At the center of the fruit is a round, delicious nut, much larger than the ordinary filbert, indeed, sometimes almost equaling a small English walnut, that is fully equal in flavor to the best filbert or almond. The Macadamia has proved hardy in this vicinity, but requires a well-drained soil. A wet winter is very destructive to the trees, unless they are on dry, well-drained land. [152] ON THE HICKORY NUT There are several species of Macadamia, the one that I have raised most extensively being known as Macadamia ternifolia. This is a hand- some evergreen, the leaves of which resemble those of the magnolia, but are thinner and rougher. The nuts are often an inch in diameter, with rather thin shells, and large, round, delicious meats. Further tests will be necessary before the climatic limitations of the Macadamia are fully established. But in regions where it can be grown, it must prove a nut of very great value. —The prospect of improving the product of a tree that does not bear until it is ten or fif- teen years old, is not alluring, considering the short span of the human life; yet we can scarcely doubt that even the hickory nut will presently be brought into the dominion of the plant experimenter. om 5 Pa j f_ Hines 3 OE BO He A Maple Tree Maples of various species are among the most attractive of our indigenous trees. They are ornamental in our parks and dooryards, some of them furnish timber of very high grade, and one of them furnishes a sap that is transformed into the most de- lectable of sugars. The California species here shown is chiefly prized for its ornamental qualities. ON GROWING TREES FOR LUMBER IpEAS ON ProriTaBLeE RE-FORESTRATION GOOD many years ago I had a talk with an A official connected with the Department of Forestry, at Washington, in which I sug- gested that the problems of his department could best be met by the development of new types of forest trees. The official regarded the suggestion as grotesque. In common with nearly everyone else at that time he looked upon the tree as a fixed product of nature, quite beyond the possibilities of any change that man could direct. That was the time when Darwinism, although it had pretty fully established itself in the scien- tific world, was still on trial in the minds of the people in general. And even those who accepted the general truth of the Darwinian doctrine of. evolution for the most part did not realize that evolution is a process that is going on about us [VotumE XI—Cwapter VI] LUTHER BURBANK to-day along the same lines that have character- ized it in the past. To accept the doctrine of evolution at all re- quired the overturning of the most fundamental ideas. After the conception had been grasped that in the past there had been eras of change and development, it was a long time before even the most imaginative scientist fully grasped the notion that our age also is a time of change and transi- tion, and that the metamorphoses of plants and animals through which new forms have evolved in the past are being duplicated under our eyes in our own time. And in particular, as regards so massive and seemingly stable a structure as the tree, was it peculiarly difficult for botanists to conceive of flexibility and propensity to change, or to evolve, in the present time. It is true that no very keen eye was required to observe that trees differ among themselves within the same species, but it is also true that these divergencies always fall within certain lim- its and that on the whole they may be regarded as insignificant when weighed in the balance against numberless characteristics in regard to which the trees of a species seem practically identical. Take, for example, all the individuals that one could observe of, let us say, the common shagbark [156] ‘ pn te Saean gta Two Cypresses Here the Australian cypress is shown growing side by side with an wnidentified variety. Note the very striking contrast in the foliage of the two species; but note also how the two show rela- tionship in their tendency to towering, slender growth. The central stalk of each tree is as straight as the traditional arrow. LUTHER BURBANK hickory, the variations of which were referred to in the preceding chapter. Attention was called to the fact that the hickories that I used to observe as a boy in the neighborhood of my New England home differed a good deal in size and form, and that the nuts that they bore were sometimes oval, sometimes rounded in form, sometimes rough, sometimes smooth, sometimes thick, and some- times thin of shell, and equally diversified as to the quality of their meat. But of course I should be foremost to admit that all these diversities were in the aggregate of minor significance in compari- son with the characteristics that even the most divergent of the hickories had in common each with all the rest. All of them were trees that attained a fair size as trees go. All have roots and trunks and branches of the same general