BY D. T. MACDOUGAL ASSISTED BY A. M. VAIL, G. H. SHULL AND J. K. SMALL WASHINGTON, D. C.: Published by the Carnegie Institution of Washington 1905 MUTANTS AND HYBRIDS OF THE OENOTHERAS. BY D. T. MACDOUGAL ASSISTED BY A. M. VAIL, G. H. SHULL AND J. K. SMALL WASHINGTON, D. C. : Published by the Carnegie Institution of Washington 1905 CARNEGIE INSTITUTION OF WASHINGTON, PUBLICATION No. 24, PAPERS OF STATION FOR EXPERIMENTAL EVOLUTION AT COLD SPRING HARBOR, NEW YORK. No. 2. PRESS OF HENRY E. WILKENS PRINTING CO. WASHINGTON, D. C. PLATE I. o „ BY D. T. MACDOUGAL ASSISTED BY A. M. VAIL, G. H. SHULL,! AND J. K. SMALL PURPOSE AND SCOPE OF INVESTIGATIONS. The more important features of the investigations of De Vries in which lines of descent were seen to originate, which embodied new qualities and groupings of characters, constant and fully transmissible, are now so familiar to all naturalists that no rehearsal is necessary in the present paper. Early in 1902 the senior author received seeds of the Lamarck's evening-primrose, and these, with seeds of various species obtained directly from their native habitats in North America, were cultivated in the New York Botanical Garden, in which the con- ditions of soil and climate are, of course, widely different from those of the botanical garden at Amsterdam, Holland. Among other primary purposes of the cultures it was deemed of great importance that the mutants should be tested as to their stability when grown as biennials after the predominant habit of the genus. The results of this test, together with detailed descriptions of three of the mutants, have already been given in an article in which occasion was taken to set forth briefly the principal tenets of the mutation theory as propounded by De Vries (MacDougal, 1903). It was found that the mutant forms were not only physiologically differentiated, but were also easily separable from one another and from the parental type when tested by accepted taxonomic criteria, and by an examination of the features of their life-histories. Furthermore, all the forms came true to their newly assumed groupings of characters without reversions, and *T'he contents of this paper were presented before the weekly botanical con- vention at the New York Botanical Garden, October 19, 1904. fOf the staff of the Station for Experimental Evolution of the Carnegie Institution of Washington, Cold Spring Harbor, Long Island, N. Y. 4 MUTANTS AND HYBRIDS OF THE OENOTHERAS. exhibited only fluctuating variations of ordinary amplitude, although the last-named feature was not examined by statistical methods. An investigation of this feature is described in the present paper. During the earlier cultures, plans were formulated for a somewhat inclusive investigation of the genetic relationships of the various members of the genus, and of the variations, or mutations, which might be found to occur in O. lamarckiana in America, and in the other species of the group. To this end correspondence was estab- lished with collectors in various parts of America and Europe, and material was obtained from such distant points as New Zealand, Mexico, Holland, and Japan. A supply of paraffined paper bags was furnished by Professor De Vries, and later those manufactured for the Station for Experimental Evolution at Cold Spring Harbor were used for inclosing the inflorescences, by which absolutely pure crops of seeds of the species, as well as of the various hybrids, were obtained. All sowings of seeds were made in soil sterilized in an autoclav for three or four hours. A number of the parcels of earth treated in this manner were moistened and kept under proper conditions, but in no instance were any germinations of other oenotheras seen . In order to economize time it was found most convenient to grow the evening- primroses as annuals, which may be done by germinating the seeds in a propagating house and then transplanting them to the experimental grounds early in May. The earlier cultures were begun about Jan- uary i , but it was found that ample time for the entire development of the plant was obtained if the sowings were made late in February or early in March. The portions of the general investigation in which such progress has been made as to warrant the publication of the present paper are as follows : (1) Determination of the ancestral habitat and dissemination of Onagra (Oenothera) lamarckiana. (2) Description of such species of Onagra (Oenothera*) as have been kept under cultivation for one or two seasons in order to facili- tate observation of possible mutants. (3) Analysis of the relationship between O. lamarckiana and other species of the genus by means of hybridizations. (4) Estimation of the dominance of parental characters in hybrids of 0. lamarckiana X 0. biennis and O. lamarckiana X O. cruriata. (5) Determination of the recurrence and stability of mutants of the oenotheras ; description of O. gigas as cultivated in the New York Botanical Garden. (6) Estimation of the fluctuating variability of some of the char- acters of 0 . lamarckiana^ 0. nanella, and O. rubrinervis. PLATE II. Large-flowered Evening Primrose, figured in Barton's Flora of North America, resembling Onagra lamarckiana. MUTANTS AND HYBRIDS OF THE OENOTHERAS. 5 DERIVATION OF ONAGRA (OENOTHERA) LAMARCKIANA. As a result of the earlier examination of material in a few her- baria in Europe and America no specimens of O. lamarckiana were found that had been grown in America, and it was suggested that it might have been originally native to a restricted range in Virginia from which it had been exterminated. The inquiry upon this phase of the investigation has been continued however, with the result that many historical records, as well as some fairly well authenticated material, have been found. Barton (1821) describes an oenothera under the name of O. grandiflora in his Flora of North America, which, with the accom- panying plate, well represents O. lamarckiana. (PL II.) This plant is described as " native in the woods and fields, and about habi- tations, in Carolina and Georgia, flowering from May to August." The fact is recalled by Barton that Elliott restricted the habitat of this form "to the vicinity of habitations in South Carolina and Georgia, remarking that it is certainly not indigenous in the low country." Pursh (1814) had previously described an O. grandiflora similar to that mentioned by Bartram, as "in woods and fields of Carolina," and with ' ' flowers larger than any other of the North American species, and of an agreeable scent." The Floral Magazine for 1862 gives a plate of Oenothera lamarck- iana with some notes on the species from which the following is quoted: The one now figured was grown by Messrs. Carter & Co., the well-known seedsmen of High Holborn and of the Crystal Palace nursery, Forest Hill. To them we are indebted for the following particulars (Dombrain, 1862): We received, about four years ago, some seed from Texas unnamed. When we had flowered it we sent some blooms to Dr. Lindley, who pronounced it to be Oenothera lamarckiana, a species we believe introduced into England by Mr. Drummond. Its height is between 3 and 4 feet; it blooms the first year, is a very hardy biennial, and is superior to any other Oenothera in the size and num- ber of its blossoms, which measure 4 inches in 'diameter. A reproduction of the same plate is to be found in I/ Illustration Horticole for 1862, together with a discussion of the origin and rela- tionships of the various species and a citation of the statements quoted above. (Lemaire, 1862.) A specimen in the Gray Herbarium of Harvard University was examined which agrees perfectly with O. lamarckiana. From the inscription, which is in Dr. Asa Gray's handwriting, it appears that this plant was grown from seed in the botanical garden at Cambridge, Mass., in 1862. The sheet also bears the note, " Said by English hor- O MUTANTS AND HYBRIDS OF THE OENOTHERAS. ticulturists to come from Texas," and also "Oe. lamarckiana," all by Dr. Gray. It is to be noted that the date of the above culture agrees with that of the Drummond plants in England mentioned above. The second phase of the effort to trace O. lamarckiana to its original habitat was directed to an examination of the material to be found in the American herbaria and to excursions to some of the his- torical locations. Several specimens of prime interest were encoun- tered. A specimen collected by A. W. Chapman in Florida, and sent by him to Europe, becoming a part of the Meissner herbarium which was afterward purchased by Columbia University, was thought by Professor De Vries to be O. lamarckiana, and the mark on the sheet shows that it was used by Chapman (1860, 1872, 1884) in making up the description of O. biennis in the editions of his southern flora, in which O. grandiflora Ait. was given as a synonym in the editions of 1860 and 1862, but does not appear in the later edition of 1897. In the description he says : ' ' Varies greatly in pubescence and size of flower," while the habitat is given as "Fields and waste places." The elimination of the synonym from the last edition of the book can not be accounted for, although the plant was presumably growing in a wild condition. A duplicate of the specimen mentioned above is reported by Mr. C. D. Beadle to be in the Biltmore Herbarium at Biltmore, N. C. A similar specimen is to be found in the herbarium of the Missouri Botanical Garden. During the visit of Professor De Vries to America in the summer of 1904 he joined in the quest for specimens of O. lamarckiana and called attention to a sheet of material in the herbarium of the Phila- delphia Academy of Sciences, collected by C. W. Short near Lexington, Ky., which he considered as 0 . lamarckiana , and which was grown wild in the locality recorded. The co-operation of a number of botanists in various parts of the supposed range of the species was secured and a thorough search was made in the vicinity of Nashville, Tenn., by Prof. Geo. A. Martin ; in the vicinity of Knoxville, Tenn., by Prof. S. M. Bain; in the vicinity of Lexington, Ky., by Prof. H. Garman ; and in the vicinity of Courtney, Mo., by Mr. B. F. Bush. Up to the present time, how- ever, no living plants have been found that might be included within the descriptions of O. lamarckiana. The above evidence makes it fairly conclusive, however, that the large-flowered evening-primose which formed the basal material for the experimental researches of De Vries is, or was, a component part of the flora of North America and has been seen in the Carolinas, Florida, Kentucky, and Texas during the last century, and that material from Texas examined by L,indley fairly represents the MUTANTS AND HYBRIDS OF THE OENOTHERAS. 