form and aspect—as much alike, for example, as the bodies and arms and legs of human beings. All of them had leaves that could at once be distinguished as being leaves of the hickory and of no other tree. All had bark with the same characteristic whit- ish color and the same propensity to scale off in layers; and although the bark of some was much rougher than that of others, any fragment of bark of any hickory tree could readily enough be dis- [158] ON TIMBER TREES tinguished as characteristic of the species, and as not by any chance having grown on any other kind of tree. Then, too, if the hickory tree were felled and cut into fire wood, the texture and fiber of the wood itself enabled anyone who glanced at it to pronounce it hickory as definitely and with as much certitude as if he had seen the tree while living and in full leaf. No other wood had quite the same whiteness, quite the same strength and elasticity of fiber. The Indians had learned this in the old days, and had used the hickory of a preference always in making their bows. We boys, in our barbaric age, followed the Indians ’example. We knew that a bow of hickory had shooting qualities that no other bow could hope to match. All in all, then, the hickory, despite the triviali- ties of variation which are mentioned in the pre- ceding chapter, stands apart when we come to scrutinize it comprehensively, as a tree differing from all others and obviously entitled to stand as a unified and differentiated species. And what is true of the hickory is no less true of each and every species of tree in our forest. Each walnut and oak and beech and birch and pine and linden and locust has a thousand points [159] A Hybrid Evergreen This is a cross between the cypress and the juniper. Mr. Burbank notes that our evergreen trees frequently hybridize in a state of nature. This is not strange, considering that the conifers send out their pollen in clouds to be scattered at random by the winds. ON TIMBER TREES of unison with every other member of its own species, could we analyze its characteristics in detail, for every conspicuous point of divergence. If we consider minutiae of detail as to size and exact form of leaf and all the rest, no two individ- uals are identical. But if, on the other hand, we take the broad view, it is clear that each recognized species stands out in a place apart, grouped with all the other members of its own kind, and some- what isolated from all other species. Such being the obvious fact, it was perhaps not strange that the botanists and foresters of twenty- five years ago looked almost with suspicion on anyone who suggested that the different species of forest trees might be interbred and modified and used as material for building of new species that would better fulfill the conditions of re-forestra- tion than any existing species. Even botanists who thought that they fully grasped the idea of Darwinian evolution looked askance at such a suggestion. It seemed to bid defiance to the laws of heredity, as they understood them. It appeared almost like an affront to Nature herself to suggest that her handiwork might thus be modified and improved. MATERIALS For SELECTION And it may well be questioned whether this [161] LUTHER BURBANK point of view would have been altered even to this day had it not been for a conspicuous and notable demonstration of the possibility of modi- fying existing species of trees. The demonstration was made when I took pollen from the flower of a Persian walnut and transferred it to the pistils of the California black walnut. Here were two species of trees so notably different in form and shape of leaf and fruit and color of wood that not even the most casual observer could confound them. They were not even natives of the same continent, and no botanist would claim that they were as closely related as are many species of forest trees that grow side by side in our woodlands and maintain unchallenged their specific identity. Yet when these two trees were cross-pollenized they produced fertile nuts, and trees of a new order grew from these fertile seeds. The barriers between these not very closely related species were broken down, and a new type of forest tree was produced that differed so mark- edly from either parent that no one could con- found it with either, and that excelled both in the capacity for rapid growth so conspicuously as to seem to belong not merely to a different species but to an entirely different tribe of trees. [162] A Young Eucalyptus Tree Several species of eucalyptus have been introduced into California from the southern hemisphere, This speci- men shows the remarkable symmetry and gracefulness of the eucalyp- tus when grown by itself. LUTHER BURBANK The reader has already learned details of the history of this Paradox walnut, and we shall have something more to say of it in connection with a further interpretation of the laws of heredity, in a subsequent chapter. Here I refer