7 species. The main line of descent has endured practically unchanged for a period of 116 years in European gardens, and was first observed to exhibit mutations resulting in the production of new elementary species as early as 1887, although but little doubt exists that this was by no means the beginning of its period of mutability. REDISCOVERY OF O. GRANDIFLORA (AiT.) VAIL IN AMERICA. During the course of the investigation of the records it became evident that one or more large-flowered evening-primroses not recog- nized in local floras had been found in southern United States at various times,. One of the most interesting of these discoveries was that of Bartram referring to a locality on the east bank of the Alabama River above Mobile and between that place and the junction of the Alabama and Tombigbee rivers. He says : Early one morning, passing along by some old uncultivated fields, a few miles above Taensa, I was struck with surprise at the appearance of a blooming plant, gilded with the richest golden yellow; stepping on shore, I discovered it to ibe a new species of the Oenothera (Oenothera grandiflora, caule erecto, ramoso, piloso, 7, 8 pedalis, foliis semi-amplexi-caulibus, Janceolatis, serratodentatis, flori- bus magnis, fulgidis, sessilibus, capsulis cylindricis, 4 angulis,) perhaps the most pompous and brilliant (herbaceous plant yet known to exist. It is an annual or biennial, rising erect seven or eight feet, branching on all sides from near the earth upwards, the .lower branches extensive, and the succeeding gradually shorter to the top of the plant, 'forming a pyramid in figure ; the leaves are of a broad lanceolate shape, dentated or deeply serrated, terminating with a slender point, and of a deep full green color; the large slender flowers that so ornament this plant, are of a splendid perfect yellow color ; but when they contract again before they drop off, the underside of the petails next the calyx becomes of a reddish flesh-color, inclining to vermilion ; the flowers begin to open in the evening, are fully expanded during the night, and are in their beauty next morning, but close and wither before noon. There is a daily profuse succession for many weeks, and one single plant at the same instant presents to view many hundred flowers. I have measured these flowers above five inches in diameter; they 'have an agree- able scent. After leaving these splendid fields of the golden Oenothera, I passed by old deserted plantations and high forests, etc. Bartram's expedition was undertaken "At the request of Dr. Fothergill, of London, to search the Floridas and the western parts of Carolina and Georgia, for the discovery of rare and useful products of nature, chiefly in the vegetable kingdom. In April, 1773, I embarked for Charleston, South Carolina, on board the brigantine, Charleston Packet, Captain Wright," etc. (Bartram, 1793, pp. 404-405.) Seeds of the above plant were evidently sent to Fothergill, and the following is the original description of the plant by Alton, made from specimens grown at Kew. He says "grandiflora 2. Oe. foliis ovato-lanceolatis, staminibus declinatis, caule fruticoso, L ' Herit. MUTANTS AND HYBRIDS OF THE OENOTHERAS. stirp. nov. Tom. 2. tab. 4. Great-flowered Oenothera, Nat. of North America. Introd. 1778 by John Fothergill, M. D. Fl. July and August" (Alton, 1879). It being deemed very important that a visit to the locality men- tioned by Bartram should be made, Prof. S. M. Tracy, of Biloxi, Miss., generously undertook to make the search. In accordance with arrangements he proceeded up the Alabama River on August 16, 1904, and five days later came upon the plant not far from the original locality. Professor Tracy has kindly prepared the following report : The locality for this plant, as given by Bartram, was " a few miles above Taensa." The country immediately about Tensaw is mostly the dry, pine hills common in that section, and a careful search for several miles about the town did not reveal a single plant belonging to the Epilobiacese. Fort Mimms, 5 miles from Tensaw on the bank of the Alabama River, was doubtless Bartram' s head- quarters while he was in that part of the State, but a careful search of the river for some miles failed of results. Dixie Landing, 25 miles above Fort Mimms by river, and 13 by road from Tensaw, was the first place where the plant was seen. Immediately below the steamboat landing there is quite a stretch of abandoned fields covered with a dense growth of Chamaecrista robusta from 4 to 5 feet in height, and those plants are thoroughly tangled with Bradburya virginiana, which makes walking exceedingly difficult. The evening-primrose was found as an occa- sional plant in this growth, the first plants being seen about a quarter of a mile below the landing, and others being found more or less abundantly for more than a mile down the river. When growing in the thick weeds the plants were mostly erect, with simple stems, a few of which were beginning to branch at the top. A few plants were found immediately on the river bank, and even on the sides of the almost perpendicular bank, which is about 20 feet 'high, and when growing in that location were, as Bartram describes them, " Rising erect 7 or 8 feet, branch- ing on all sides from, near the earth upwards, the lower branches extensive, and the succeeding gradually shorter to the top of the plant, forming a pyramid in figure." The largest plant ,found measured 8 feet 9 inches in height. No small plants were found, and from the root and stem characters the plant is doubtless an annual No plants were found more than 200 yards from the bank of the river, and only a few plants were found in the shade of trees. .Hundreds of plants were examined, but no mature seed could be found. A visit to Earle's Landing, 5 miles below Dixie Landing, showed the plant to be fairly abundant there also. In nearly all cases they grew on alluvial soil, which was sandy rather than heavy, and none was found near wet or marshy places. The river bank was examined nearly the whole of the distance from Dixie to Earle's Landing, and the plant was not rare on open ground covered with Chamae- crista, but was not seen in any other location. All of the region examined was on the east bank of the Alabama River. A gentleman owning land immediately opposite Dixie informed me that it grew in one place on the west bank. A large number of herbarium specimens were prepared by Pro- fessor Tracy, all of which were forwarded to the New York Botanical Garden for examination, and from which seeds were obtained suitable for cultures which promise to be of great service in comparisons with the other large-flowered species of the evening-primroses. PLATE III. Fig. i. Rosette of Onagra biennis five months old. Fig. 2. Rosette of Onagra cruciata five months old. MUTANTS AND HYBRIDS OF THE OENOTHERAS. 9 ONAGRA (OENOTHERA) BIENNIS (I,.) SCOP. Many collectors and taxonomists include a number of elementary species in Onagra biennis and attribute to it an extremely wide range of fluctuating variability. On the other hand, workers who have carried on cultural experiments with individuals representing a typical elementary species describe it as fluctuating between very narrow limits. The actual inclusion of the species is not so important, in connection with the present investigation, as the degree of constancy of the various strains grouped around the species and sometimes included in it. In order to carry on observations on these points, and upon " the changes produced by cultivation," upon which some systematists lay so much stress, a number of plants of 0. biennis (in the strictest sense), growing in uncultivated land in the New York Botanical Garden in 1903, were selected to form the basis of a pedigree-culture in 1904. Seeds were duly harvested at the end of the season and sown in the propagating house early in January. The plantlets were transferred to the experimental grounds late in May and began to bloom early in July. The species was thus grown as an annual during a season of about nine months in soil rich with fertilizers. Furthermore, the individuals were placed in rows, over a meter apart, and were kept free from the competition of weeds. Briefly stated, it may be said that in no single feature, nor in any instance, did these plants transgress the measurements, or show different forms of organs, from those of wild specimens in the vicinity. The size of the leaves, the amount of the pubescence, the size of the flowers and capsules, and the formation of the branches are capable of modification by soil-moisture, humidity, intensity of illumination, and competition, as in thousands of other well-defined species, but these modifications did not bring the species nearer in aggregate character to any of the closely allied forms. Exact records and observations were kept during the entire life-histories of the individuals, by the aid of which the following description has been prepared : Seedling about two months old. — Leaves nearly glabrous ; blades oval to oblong-oval, the larger ones about 10 mm. wide, obtuse at the apex, each rather gradually narrowed into a petiole (fig. i) . Seedling five months old. — Rosette open ; leaves rather copiously fine-pubescent; blades oblong to elliptic, the larger ones fully 2.5 cm. wide, quite approximately repand-denticulate, with the teeth more pronounced at the base, acute at the apex, each narrowed into a short petiole. (PL III, fig. i.) Mature rosette. — Leaves ample, rather copiously fine-pubescent, the larger ones about 27 cm. long, 6 to 7 cm. wide ; blades oblong to IO MUTANTS AND HYBRIDS OF THE OENOTHERAS. elliptic, or slightly broadened upwards, unevenly repand-denticulate and mostly rather jagged-toothed near the base, the petioles relatively stout. Adult plant (Pis, IV and V). — Plant luxuriant, mostly i meter tall, or less. Stem slightly uneven, but scarcely channeled, hirsute, with spreading-ascending somewhat rigid hairs, copiously branched throughout, the lower branches decumbent, the upper ones spreading or curved upward ;* leaves very numerous, 1.5 to 2 dm. long near the base of the stem ; blades elliptic-oblanceolate to elliptic-lanceolate; shallowly but rather prominently toothed, and often j a g g e d - toothed near the base, acuminate, those of the upper cauline leaves mostly elliptic, acute, sessile, or nearly so; bracts mainly lanceolate, narrowed or rounded at the base ; conic por- tion of the bud 14 to 18 mm. long, finely pubescent, the free tips of the sepals about 2 mm. long ; hypanthium 2 to 3 cm. long, 5 to 6 mm. wide at the mouth, nearly terete, sparingly pubescent or glabrate ; sepals 15 to 20 mm. long, much shorter than the tubular portion of the hypanthium, the free tips 4 to 5 mm. long ; petals rather delicate, 12 to 16 mm. long, truncate or slightly emarginate at the apex; filaments 8 to 10 mm. long; anthers 7 to 8 mm. long ; pistil shorter than the stamens; stigmas 4 to 5 mm. long; capsule 3 to 3.5 cm. long, 7 to 7.5 mm. in diameter at the thickest point, finely pubescent, slightly curved, markedly narrowed at the apex. (PI. VI.) It is to be seen from the above description that O. bicnnis