to it only in connection with the demonstration it gave of the possibility that new types of forest trees might be developed by hybrid- ization and selection, quite as had been claimed in the comment that aroused such skeptical and even sarcastic response from the professional forester. But, as I said, after this demonstration had been made, it was no longer possible even for the hidebound conservatist to deny the possibility that forest trees, like other plants, are somewhat plastic materials in the hands of the plant developer. And in course of time it came to be recognized —though even now the knowledge has scarcely been acted on—that the new idea given by obser- vation of the Paradox walnut could be utilized for the practical purpose of supplying us timber trees that might be expected to re-stock our woodland in a fraction of the time that would be required for the growing of trees of unmodified wild species. The row of Paradox walnut trees which at fifteen years of age were two feet in diameter and towered as beautiful and symmetrical trees to the height of sixty feet, standing just across the street [164] ON TIMBER TREES from their Persian parent, which, at thirty-two years of age was nine inches in diameter and per- haps forty feet high, afforded an object lesson that even the most skeptical could not ignore. “If new trees are needed to make forests to supply the place of those that your thoughtless for- bears have destroyed,” the trees seem to say, “why not call upon me and my fellows?” And to such a question there seems but one rational response. The Paradox hybrid and its fellows must be called upon to re-stock the rav- aged timber lands of America. New hybrids must be produced by the union of varied species of pines, oaks, and elms, and other timber and orna- mental trees, to give diversity to the landscape and to supply different types of wood for the uses of carpenter and cabinet-maker. The Paradox walnut stood there—and still stands—as the working model for a new order of mechanism—a timber tree that shall be able to re-forestrate a treeless region in half a human generation with a growth ready for the axe and saw of the lumberman. THe Materials At HaNnp In preparing this new material for the making of forest trees, it will be possible, no doubt, to bring trees from foreign lands, either for direct transplantation or as hybridizing agents. [165] ad A Row of Eucalyptus Trees The eucalyptus is a tree of astonishingly rapid growth, notwithstanding which its wood is hard and durable. The tree has such vitality that it sends out new shoots that rapidly attain treee like proportions, even when the trunk is cut close to the ground. ON TIMBER TREES Thus, as we have seen, one of the parents of the Paradoy walnut was a tree not indigenous to America. But we may recall also that another hybrid walnut, the Royai, which sprang from the union of two indigenous species, the black walnut of the Eastern United States and the black walnut of California, rivals the Paradox in its capacity for rapid and gigantic growth. So it is obvious that we are by no means reduced to the necessity of making requisition on foreign lands for material with which to develop our new races of quick-growing forest trees. But, on the other hand, the plant developer is always willing, like Moliere, to take his own where he finds it. So if foreign species can be found that will hybridize advantageously with our native species, they will of course be welcomed. The reader will recall that I have invoked the aid of numberless exotic fruit trees and vegetables and flower bearers in the course of my experiments in plant development. There is every reason to expect that equal advantage will result from the utilization of forest trees from, let us say, Siberia in one hemisphere and Australia in the other to blend with the strains of American species. In some cases it will be possible to bring the foreign species and acclimate them without hybrid- ization. This has been done with several species [167] LUTHER BURBANK of eucalyptus which have been brought to Cali- fornia from Australia and have proved a wonder- ful addition to the ranks of our ornamental and timber trees. Everyone who visits California marvels at the eucalyptus, and those of us who watch it year after year marvel equally, because this tree has capacity for growth that seems little less than magical. No other trees, perhaps, ever seen in America, with the exception of the hybrid walnuts, have such capacity to add to their stature and girth year by year as has the eucalyptus. Moreover the eucalyptus may be cut down for timber, its trunk severed only a few inches above the ground; and it will send forth shoots that dart into the air and transform themselves into new trunks, each seeming to strive to rival the old one. From the roots of the fallen giant spring a galaxy of new giants, and each new shoot assumes the proportions of a tree with almost unbelievable celerity. Add