is capable of self-fertilization by reason of the superior length of the stamens, a fact that was demonstrated in the experimental grounds. To secure purely fertilized seeds it was only necessary to inclose the inflorescence in a parchment bag during the opening of the flowers. Fig, 1. — Onagra biennis seedling three months after germination. *Plants growing in thickets are more spindling and have the lower branches suppressed, while the young rosettes are luxuriant, with broader leaves, under such circumstances. PLATE IV. Onagra biennis, wild specimen, grown in competition with other meadow plants. PLATE V. MUTANTS AND HYBRIDS OF THE OENOTHERAS. II After an examination of material in the field in America in the summer of 1904, Professor De Vries informs the authors that the O. biennis used in his breeding experiments at Amsterdam differs from the foregoing, and is to be included with a form usually termed O. biennis grandiflora by collectors. The exact relationship of the two has not yet been carefully determined. ONAGRA ARGILLICOLA MACKENZIE. Within the last year a new wild species of evening-primrose has been brought to notice from the mountains of Virginia and West Vir- ginia, being described by Mr. K. K. MacKenzie as " one of the most noticeable and common plants on the line of the Chesapeake and Ohio Railroad on both sides of the boundary line between Virginia and West Virginia." It has also been collected by Mrs. L. F. Ward, at "Alleghany," W. Va., and by Mr. and Mrs. E. S. Steele at Sweet Springs, W. Va., and the cultures in the New York Botanical Garden were begun with seeds from the latter locality. The following descrip- tion has been compiled from observations on living plants of the resultant cultures : Seedling about two months old. — Leaves minutely pubescent, copi- ously so near the base ; blades oblong or elliptic-oblong, the larger ones less than i cm. wide, obtuse, each gradually narrowed into a copiously pubescent petiole. Seedling Jive months old. — Rosette relatively lax ; leaves minutely pubescent; blades spatulate to narrowly linear-spatulate, the larger ones over 25 cm. long, 2 to 2.5 cm. wide, repand, more distantly so and with more pronounced teeth near the base, each gradually nar- rowed into a long petiole. Mature rosette. — Leaves numerous and conspicuously elongated ; glabrous, or nearly so, except the sparingly ciliate margins, the larger ones over 40 cm. long, 2 to 2.5 cm. wide; blades broadly linear to linear-spatulate, sinuate, the teeth slightly more pronounced near the base; petioles relatively stout. Adult plant. — Plant rather luxuriant, depressed in habit. Stems suppressed or very short, the branches radiate, decumbent, not chan- nelled, somewhat tortuous, mainly 6 to 12 dm. long, puberulent and pubescent, with few spreading or ascending hairs ; leaves very numerous, 10 to 15 cm. long on the lower part of the branches ; blades undulate, or repand-denticulate, those on the lower part of the branches broadly linear to narrowly linear-oblong, acute or short-acuminate, each nar- rowed into a semi-terete petiole, those of the upper cauline leaves similar to those of the lower, but relatively shorter and broader, and 12 MUTANTS AND HYBRIDS OF THE OENOTHERAS. sometimes inclined to be linear-lanceolate, sessile or short-petioled ; bracts lanceolate, truncate at the base, shorter than the hypanthium ; conic portion of the bud about 4 cm. long, glabrous, the free tips of the sepals subulate, approximate at the base, but ascending ; hypan- thium 4 to 5 cm. long, about 6 mm. wide at the mouth, ridged, gla- brous ; sepals 34 to 47 mm. long, shorter than the tubular portion of the hypanthium, the free tips about 6 mm. long ; petals rather firm, 4 to 4.5 cm. long, truncate or broadly emarginate at the apex; fila- ments 21 to 23 mm. long ; anthers 12 to 13 mm. long; capsule 2.5 to 3 cm. long, about 7 mm. in diameter at the thickest point, glabrous, strongly curved, narrowed from the base to the apex. (PI. VII.) O. argillicola is to be distinguished by the fact that it is well adapted to securing cross-fertilization. When the flower-buds come to the morning of the day on the evening of which they will open, the pistil takes on a greatly accelerated rate of growth and pushes out of the flower-buds to a length of 3 or 4 mm., bearing the unfolded stig- mas in a position in which they may readily receive pollen carried by the wind from neighboring flowers. It is not actually known, however, whether pollination is secured in this manner, or whether insects are of some aid in the matter. A similar behavior of 0. lamarckiana near the close of the season is reported in Holland. The decumbent or non -ascendant branches of O. argillicola form a dense cluster which gives it a very striking appearance. The main bud of the central stem appears to remain dormant. The great size of the flower of this species doubtless accounts for some of the reports of the presence of O. grandiflora in the Virginias and Pennsylvania, while the habit of the plant may have also sug- gested some of the notions prevalent as to the variability of O. biennis, with which it may have been confused. ONAGRA CRUCIATA (NuTT.) SMAIJ,. A number of roots and some seeds of O. cruciata were obtained from Sandy Hill, N. Y., near Lake George, at the close of the season of 1902, and early in the spring of 1903 were divided into two por- tions, one of which was sent to Professor De Vries at Amsterdam, Holland. Only about a dozen plants were brought to maturity in the New York Botanical Garden during 1903, attention being directed principally to the observations on O. lamarckiana and its mutants. A letter was received from Professor De Vries under date of Sep- tember 19, 1903, in which he said : Until a few weeks ago, and before flowering, the plants were a very uniform lot, with the characteristic reddish crowns and nutating tops. But now they are no longer uniform. There are two very distinct types, only differing in the PLATE VI. Onagra biennis. i, leaf from young rosette; 2, leaf from rosette four months old; 3, leaf from lower part of mature rosette; 4, leaf from upper part of mature rosette; 5, stem-leaf; 6, bract; 7, unopened bud; 8, flower with petals removed; 9, petals of maximum size; 10, mature capsule, i to 5, one-half natural size ; 6 to 10, natural size. PLATE VII. Onagra argillicola. i, 2, leaves of young rosette ; .3, leaf from adult rosette ; 4, stem-leaf ; 5, flower with petals removed 6, bract ; 7, flower-bud ; 8, flower-bud immediately previous to opening, with stigma exposed ; g, petal ; 10, capsule, i to 4, one-half natural size ; 5 to 10, natural size. PLATE VIII. MUTANTS AND HYBRIDS OF THE OENOTHERAS. 13 flowers and flower-buds. Both types are to -be found in the plants coming from the seeds, as well as in those grown from the roots you sent me. The differences are slight, but striking, absolutely individual, and without transitions. Most of the individuals have broader linear petals and comparatively more rounded flower-buds. The others have narrower and therefore more strictly linear petals, and thicker buds. I have also sown seed I got from Prof. B. L. Robinson, of Harvard Univer- sity, gathered at Jeffrey, N. H., under the name of O. cruciata. They are wholly different from yours, being more slender, less nutating, and with a strikingly longer calyx -tube. The same facts are given in ' ' Species and Varieties : Their Origin by Mutation " (De Vries, 1905, p. 589), in which it is also stated that " It seems not improbable that O. cruciata includes a group of lesser unities, and might soon prove to comprise a sw^rm of elementary species, while the original strain might even now be in a condition of mutability." The cultures of 1904 included over sixty specimens of 0. cruciata which reached the adult stage, and included not only the two forms which he had observed to arise from the seeds and roots sent him from this place, but also the third obtained only from material from New Hampshire. It is obvious, therefore, that one form arises spontane- ously from one of the other two forms suddenly, and dried specimens from the crop of 1903 in the New York Botanical Garden show that it originated in this manner here in the first year of cultivation, although the second half of the same lot of seeds sent to Professor De Vries failed to give rise to it in Amsterdam. The evidence at hand therefore seems to confirm the suggestion as to the mutability of the species, but nothing may be said as to which of the types constitutes the parent. The characters of the forms are as follows : No. i (PI. VIII) . — Adult plant robust and luxuriant. Stem i to 1.5 meters tall, copiously branched, the branches spreading, sparingly hirsute, the hairs rather ascending, 1.5 to 2.5 dm. long on the lower part of the stem; blades narrowly spatulate, finely toothed near the apex, coarsely and somewhat doubly toothed below the middle, each narrowed into a short semi-terete petiole, those of the upper cauline leaves oblong-lanceolate to lanceolate, sessile, all more or less pubes- cent about the veins beneath ; bracts oblong-lanceolate, about one-half as long as the hypanthium, truncate at the base ; conic portion of the buds slender, 16 mm. long, or somewhat longer, sparingly pubescent, the free tips of the sepals 4.5 to 5 mm. long ; hypanthium slender terete or nearly so, 30 or 32 mm. long, becoming glabrous, about 4 mm wide at the mouth ; sepals 17 to 20 mm. long, linear-lanceolate, about 14 MUTANTS AND HYBRIDS OF THE OENOTHERAS. one-half as long as the tubular portion of the hypanthium, the free tips 4 mm. long; petals delicate, linear or nearly so, 10 to 15 mm. long, obtuse ; filament 9 to 10 mm. long ; anthers about 5 mm. long ; style shorter than the stamens ; stigmas about 4 mm. long ; capsules 2 to 2.5 cm. long, 6 to 7 mm. in diameter at the thickest point, nearly glabrous, mainly longer than the bracts. (PI. IX, fig. i.) This form included about 52 of the individuals grown during 1904. The other two forms may be characterized as follows : No. 2. — Bracts broadly lanceolate or ovate-lanceolate, round- truncate at the base, about as long as the hypanthium ; conic portion of the bud sparingly pubescent, 15 mm. long or less ; hypanthium stoutish, nearly terete, 28 to 30 mm. long, sparingly pubescent, abruptly dilated at the top, and about 5 mm. wide at the mouth ; sepals 14 to 15 mm. long, linear-lanceolate, about one-half as long as the tubular portion of the hypanthium, the free tips about 5 mm. long; petals firm, broadly linear or linear-oblong, 8.5 to 10 mm. long, obtuse; filaments 8 to 9 mm. long; anthers 6 mm. long; style shorter than the stamens; stigmas 6 mm. long; capsules 2.5 to 3 cm. long, 7 to 8 mm. in diameter at the thickest point, with few scattered hairs, slightly curved, narrowed to the apex. (PL IX, fig. 2.) Seven individuals of this type were found in the cultures. JVo.j. — Bracts oblong or ovate-oblong, narrowed at the base, shorter than the ovary or slightly longer ; conic portion of the buds stout, 9 to ii mm. long, with few scattered short hairs; hypanthium slightly ribbed, stoutish, 25 to 27 mm. long, becoming glabrous, rather gradually dilated at the top and about 4 mm. wide at the mouth; sepals 9 to 10 mm. long, much less than one-half as long as the tubular portion of the hypanthium, the free tips 3 to 3.5 mm. long; petals broadly linear-oblong, 6 or 7 mm. long, obtuse; filaments 6 mm. long; anthers 4 mm. long; style shorter than the stamens; stigmas 3 mm. long; capsules about 2.5 cm. long, 7 to 8 mm. in diameter at the thickest point, with few scattered hairs, slightly curved, narrowed to the apex. (PI. IX, fig. 3.) Six individuals were seen, all of which completed their seasonal development much earlier than the other two forms. In the observations made during the earlier part of the develop- ment of the plants nothing was recorded by which the three forms might be distinguished, and hence the following characters may be taken to apply to the entire lot, although it is probable that most of the descriptions were made from mutant individuals. Seedling about two months old. — Leaves very sparingly pubescent ; blades oblong, elliptic or oval, the larger ones 8 to n mm. wide, PLATE IX. Onagra cruciata : Buds, bracts, capsules, flowers, and petals of the three elementary forms. Natural size. PLATE X. Onagra cruciata. i, leaf from young rosette ; 2, leaf from lower part of mature rosette ; 3, leaf from upper part of mature rosette; 4, stem-leaf; 5, rosette five months old; 6, rosette two months old ; 7, rosette nearly five months old, with narrower leaves, i to 4, half natural size; 5 to 7, natural size. MUTANTS AND HYBRIDS OF THE OENOTHERAS. 1 5 undulate, obtuse or merely acutish at the apex, each rather gradually narrowed into a petiole. (PL X, fig. 6.) Seedlings five months old. — Rosettes not dense ; leaves glabrous or nearly so, except the ciliate margins; blades spatulate, some of them narrowly so, the larger ones 2 to 2.5 cm. wide, shallowly repand-dentic- ulate, mostly acute, as long as the petioles or longer. (PI. Ill, fig. 2.) Mature rosette. — Leaves conspicuously elongated, obscurely fine- pubescent, the larger ones about 26 cm. long, 25 to 30 mm. wide; blades narrowly spatulate, repand-dentate, more distantly so and with prominent teeth near the base, petioles relatively slender. All of the forms included in, and arising from, O. cruciata are capable of self-fertilization when the inflorescences are inclosed in bags. So far as present information goes the species of the evening- primroses native to northeastern America may be said to have compar- atively small flowers and to be capable of self-fertilization, although' visited frequently by flying insects. The species ranging to the south- ward have larger flowers, and by reason of the superior length of the pistils are adapted to cross-fertilization, although it is not definitely known that self-fertilization does not ensue. In O. argillicola the early protrusion of the stigmatic surfaces from the unopened flower-bud has the appearance of a positive adaptation for securing pollen from other flowers, by the agency of wind, gravity, or insects. HYBRIDS. Among the crosses made in the New York Botanical Garden during 1903, that of 0. lamarckiana X O. cruciata and the reciprocal were attempted. The first only was successful, as the castration of the flowers of O. cruciata was not accomplished sufficiently early to prevent self-fertilization. Likewise the removal of the stamens of 0. lamarckiana was not done in such manner as to exclude the action of its own pollen and the pistil-parent appeared as a pure strain in the cultures. 0. lamarckiana X O. cruciata. — A detailed study of the hybrids obtained by the pollination of O. lamarckiana by O. cruciata was made by De Vries, but the pollen-parent was evidently a highly variable hybrid race which bore the general vegetative characters of the true cruciata, but which showed a fluctuating variability in its flowers, from an atavistic, obcordate form of petal to others of the slender cruciata type. The form in question is known in Europe as Oeno- thera cruciata varia and is held by De Vries to be probably a hybrid of O. muricata and cruciata. (De Vries, 1903, pp. 100-110, 593-633.) l6 MUTANTS AND HYBRIDS OF THE OENOTHERAS. The individuals of the hybrid as made in the New York Botanical Garden in 1903 were seen to be furnished with narrower leaves in the earliest stage of the seedlings, all of which but one were destroyed by insects before the main axis was formed. The plant was recognizable at some distance throughout its entire existence by its light yellowish- green color. The leaves of the young rosettes were ovate-lanceolate, obscurely and remotely repand-denticulate, blunt at the apex, with the laminae extending down the petioles to the bases in the form of wings i to 2 mm. in width. (Plate XII.) The leaves of the mature rosette were narrowly lanceolate-oblong, being broadest above the middle and'tapering to both ends, with the petioles winged. The laminae were approximately denticulate in the apical portion and irregularly so in the basal half. All of the leaves of the rosette and stem were minutely pubescent. The stem attained a height of about 55 cm. and bore a number of short, spreading branches arising from the base of the main stem and reaching half of its length. Numerous shorter branches arose from the entire stem from a short distance above the base. The apical portions of all branches were tinged with red. The stem leaves were narrowly oblong-lanceolate, tapering to both ends and acute at both ends; 9 to n cm. long, and 14 to 17 mm. wide. The terminal rosettes were dense, close, symmetrical, and spreading. The first flower was shown on August 12, about six weeks later than the begin- ning of the blooming of either parent. The petals were recurved after the manner of O. cruciata and were from 9 to ii mm. long, varying from linear-oblong to irregularly obcordate or truncate, being entire, obscurely emarginate or irregu- larly notched near the apex. Furthermore, these various forms might be illustrated in a single flower (see Plate XII, figs. 6#, 70, and 8). The definite tips of the calyx-segments were spreading in the bud and were 3 to 15 mm. long. The stamens varied in length, being shorter than the pistils in some flowers, and longer in others. The ovaries were about 9 mm. long, slightly hirsute, and the hypanthium was' glabrous. The bracts were lanceolate-acuminate. The calyx- segments were much shorter than the hypanthium. The hypanthium showed a purplish tinge and the petals were flesh-color, except at the tips. The capsules were rounded, obscurely angled, 20 mm. long and 4 to 5 mm. in thickness, tapering from near the base to the tip, and bearing a few spreading hairs. (PI. X.) This hybrid agrees quite well with O. cruciata varia as described by De Vries, which he thought was a hybrid between muricata and cruciata. Whether it is actually identical with this form can not be PLATE XI. Adult specimen of the hybrid Onagra lamarckiana X Onagra cruciata (No. 3.21). PLATE XII. 10 Onagra lamarckiana X Onagra cruciata (No. 3-21). i, leaf from young rosette; 2, leaf from median portion of mature rosette ; 3, leaf from upper portio of mature rosette; 4, stem-leaf; 5, bract; 6, flower with petals removed (see 6a) ; 7, flowe with petals removed (see ?a) ; 8, petals of mininum size ; 9, unopened flower-bud; 10, capsule i to 4, one-half natural size; 5 to 10, natural size. MUTANTS AND HYBRIDS OF THE OENOTHERAS. I/ definitely stated, since no living material of the latter has been exam- ined. The only characters of the hybrid clearly derived from the pistil-parent are the relative length of the main axis and the general habit of branching. It is to be said on the other hand that the crudata characters to which the general aspect of the plant is largely due are without exception more or less modified. The relative length of the stamens and pistils was seen to vary so that some of the flowers were capable of self-pollination, while in others the chance of pollination without the aid of external agencies was extremely small, so that it might be said that in some branches of the plant the lamarckiana character was dominant, while in others the crudata self-fertilizing capacity was shown. A similar range of partial variability will be described in one of the hybrid races of the 0. lamarckiana X O. biennis. O. lamarckiana X O. biennis. — The results of the crosses made in the New York Botanical Garden were much more diversified than those made by De Vries, who obtained what he designates as a typical unilateral hybrid as a result of fertilization of 0. lamarckiana by O. biennis grandinora. He says (De Vries, 1903, p. 31) : The hybrid of Oenothera biennis (O. biennis grandinora) and O. lamarckiana resembles the first so strongly that they can 'hardly be distinguished from one another. I have made this cross partly in 1894 and partly in the summer of 1899, and in the last-named year partly with O. lamarckiana from my own cultures, and partly from the same species grown from purchased seeds. In all cases I used O. lamarckiana as the mother. The stamens were taken from flowers of plants in the open (from unopened buds), and from plants of my own cultures in the last-named period. The bastards were of a single type, and were inter- changeable with O. biennis (O. biennis grandinora), not only in the rosettes, but also in the flowers and ripe fruit. I had about 50 flowering plants in 1895, and about 70+60 in the two series in 1899, making altogether about 180 speci- mens in bloom in addition to some with young stems and rosettes only (bien- nials). Some differences were seen, but they were not so marked or so important that a description could be made of them. I harvested some seeds in 1895, which were secured by artificial pollination, and the second generation was grown from these in the summer of 1896. These repeated, in the 50 specimens coming into bloom, only the characteristics of the first-named parent (biennis). Similarly the pollination of O. lamarckiana by O. muricata resulted in a monotypic unilateral hybrid which approximated the pollen - parent. Four distinct types were distinguishable in the hybrid in New York, and the different forms could be recognized in a very early stage of the seedlings. All of the individuals were easily seen to be grouped around the types mentioned, and no intermediate or inter- grading forms were found. The number of individuals brought to l8 MUTANTS AND HYBRIDS OF THE OENOTHERAS. maturity was comparatively small, and the possibility is not excluded that a culture of several hundred plants might include still other forms. In fact, the very differences between the results of the hybrid- izations, as carried out in Amsterdam and New York, suggest that the manner in which the various qualities