that the wood of the eucalyptus, notwith- standing its rapid growth, is of the very hardest, and the remarkable character of this importation from the Southern Hemisphere will be more clearly realized. Unfortunately the eucalyptus is sensitive to cold; otherwise it would at once offer a solution of [168] In Mariposa Grove of Big Trees The picture shows a Sequoia, or big tree, in the midst of various pines. Note the distinctive color, as well as the characteristic form of the Sequoia. LUTHER BURBANK the problem of re-forestration throughout the whole of the United States. Perhaps the eucalyptus may be made more hardy by hybridizing and selection. If not, we must take to heart the lessons it gives—in common with the hybrid walnuts—as to the possibility that a tree may show almost abnormal capacity for rapid growth and at the same time may produce lumber of the hardest texture. Hitherto it has generally been supposed that a tree of rapid growth would as a matter of course produce soft timber. The hybrid walnuts and the various eucalyptus trees serve to dispel that fallacy. NaTIVE MATERIALS The one fault of the eucalyptus, its inability to stand extreme cold, is likely to be shared by other trees that are imported from the southern hemis- phere or from sub-tropical regions of our own hemisphere. Although, as just suggested, it may be possible to overcome this fault through selective breeding, a long series of experiments will doubtless be necessary before this can be accomplished. In the meantime we shall be obliged to place chief dependence, in all probability, upon our native stock of trees, hybridized perhaps with allied species of Europe and northern Asia. [170} Yellow Pine There are said to be more species of conifers in California than in all the rest of the world; and the very best of these, from the standpoint of the lumber man is the yellow pine, here shown. Note the absolutely straight trunk, holding almost the same size toagreal height. Observe also that this ts a very large tree, although not of course competing with the Sequoia and the redwood. LUTHER BURBANK But, even so, there is no dearth of material. America is richly stocked with forest trees. More- over these represent, so the geological botanists assure us, a flora of very ancient origin which has shown its capacity to maintain itself through suc- cessive eras during which there have been tremen- dous climatic changes. It follows that our native forest trees have in their heredity the reminiscence of many and widely varying environments. And by the same token they have capacity for variation, and there- fore afford exceptional opportunity for diversified development. It is not necessary here to analyze in great detail the qualities of the different groups of forest trees. A brief summary of the characteristics of a few of the more important groups will serve to suggest the abundance of native material, and to give at least an inkling as to what may be ex- pected, in the light of what was revealed by the experiments with the walnuts, as to possibilities of development of the different tribes. Of course the great family of cone-bearers stands in the foreground, represented by many species, and known as the timber trees that give us the pine lumber which has everywhere been the chief material for the carpenter, and an important foundation material for the cabinet-maker. [172] ON TIMBER TREES We have but to recall the giant sequoia and redwood of California, the largest trees existing anywhere in the world, to be made aware of the possibilities of growth that are present in the racial strains of the family of cone-bearers. And even if these giants shall be regarded as representatives of an antique order that has outlived its era, there remain numerous pines and firs and hemlocks of magnificent proportions to test the skill of the plant developer for their betterment. Moreover there is every probability that red- wood and big tree may be crossed, and a variety produced that will be adapted to the new condi- tions, and which will outgrow all other trees. Nothing could be easier than to cross-pollenize members of this tribe, inasmuch as the pollen is produced in the utmost profusion, and the pistil- late flowers are exposed when mature in the nascent cones awaiting fructification. That cross- fertilization occurs among the wild trees through the agency of the wind is a matter of course. Doubtless there are hybrid species of pines and their allies, everywhere often unrecognized or classified as good species. Quite large forests mostly composed of hybrid cypresses are found in California, and the oaks are known to hybridize frequently; also the eucalyptus trees of various species. [173] A Petrified Pine This tree is one of a large number in the petrified forest near Santa Rosa. The trees were overthrown by an earthquake and covered with volcanic ashes at a remote period of the past, and many of them became perfect petrefactions.