in the two parents are grouped in the progeny might be capable of a wide range of variation. Many indications lead to the suggestion that the dominancy and prevalency, latency, and recessivity of any character may be more or less influenced by the conditions attendant upon the hybridization ; the operative fac- tors might include individual qualities as well as external conditions. In addition to the hybrid individuals several specimens of the pistil- parent, lamarckiana, and one of its mutants appeared in the cultures, indicating that self-fertilization was not entirely prevented. This might be accounted for in two ways. Castration might not have been performed early enough to prevent the action of pollen being scattered from a bursting anther upon a mature stigma while the operation was being performed. Then, again, the possibility was not wholly excluded that pollen from the bursting anthers which fell upon the bracts inclosed in the parchment bags might have been carried to the stigmas by currents of air caused by the compression or expansion of the parchment bags. At any rate, the appearance of individuals of the pistil -parent type may be taken as presumptive evidence that such self- pollination occurred by some method, although the appearance of individuals of the parental type in hybrids is well known. (I) A type represented by individual No. 2.1 (PI. XIII, fig. i) showed a rosette of deeply dull-green leaves, more or less crinkled and irregular in form and margin. In all about twelve plants of this type were seen, although but five reached a stage sufficiently advanced to send up a central stem. The rosettes were sparse and the leaves thick and fleshy, and almost glabrous, except that some were minutely pubescent on the veins beneath. The leaves of the rosettes varied from narrowly linear in the earlier stages to linear-lanceolate with obtuse apices, and to oblong-spatulate, broadest above the middle, and acutish in some individuals. The laminae were revolute and irregularly denticulate and formed narrow wings nearly to the base of the petioles. The main axis of the hybrid individuals reached a height of 15 or 20 cm., at which stage in the development elongation ceased and the lateral branches became very active ; in some instances no noticeable elongation of the main axis occurred. Branches of this were more rounded in outline and bore leaves of a structure somewhat more PLATE XIII. Fig. i. Rosette five months old of No. 2.1 of the hybrid Onagra lamarckiana X Onagra biennis. Fig. 2. Rosette five months old of No. 2.27 of the hybrid Onagra lamarckiana X Onagra biennis. MUTANTS AND HYBRIDS OF THE OENOTHERAS. 19 nearly conforming to normal types in a manner comparable to that of the parent, as noted above. These leaves were ovate-denticulate, abruptly acute, slightly crinkled, and were minutely pubescent. The terminal rosettes were dense and symmetrical and flower-buds were developed, the first of which opened on August 12. About this time some large rosettes were formed from lateral buds near the bases of the stems, which were composed of oblong-lanceolate leaves, slightly crinkled and denticulate and tapering to both ends. The entire plant was tinged with red, and most deeply so in the upper branches. (PL XVII, fig. 4.) The petals were deeply emarginate, 28 to 30 mm. long and 30 to 35 mm. wide, being broader than long in all instances. The segments of the calyx were 30 mm. in length, being less than half the length of the hypanthium, which measured about 38 mm. The ovary was 10 mm. long and, with the hypanthium, bore a number of scattered hairs. Perhaps the most noticeable feature of this type was the variability of the relative length of the stamens and pistils. The pistils were fairly constant in length, but in some flowers the stamens were shorter and therefore not adapted to self-fertilization, while in others the anthers were above the stigmas, thus insuring self-pollination. No correlated structures were observed. The capsules were about 2 cm. long, 5 to 6 mm. wide below the middle, oblong, tapering from near the base, obscurely angled and channeled, sparingly pubescent with both long and short scattered hairs. The exceptional forms of leaves exhibited by this type were found to be accompanied and probably caused by the presence of a fungus, which seemed to attack this type only of the hybrid progeny. Similar effects in O. lamarckiana have not yet come under observation, but young rosettes of O. b tennis, together with mature plants coming into bloom, were found growing wild in some waste park-land near the New York Botanical Garden on August 21 , 1904. The leaves of these plants were closely similar to those of the pathological hybrid individual in general appearance, and furnished the curious parallel of showing a partial return to the normal form near the upper ends of the branches. Rosettes of the type described were transplanted to pots in the experi- mental house and the terminal portions of the leaves cut away in accordance with garden practice. Within a few days several leaves were seen to show an abundance of yellowish spermagonia, which appeared to belong to Aecidium peckii De Toni, although aecidia were not found. 2O MUTANTS AND HYBRIDS OF THE OENOTHERAS. (II) A second type was represented by individual No. 2.27, in which the leaves of the rosettes were finely pubescent on July i ; the rosettes were widely spreading and the leaves finely pubescent in specimens examined on that day. The laminae were lanceolate-oblong acute at the apex and broadest above the middle, gradually narrowing to the broad petiole and decurrent upon it to its base ; approximately denticulate, crinkled between the secondary veins, more or less spotted with reddish areas. (PI. XIII, fig. 2.) Stems were sent up, which, upon examination on July 13, showed leaves of a dark bluish-green tinge, the laminae becoming convex upwardly owing to the unequal growth of the midrib. The stems were dotted with the reddish bases of the hairs. The apices of the main stem and of its branches formed close and symmetrical rosettes, in approximation of the structures shown by lamarckiana. The general habit of the shoot was much like that of biennis, the basal branches being long. The central stem, however, was irregu- larly compressed and was of a zigzag form. The flowers exhibited the following characters : Corolla-segments 2.2 cm. long, 2.5 to 3 cm. broad ; calyx-segments 2.7 cm. long, more than half the length of the hypanthium; hypanthium 3.5 cm. long, slightly pubescent with scattered spreading hairs ; ovary 6 mm. long, also pubescent with scattered spreading hairs ; anthers and stigma as long as corolla, included, stigma variously 4 to 6 lobed. Bracts nearly as long as the hypanthium. Capsules about 13 mm. long, with greatest diameter 6 to 7 mm., the greatest length being about twice the thickness ; ovoid-oblong, tapering in upper portion to obtuse apex ; not angled ; slightly channeled; sparingly pubescent with appressed hairs. (PI. XV, fig. 2.) (III) The third type of the hybrid was represented by individual No. 2.24, in which the rosette was easily recognizable in the early stages and was dense, with the leaves lying flat on the ground when examined on July i. The leaves were finely pubescent, with broadly ovate laminae, the laminae more or less crinkled, acutish or obtuse at the apex, broadest in the middle, more or less abruptly narrowed into the broadly margined petiole, which is narrowly winged at the base. These organs were approximately denticulate toward the apex, and irregularly dentate at the base, with reddish petioles and the laminae sparingly spotted with red. (PI. XIV, fig. i.) The basal branches were nearly as long as the main axis. A por- tion of the stem immediately above the base was devoid of branches. The upper part of the stem bore numerous erect branches. The stems were deeply channeled and of a reddish color in the lower portions, PLATE XIV. Fig. i. Rosette five months old of No. 2.24 of the hybrid Onagra lamarckiana X Onagra biennis. I Fig. 2. Rosette five months old of No. 2.32 of the hybrid Onagra lamarckiana X Onagra biennis. PLATE XV. Fig. i. Adult plant of 2.1 of the hybrid Onagra lamarckiana X Onagra biennis, showing basal rosette, pathological leaves, normal leaves on upper part of stem, buds, and flowers. Fig. 2. Onagra lamarckiana X Onagra biennis No. 2.24 at left, No. 2.27 at right. MUTANTS AND HYBRIDS OF THE OENOTHERAS. 21 being distinctly paler in the terminal parts, which were of a yellowish- green color. All of the stems and branches were terminated by tufted rosettes. The following characters were exhibited by the flowers (PL XVII, fig. 5): Petals 27 to 31 mm. long and 27 to 33 mm. wide, deeply emargi- nate ; calyx-segments 30 mm. long, being more than half the length of the hypanthium, which was 48 mm. in length, slender, and gla- brous, except for a few scattering hairs; ovary 12 mm. long, glabrous, except for a few scattered hairs ; stamens nearly as long as the pistil. The capsules were 29 to 32 mm. long, 6 to 7 mm. in thick- ness, being about four times as long as broad, distinctly four-angled, and shallowly channeled ; oblong and narrowed in the apical region ; sparingly appressed pubescent. This type was noted as producing perfect seeds in apparently smaller numbers than the other types of the hybrid, although some branches bore several well-filled capsules. (PI. XV, fig. 2.) (IV) A fourth type was represented by individual No. 2.32, which was not recognized in the rosette stage, although the leaves are much narrower than in O. bicnnis, and are not so deeply toothed in the basal portion. The aspect of the adult plant (PL XIV, fig. 2) is very marked, however, and it is easily recognizable. The lateral branches are numerous and nearly as long as the main axis, with the stems deeply channeled. The larger leaves of the rosette are narrowly oblong-lanceolate and yellowish-green, with prominent reddish mid- veins. The stem leaves are lanceolate and broadest about the middle and deeply toothed. The entire plant is pubescent and shows a tinge of reddish color even when young, which becomes much intensified with age. (PL XIV, fig. 2.) The bracts are oblong-ovate, the hypanthium longer than its seg- ments ; the petals are about 20 mm. long and 24 mm. wide, with wedge- shaped bases. The stamens, pistil and petals are about of the same length. The green capsules are about 26 to 27 mm. long and 6 to 7 mm. thick, oblong, tapering from near the base to the narrow apex, and shining green, being only sparingly pubescent. The general outline of the capsules is irregular ; in cross-section they appear distinctly four- angled. (PL XVI, fig. 3.) Seven individuals of this type were brought to maturity and all conformed, with only minor divergences, to the above structures. The hybrid progeny in the cultures made in the New York Botanical Garden and in Amsterdam was thus seen to include a series of types which ranged, in the aggregate of characters included, from those PLATE XVI. 1 Stem leaves, bracts, petals, capsules, and flowers of Onagra biennis and of two of the four hybrid types of Onagra lamarckiana X Onagra biennis. i, Onagra biennis ; 2, No. 2.27; 3, No. 2.32. Stem-leaves one-fourth natural size; remainder of figures five-eighths natural size. PLATE XVII. Stem-leaves, bracts, petals, capsules, and flowers of Onagra lamarckiana, and of two of the four hybrid types of Onagra lamarckiana X Onagra biennis. 4, No. 2.1; 5, No. 2.24; 6, Onagra lamarckiana. Stem-leaves one-fourth natural size; remainder of figures five-eighths natural size. 22 MUTANTS AND HYBRIDS OF THE OENOTHERAS. representing pure strains of both parents through goneoclinic forms to intermediates in which the parental characters were more or less equally apparent. Although the great difficulties attendant upon a valuation of the characters occurring in hybrids were appreciated, it was concluded that such an estimation expressed in tabulated form would be the best method of expression of the dominance of the various characters. Hurst selected twenty anatomical characters which were assigned equal value, and included such features as the habit of growth, and form and shape of the leaves and other organs, and upon the preva- lence of these characters the degree of relationship of the hybrid to the parent was estimated. (Hurst, 1900.) Peter made a tabulated list of the external characters of the hybrids of the hawkweed, in which these characters were classed as unilateral, goneoclinic, or intermediate with respect to the corre- sponding features of the two parents. The dominance of any given character was calculated from its occurrence in the entire list of plants examined. (Peter, 1884.) Mathematical expressions of the dominancy of qualities are in themselves misleading unless based upon actual physical measure- ments taken by statistical methods from a number of individuals to eliminate errors. Then, again, the estimation of the development of a paired character presents one of the greatest difficulties encountered in the study of hybrids. Authors are by no means agreed as to what constitutes absolute dominance. Until within the last few years a char- acter was regarded as dominant by most writers only when it appeared in the hybrid as an exact reproduction of the parental quality. The most recent discussion upon this subject that has come to notice is that of Correns, who takes the ground that a character apparently representing the parental quality to 75 per cent of its full power may be considered as dominant, when occurring to the extent of 25 to 75 per cent as intermediate, and below 25 per cent as recessive. (Cor- rens, 1903.) This author calls attention to the fact that fully dominant charac- ters occur but rarely, and cites examples of Hyqscyamus and Bryonia. The comparatively small number of individuals (33) of the hybrid between O. lamarckiana and 0. biennis which were brought to ma- turity did not give extended opportunities for statistical work, and the number of characters taken into account included many not suscep- tible of direct physical measurement. It was decided, therefore, to express the descriptions in taxonomic terms arranged in tabulated form to serve as a graphic illustration of the general complexion of MUTANTS AND HYBRIDS OF THE OENOTHERAS. the types embraced by the hybrid. In this scheme it was found most convenient to apply the terminology generally used to designate the aspect of an individual to that of the separate characters, and qualities which were fully dominant and accurate representations of the paren- tal forms were placed under the heading of ' ' unilateral ; ' ' those which approximated the type of one parent closely, but did not represent it sufficiently to be identical with it in ordinary descriptive work, were classed as ' ' goneoclinic " to that type, while those in which an average of the paired characters was apparent were placed under ' ' interme- diate." It is evident that the "intermediate" of Correns would embrace both the " intermediate " of the above classification and the goneoclinic departure from it on either hand. Goneoclinism may well be the extreme of fluctuating variability instead of a modification of a group-quality. The scheme used below has been found most con- venient for this special discussion, but it is not urged as the best method for the general estimation of hybrids. Tabulated analysis of the characters occurring in the various types of the hybrid Onagra lamarckiana X Onagra biennis. No. 2.1. Unilateral. Goneoclinic. Intermediate. Goneoclinic. Unilateral. To lamarckiana. To biennis. Rosettes ... . Leaves dull -green, fleshy, narrow, with irregular out- lines, affected by parasite. Lower leaves thick, waxy, affected by parasite. Calyx -segments shorter than hyp- anthium. Steins and leaves. Flowers and fruits. Leaves crinkled. Terrain a 1 r o - settes symmet- rical. Upper leaves ovate, denticu- late. Capsules taper- ing to near apex, short, and thick. Relative length of stamens and pistils variable. The notable feature of the structure of this type consists of the forms of leaves exhibited by the stem. The rosettes and leaves of the stem which are attacked by the fungus are almost exact counterparts of those of O. biennis, while the upper portions of the shoot bear foliage-organs, very similar to those of O. lamarckiana. The tendency to being attacked by the fungus seemed con- fined wholly to this type, which is entirely unlike the remainder of the progeny in characters not affected by the parasite. MUTANTS AND HYBRIDS OF THE OENOTHERAS. Tabulated analysis of the characters occurring in the -various types oj the hybrid Onagra lamarckiana X Onagra biennis — Continued. No. 2.32. Unilateral. Goneoclinic. Intermediate. Goneoclinic. Unilateral. To lamarckiana. To biennis. Rosettes Leaves crinkled deeply toothed. Stems and Stems c h a n - leaves. neled. ly toothed. settes symmet- numerous. rical. Flowers and fruits. Ovary sparing- ly pubescent. Capsule oblong, tapering at Capsule four- angled and Relative length of hy- panthium to calyx- apex. tapering at segments 31 : 4 1 . apex. Hypanthium of Bracts oblong-ovate; average length petals wedge-shaped of parents. at base. Petals wider Stamens as long as than long. pistils ; pistils as long as petals. Entire plant becoming deeply tinged with red when mature. No. 2.24. Rosettes Leaves crinkled. Yo u n g leaves Mature rosettes Yo u n g leaves broadly ovate, dense, spread- denticulate. acutish or ob- ing. Basal portion of tuse at apex. Leaves broad, older leaves rounded at irregularly apex. denticulate, tapering to petiole. C. J Leaves crinkled, Stems reddish • • - Leaves ovate- Basal branches as long leaves. hanging down, lanceolate, as main axis. • densely ar- denticulate ranged. throughout. Upper branches erect, spread- ing. Flowers and Bracts subcor- Capsule nearly Petals interme- Hypa n t h i u m Terminal rosettes fruits. date, oblong- glabrous, ta- diate i n size thin. tufted. lanceolate, pering from and in relation Re la live length of acu tish, or near base, of length and hypanthium and acuminate. slightly chan- breadth. calyx-segments as in neled. biennis. Relative length of stamens and pistil as in biennis. Capsule distinctly four-angled. Among the characters noted above, all may be traced to the influence of one or other of the parents directly, except that of the excessively long and thin hypanthium. This organ sustains the proportions of some of the large-flowered relatives of 0. lamarckiana. MUTANTS AND HYBRIDS OF THE OENOTHERAS. Tabulated analysis o'f the characters occurring in the various types of the hybrid Onagra lamarckiana X Onagra biennis — Continued. No. 2.27. Unilateral. Goneoclinic. Intermediate. Goneoclinic. Unilateral. To lamarckiana. To biennis. Rosettes Steins and leaves. Flowers and fruits. Leaves crinkled. Mature rosettes dense, leaves with long petioles. Young leaves oblong- lanceo- late, tapering at base. Leaves of ma- ture rosette not so deeply and regularly den- ticulate as in biennis. Basal branches not as long as main axis. Leaves spotted with red. Leaves of ma- ture rosettes, lanceolate - ob- long. Stamens and pistils of same length ; capa- ble of self-fer- tilization. Length of stem- leaves average of parents. Petals with length greater than width. Superficial ex- tension aver- age of parents. Capsule pubes- cent, obscure- ly channeled. Terminal r o - settes dense and regular, leaves deeply green. Basal portion of petals rounded. Bracts ovate, acute, irregu- larly denticu- late, rounded or obscurely cordate at base. Capsule ovoid- The stems were irregularly compressed with a zigzag outline, in a manner reminiscent of those of O. rubrinervis. The upper leaves of the rosettes and of the stems were strongly convexed upwardly, 2 b fi 38 MUTANTS AND HYBRIDS OF THE OENOTHERAS. distance from each other of one meter, thus allowing each specimen sufficient space to express its characteristic physiological nature unmodified by complex interrelations with other plants. The stature of Onagra imnclla. — The character which most strik- ingly differentiates O. nanella from its parent-form, O. lamarck- iana, is that from which it has so appropriately received its name. The great difference in height between these two species may be seen in the photograph (PL XIX, fig. i), which represents a typical speci- men of each. The results of measuring 23 specimens of O. nanclla and 34 of 0. lamarckiana are seriated in the form of curves of equal area in fig. 3. It will be observed in this figure that not only are the two curves quite distinct, but that they are separated by a wide gap. The discontinuity is tremendously in excess of the probable errors, the distance between the means of the two curves being more than forty times the sum of the probable errors of the means. The heights of Onagra nanella group themselves about the mean value 22.81 ± i .02 cm., with a range from 7 cm. to 35 cm., and those of O. lainarckiana about the mean value 88.68 ±0.55 cm., with a range from 77 cm. to 96 cm. The other constants present quite as interesting differences. Although the mean height of O. nanella is only one-fourth as great as that of O. lamarckiana, the standard deviation, o MUTANTS AND HYBRIDS OF THE OENOTHERAS. Although such a character as this is too largely influenced by the individual physiological vigor to be of any value as a diagnostic char- acter, the difference of aspect between the lots of plants of these two species was so striking that it was thought interesting to give it quan- titative expression. A comparison of the number of lateral branches shows complete discontinuity between the two species in this regard, the range in 0. lamarckiana being from n to 25, and in O. rubrinervis from 34 to 62. Curves of equal area representing the variation in the number of branches of 17 specimens of O. rubrinervis and of 20 speci- mens of O. lainarckiana selected by lot, are shown in fig. 4. The constants of these curves are as follows : Mean. Standard deviation. Coefficient of variability. Meters. 20 70 -t- 0 49 Meters. 324 + 035 Per cent. 157-1- 1.7 42 35 -i- 1 04 6 34 -f- 0 73 15.0 -1-1.7 If, instead of the number of branches, we consider the total branch - length, the results are in some respects more striking still, for in gen- eral the branches are longer in O. rubrinervis than in O. lamarckiana. This did not prove invariably true, however, and the discontinuity which should have been increased by this difference in average length is lost through the occurrence of a specimen of O. rubrinervis having a total branch-length of only 7.79 meters, though it had 39 branches. This is well within the range of total branch -length of 0. lamarckiana, which varied in this respect between 3.65 meters and 8.41 meters. The greatest length of branches observed in any specimen of O. rubri- nervis was 29.98 meters. The variability in regard to total branch length is presented graphically in fig. 5. The constants of these curves are as follows : Mean. Standard deviation. Coefficient of variability. Meters. 6 68 -i- 0 20 Meters. ] 35 -4-0 14 Per cent. 20 2 •+- 2 2 1819-1-1 30? 795 -+-IQ92 43 7 -4- 5 1 This comparison shows a remarkable difference throughout, the most important feature probably being the fact that the coefficient of variability in total branch-length is more than twice as great in 0. rubrinervis as in O. lamarckiana. The size and shape of the leaves of Onagra rubrinervis, — Much more important taxonomically than stature and branching are the leaf-characters, and it is just here that statistical study encounters the most serious obstacles in seeking a satisfactory basis. In the first MUTANTS AND HYBRIDS OF THE OENOTHERAS. place, some of the leaf-characters arelincapable of quantitative expres- sion, such as the degree of crinkling of the leaf, which is a striking, though not an absolutely distinctive feature of the leaf of O. lamarck- iana. Some leaves of O. rubrinervis are also crinkled, but it is a gen- 50 45 4.0 25 10 0-3 3-6 6-9 9r-I2 13-15 15-18 18-21 21-24 24-27 27-30 30- FIG. 5. Variation in total branch-length of Onagra lamarckiana and O. rubrinervis. O. lamttrckiana : Range, 3.65 to 8.48 meters; M., 6.68 ±0.20 meters; o-, 1.85 ± 0.14 meters; C. V., 20.2 ± 2.2 per cent. O. rubrinervis: Range, 7.79 to 29.98 meters; M., 18.19 ± 1.30 meters; o-, 7.95 ±0.92 meters ; C. V., 43.7 ± 5.1 per cent. eral character of the leaf of 0. lamarckiana and only occasional in 0. rubrinervis. Other characters, although measurable, present tech- nical difficulties incommensurate with the value of the results, as, for instance, leaf-thickness- and degree of pubescence. The leaf of 0. MUTANTS AND HYBRIDS OF THE OENOTHERAS. 145 150 FIG. 6. Variation in leaf-length of Onagra lamarckiana and O. rubrinervis. O. lamarckiana : B.,49to 187mm.; M., 96.85 ± 0. 42 mm. ; 8 B 6 11 8 1 2 1 1 1 34 -a 27 2 15 11 7 9 8 3 1 1 57 -i 88 8 4 10 8 1(1 5 9 1 2 58 0 28 i a 11 19 10 3 8 5 1 58 1 :;o i IS 12 10 l(i 10 8 1 2 1 1 75 2 31 i 2 11 13 21 6 8 1 I 1 1 96 8 :;2 1 8 17 20 a 7 3 1 1 88 •} 33 1 8 8 7 fl 1 2 37 B 81 1 8 15 B 7 1 2 37 8 35 2 3 i 13 B 2 I 30 - SO 1 1 8 B 8 37 1 1 1 2 1 a 8 8 3S 2 i 2 5 10 39 2 1 i 4 11 40 i 1 1 2 2 1 8 17 1C, 84 85 100 92 80 50 24 in 7 3 0 1 614 FIG. 12. Correlation table of length and width of leaf in Onagra rubrinervis. Width of leaf subject, length relative ; p = 0.6604 ± 0.0119. due to differences of environmental conditions, and that cross-fertiliza- tion tends to produce uniformity when these variations are slight, and to increase the diversity when the variations are considerable. These questions need thorough reinvestigation , and their discussion is futile until such investigation is made. (Darwin, 1876, p. 452.) If the Onagra mutants are not the result of selection and isola- tion, acting within the field of applicability of known laws of variation and heredity, but are really, as they have been called by certain German writers, " correlation-breakers," may not the increased MUTANTS AND HYBRIDS OF THE OENOTHERAS. variability and decreased correlation be explained by the newness of the species, which may be assumed to want that perfect adjustment to their surroundings which an older species has acquired through the cumulative effects of long-continued adaptive reactions, aided by natural selection — i. e. , by the elimination of the tinadapted ? This X, -0 -S -7 -6 -B -4 -8 -2 -1 0 1 2 3 4 5 0 7 S 9 45 60 55 60 65 70 7.3 so 8.3 'JO MS 100 10:3 110 11.3 120 125 inu 135 50 0.3 60 6.3 70 7.3 80 85 90 9.3 Kill 10.3 110 11.3 120 120 liill i:;r, HO x, -18 2-1 1 1 2 -12 25 1 1 -11 26 1 1 2 -10 27 1 1 1 8 -9 28 1 1 1 1 1 -s 29 1 2 8 2 1 9 -7 80 1 2 2 2 3 to -0 81 1 2 2 6 -S 82 2 2 4 2 10 - 1 88 1 1 6 8 4 4 :; 22 -8 84 1 1 5 8 8 8 1 22 -2 86 I 2 -1 9 6 1 4 a 1 I 32 -1 M 1 1 1 2 5 10 1 E i 1 31 0 87 1 8 11 9 11 8 5 8 I 52 1 ss 1 -1 3 11 10 1C 8 1 49 2 89 8 7 7 a I 1 1 81 .'! 40 6 4 9 e 12 8 4 41 4 11 1 8 10 6 E 1 1 1 88 B 12 2 7 9 5 8 2 1 1 80 (i 48 1 1 8 1 2 2 1 19 7 11 8 6 2 1 12 8 46 1 1 1 1 2 r, 9 46 1 i 10 47 1 i 11 18 2 1 8 12 40 1 1 2 18 .-)() 1 1 1 1 2 2 a 12 1'J 28 00 59 ii7 SO 48 27 16 10 2 1 4 4.T.I FIG. 13. Correlation table of length and width of leaf in Onagra lamarckiana. Width of leaf subject, length relative ; p = 0.7916 ± 0.0090. question also can be answered only by experimentation and observa- tion continued through a series of years. It appears highly desirable that the statistical study of O. lamarck- iana and its mutants should be continued during a series of years, and that similar studies should be made of other mutating and mutant species. The exact status of the mutants with regard to their varia- bility and capacity for self-maintenance may be most conclusively determined by the use of the methods entailed in such work. MUTANTS AND HYBRIDS OF THE OENOTHERAS. 51 GENERAL SUMMARY. A brief rSsumS of the more salient features of the foregoing paper will serve to emphasize the contributions made to the subject during the course of the experimental work described. A continuance of the effort to trace the nativity of O. lamarckiana has resulted in the discovery of records and specimens that appear fairly conclusive that it is a true and independent species native to America, although the matter is not decided with the finality afforded by living specimens observed in the field. That this species has re- mained unchanged during a period of a hundred and sixteen years is established beyond doubt, and renders the matter of its nativity of com- paratively little importance as to the standing of the mutants derived from it. Perhaps no plant is known in which the purity of the strain has been so critically examined as Lamarck's evening-primrose. Some of the mutants are derivatives, most of which have become separated from the parent-form by the acquisition of new characters, while others are of a retrogressive character. Many of the new unit-characters dis- played are not known in any of the other members of the natural group, and thus may not be regarded as degressive acquisitions, or as due to the retraction of a retrogressive step taken in the previous history of the parent-species. The material used as O. biennis in the investigation described in Die Mutationstheorie proves to be a large-flowered species, which has probably been known to many workers as O. biennis grandiflora. The uniformly unilateral character of the cross between this species and O. lamarckiana (O. lamarckiana X O. biennis grandiflora) which was an unitypic hybrid very similar to the poll en -parent, a result which led De Vries to the conclusion that O. lamarckiana was a direct derivative of the latter, probably by mutation. A re-examination of the evi- dence, however, recalls that the cross with muricata was similarly unilateral to the latter when used as a pollen-parent, and it is evident that too much weight must not be given to the conclusion in question until confirmatory evidence is obtained. A consideration of the groupings of characters leads to the con- clusion that O. grandiflora Ait., 0. lamarckiana Ser., and O. argilli- cola MacKenzie are much more closely related to one another by ana- tomical characters and physiological traits than to biennis or any other member of the genus. Furthermore, the ranges of the three species mentioned appear to be more or less identical, or overlapping. O. grandiflora Ait. had been seen by but few botanists in a living condition in America, and its place in the American flora had become 52 MUTANTS AND HYBRIDS OF THE OENOTHERAS. a matter of much doubt, but field expeditions guided by descriptions from Bartram's travels in 1776 resulted in a rediscovery of the species in a spot not far from the original locality. This found, the confusion which had arisen as to the separation of this species and O. lamarck- iana is cleared up. The cultures of the evening-primroses made in the New York Botanical Garden show that two or more elementary species are grouped under some of the specific names as ordinarily accepted. The failure to recognize these elements has resulted in the prevalent opinions as to the wide range of fluctuating variability exhibited by these plants. This is especially true of O. biennis , which has enjoyed a reputation for variation not justifiable by systematic and orderly observations made on plants grown under various conditions. One of the forms, apparently typical of the true O. biennis now under culti- vation, is in a mutative condition, but description of the derivatives is reserved until they have completed a cycle of development. O. cntciata as it exists at the present time in the cultures in the New York Botanical Garden, and in the Botanical Garden of Amster- dam is composed of three elementary species, which are fairly distinct and without intergrading forms. A careful analysis of the occurrence of the group leads to the inevitable conclusion that one of the forms is in a mutating condition. It is evident that in the investigations of native species for possible mutating forms, the first and most important task to be completed is that of the resolution of the forms selected into their elementary constituents. Otherwise the seed obtained from plants belonging to separate strains might well give an appearance of variability not justifiable by the facts. Mutations, therefore, may be taken as properly authenticated only when appearing in guarded pedigree-cultures from seeds produced by a known individual, which should be preserved for comparison. Discussions of mutants secured under other conditions may serve an important purpose in offering clues which will be useful in the selection of research material, but can have no direct or actual value as a contribution to the subject. The evening-primroses of eastern North America, from which probably all of the forms cultivated in Europe are derived, may be divided into two groups — a group including O. biennis, muricata, oakesiana, and cruciata, in which the flowers are comparatively small, and in which self-pollination is possible and frequent. The second group, including species native to a region farther south, comprises O. ar gillie ola, O. grandiflora, and O. lamarckiana, in which the flowers are large and the stamens are much shorter than the pistil, a condition which with some accessory structures favors cross -pollination. MUTANTS AND HYBRIDS OF THE OENOTHERAS. 53 The hybrid 0. lamarckiana X 0. cruciata consisted of a single type in which the characters of the pollen-parent were largely domi- nant, although none of them were transmitted unchanged. A singu- lar union of characters was shown in the relative lengths of the sta- mens and pistils, a feature favoring cross and self fertilization. Some of the flowers bore stamens shorter than the pistils, while in others these organs were of equal length. Many of the modifications of the predominating characters were dependent upon and were modified by the alterations in the general stature of the plant. This hybrid corre- sponds quite closely with the descriptions of O. cruciata varia, a supposed hybrid of O. cruciata and O. muricata given by De Vries. The hybrid of 0. lamarckiana X O. biennis was of a pleiotypic character, being composed of four well-differentiated types with no inter- grading forms. .This result differs widely from that obtained by De Vries in hybrids with O. biennis grandiflora and 0. muricata as the pollen-parent. In both of the last-named instances the result of the cross was a unitypic hybrid closely unilateral to the pollen-parent. In O. lamarckiana X 0. biennis some characters of both parents were transmitted to all of the four types of the hybrid, but the greater num- ber of the active characters were those of the pollen-parent. A remarkable predisposition or weakness to the attack of a fungal parasite was exhibited by one of the types. The habit of ine- quality of growth of the laminae resulting in crinkling, characteristic of lamarckiana, was transmitted to all individuals of the four types of the hybrid. The symmetrical form of the terminal rosettes of lamarck- iana was transmitted unchanged to two of the types. No other char- acters of the pistil-parent were inherited in their entirety, although a number of qualities, approximating those of lamarckiana sufficiently to be termed " dominant" by some authors, were seen. Three of the types were goneoclinic to the pollen-parent, while the fourth (No. 2.24) may be fairly taken as furnishing an example of an intermediate form, so far as such estimations may be taken to be of value. The zigzag stem, No. 2.27, is an example of the dominancy of a feature usually latent in the pistil-parent, but exhibited by one of its mutants, rubrinerms. The capacity for self-fertilization was dominant in three of the types, but in the fourth a variability between cross and self fertilization was indicated by the varying relative lengths of the stamens and pistils. It is to be noted in this connection that 0. brci'istylis, one of the mutants of 0. lamarckiana,ha.s a pistil shorter than its stamens, and is therefore adapted to self-fertilization, although no actual physiological predis- position in the matter is found. 54 MUTANTS AND HYBRIDS OF THE OENOTHERAS. The recurrence of known mutants of O. lamarckianawas observed. O. rubrinervis appeared among the hybrid progeny of O. lamarck- iana X 0. biennis, in which imperfect castration had been accomplished and the parental strain appeared in the cultures. It appears therefore that the mutant may be considered as a derivative of the one parent purely, although the possibility is not excluded that it might have come as a hybrid strain, as has been observed by De Vries in several crosses. Better authenticated mutants were seen to arise from seeds obtained from purely fertilized plants of 0. lamarckiana grown in the botanical garden at Amsterdam in 1901 ; also from seeds of the same species gathered in the New York Botanical Garden in 1903 after similar precautions had been observed. O. albida ,* scintillans , gigas, oblonga, subovata, and Q.elliptica were found among the mutants, offering evi- dence of the indubitable occurrence of the mutants in purely fertilized seeds, and also that O. lamarckiana has not reached the end of its mutative period. Furthermore, seven forms not definitely assignable to any of the known mutants of this parent were found, showing that the range of the mutability of the species had been extended by unknown causes, but which were included in an environment of cultural conditions extremely favorable to rapid and vigorous growth and development. It seems safe to assume, therefore, that mutation is induced, or at least increased, by favorable, not adverse conditions, though the duration of the experiments has not been sufficient to permit an analysis of this phase of the subject. O. gigas, the species most recently tested in the mutation-cultures in New York, was seen to agree in stature and habit with the indi- viduals grown in the original locality at Amsterdam. Only about half of the individuals could be brought into bloom during the first season, although it was extended to ten months by special methods of culture — a fact in accord with the behavior of the plant in De Vries 's cultures. The constancy of the species also extends to its variability as to the forms of the leaves, an attribute also previously recognized. The results of the statistical studies show that some of the unit- characters of the mutants have a much greater variability than the corresponding features of the parent-form, and the greater amplitude of the fluctuations is coupled with a decreased correlation. Thus the coefficient of variability of the height of the shoot of nanella is 31.84 ± 3.16 per" cent, \ lile that of lamarckiana is 5-37± 0.44 per cent. The coefficient of v.- lability for the number of branches of rubrinervis is 15.0 ± 1.7 per c< .t, and for the total length of the branches is 43.7 ± 5.1 per cent, a jd for the ratio between width and length of the leaves is 10.30 ± 0.20 per cent ; for the number of MUTANTS AND HYBRIDS OF THE OENOTHERAS. 55 branches of lamarckiana 15.7 =fc i .7 per cent, for the total length of the branches 20.2 ±2.2 per cent, and for the ratio between the width and length of the leaves 9.53 d= 0.22 per cent. The great variability of the mutants does not, however, seem to result in any diminution of the gap that separates them from the parent form, and no movement in this direction has been observed in the long period which has elapsed since the new species came into existence. Thus the heights of O. nanella group themselves about the mean value of 22.81 ± 1.02 cm., with a range from 7 to 35 cm., while those of O. lamarckiana group themselves about the mean of 88.68 =b 0.55 cm., with a range from 77 to 96 cm. The number of branches per individual of lamarckiana ranged from n to 25, while that of rubrinervis was 34 to 62. The actual discontinuity is somewhat more fully expressed, however, by a comparison of the numerous features which elude measurements to be seen in Plate XXII, in which leaves from the specimens of lamarckiana and rubrinervis which approached each other most nearly are shown. The actual discontinuity between the retrograde variety , O. nanella, and its parent in the leading feature of height of stem is even more marked than the gap between the various unit-characters of rubrinervis and lamarckiana. Recurring again to the amplitude of the fluctuations in the mutants, it is to be said that it is doubtless much greater in the leaf- forms of the retrograde variety, O. nanella, than in any which have been measured, if the entire mass of foliage is taken into account, since in a certain mid-stage in the rosette it is practically impossible to distinguish it from the parent, although fully distinct as to form and size of the leaves in the very young and very old rosettes. The very range of variation may be in itself a character of the mutants, in which case no reason could be given for its existence, any more than reasons could be given for the existence of any other unit-character. Similar diffi- culties might be encountered in seeking an explanation of the com- parative amplitude of variation of any group of related forms. 56 MUTANTS AND HYBRIDS OF THE OENOTHERAS. BIBLIOGRAPHY. AITON, WILLIAM. 1 789. Hortus kewensis ; or, a catalogue of the plants cultivated in the Royal Botanic Garden at Kew. 2: 2. London, 1789. BARTON, WILLIAM P. C. 1821. A flora of North America. 1 : 21-24, pi. 6. Philadelphia, 1821. BARTRAM, WILLIAM. 1793. Travels through North and South Carolina, Georgia, East and West Florida, the Cherokee country, the extensive territories of the Mus- cogulges or Creek Confederacy, and the country of the Ohactaws. Dublin, 1793 (reprinted from the Philadelphia edition of 1791). CHAPMAN, A. W. 1 860. Flora of the Southern United States. New York, 1860. 1884. Flora of the Southern United States. Second edition. New York, 1897. Flora of the .Southern United States. Third edition. Cambridge, Mass., 1897. CORRENS, C. 1903. 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MacDougal, xviii 847 pp. Chicago and London, 1905. DOMBRAIN, H. H. 1862. Lamarck's evening primrose, Oenothera lamarckiana. The Floral Magazine, 2: plate 78 (with accompanying text). 1862. GALTON, FRANCIS. 1889. Natural inheritance, ix + 259 pp. London, 1889. HURST, C. C. 1 900. Notes on some experiments in hybridization and cross-breeding. The Journal of the Royal Horticultural Society (London), 24: 90-126. Ap., 1900. LEMAIRE, CHARLES. 1862. Oenothera Lamarckiana. L'lllustration Horticole, 9: plate 318 (with accompanying text). 1862. MUTANTS AND HYBRIDS OF THE OENOTHERAS. 57 MACDOUGAI,, D. T. 1903. Mutation in plants. The American Naturalist, 37: 737-77O. N 1903. [i Ja., 1904]. PETER, A. 1 884. Tabelle iiber die Procentsatze der 'bei den Bastarden der Piloselloiden unterschiedenen Merkmale. Botanische Jahrbiicher fiir Systematik, Pflanzenges'Cthichte und Pflanzengeographie, 5: 246-251. 1884. PURSH, FREDERICK. 1814. Flora Americae Septentrionalis ; or, a systematic arrangement and description of the plants of North America. 261. London, 1814. VAIL, ANNA MURRAY. 1905. Onagra grandiflora (Ait.), a species to be included in the North American Flora. Torreya, 5 : 9-10, Ja. 1905. WELDON, W. F. R. 1902. Professor de Vries on the origin of species. Biometrika, 1 : 365-374, Ap., 1902. WEISMANN, AUGUST. 1892. Aufsatze iiber Vererbung und venwandte biologische Fragen. 848 pages. Jena, 1892. 1902. Vortrage iiber Descendenztheorie gehalten an .der Universitat zu Freiburg im Breisgau. Zweiter Band. 462 pages, 3 plates. Jena, 1902. 1C THE UNIVERSITY LIBRARY UNIVERSITY OF CALIFORNIA, SANTA CRUZ This book is due on the last HOUR stamped below. .Om-8,'65(F6282sS)2374 3 2106 00252 0531