USPP225P - Hybrid poplak - Google Patents

Description

Jan. 19, 1937. R H. McKEE Plant Pat. 225

HYBRID POPLAR Original Filed Aug. 26, 1950 f/ire/r/or @LPH H. M /1 55 J (inmhx.

Patented Jan. 19, 1937 UNITED STATES Plant Pat. 2Z5

PATENT OFFICE HYBRID POPLAR Ralph H. McKee, New York, N. Y., assignor to McKee Poplar Forestation, Inc., New York, N. Y., a corporation of New York 1 Claim.

This invention relates to a new and distinct hybrid poplar and more particularly to a hybrid poplar which has a very rapid rate of growth, which is substantially immune to the ordinary diseases to which poplars are susceptible, and the wood of which is particularly suitable for use in making paper pulp.

This is a division of my copending application Serial No. 477,979, filed August 26, 1930.

As is well known, poplar wood is one of the most valuable woods for use in the making of wood pulp. At the present time there are known in the United States and foreign countries, according to Illick (1924) and to Sargent (1922), approximately thirty varieties of poplar and five commonly recognized hybrid poplars. Dode (1905) lists 110 species but the accuracy of this is questioned. Only three species of these are used commercially for pulpwood. The commonly recognized hybrids include the Lombardy poplar (male), Regenerata poplar (female), Carolina poplar (Eugenei) (male) and Robusta poplar (male), the parent trees of which are not definitely known. The fifth of the hybrid poplars known as P. (Populus) generosa which was first obtained in England in 1912, had as its male parent P. trichocarpa and as its female parent P. balsamifera virgim'ana (sometimes termed P. angulata.) As stated, these hybrids were known prior to the present invention and are disclaimed as forming no part of the invention.

Due to the increasing consumption of poplar wood in cellulose industries, and the resulting decreasing supply, it is obviously desirable to provide abundant sources of poplar wood for future consumption. However, several disadvantages attend the reforestation of land with ordinary poplars. For example, ordinary poplar species used commercially, such as P. tremulozdes and P. grandidentata, require many years of growth to provide trees of suitable size for supplying wood for use in making wood pulp or for lumber, e. g. a tree 12 inches in diameter will ordinarily be 80 years or more old. In addition, for maximum growth of ordinary poplars, a rich soil or the use of fertilizers is required. Further, ordinary poplars are susceptible to numerous common tree diseases, such as Cytospora. Finally, the length of fiber of the wood of ordinary poplars is not so great as might be desired for the making of paper pulp, so that a portion of longer fiber pulp (such as that from spruce) is often added to the poplar pulp to give the paper the desired strength.

The present invention overcomes all of the foregoing disadvantages and provides a new variety of hybrid poplar which not only grows quickly in ordinary soil but is particularly suitable for supplying wood of high grade for lumber and for use in making wood pulp.

When two species of the Populus genus are crossed seeds are obtained which when grown produce seedlings of varying types. Some of these seedlings will be dwarfs, some will grow at the same rate as their parents, and others will grow so rapidly that, relatively speaking, they partake of the nature of giants. The present invention is concerned with the propagating of those seedlings which are giants, i. e. which have a rapid growth rate. In general, it is found that the varieties which are particularly useful are those whose dimension is more than twice the corresponding dimension of the parent trees. By dimension is meant the height of the tree at the same age, as well as the diameter of the tree H at the same age. In some cases, I have found that the hybrid tree produced has a relative dimension as great as three and one-half times the corresponding dimension of the parent trees.

In order to obtain seedlings of the desired characteristics as set forth above I have grown approximately 16,000 seedlings obtained by crossing different varieties of poplars and determined which of these hybrid seedlings possessed the characteristics of the desired tree. The better of these seedlings have been propagated vegetatively and the desired characteristics were found to continue and show in the trees so produced vegetatively. This, of course, is frequently not true of subsequent generations grown from seed after a hybrid crossing. A portion of this work has been described in the Journal of Heredity, vol. 24, pages 216-229, in 1933.

Of course, one could not be certain of obtaining trees of the desired characteristics no matter how much work was done. The uncertainty of results is always present in attempting to get by hybridization a particular type of tree. Ordinarily in hybridization one simply makes numerous crosses and picks out the one most interesting. In this particular case, however, applicant was searching for trees of a particular type and, in general, discarded the hybrids produced unless they partcok of the nature of the type for which he was searching. The present application is for a hybrid in which the male parent was P. trichocarpa and the female parent P. angulata.

The method which I have employed in producing the seedlings of the hybrid poplar set forth above consisted in tying paper sacks over the clusters of flowers on the female trees before the flowers had opened. in order to prevent normal pollination. Later, when the flowers had opened, pollen was obtained from the flowers of the selected male tree. The pollen was taken at once to the female tree and, by means of a wad of cotton, dusted over the female flowers. The sacks were immediately replaced to prevent normal pollination. After about two weeks the paper sacks were replaced by green cheesecloth sacks. Approximately six weeks later when the seeds had ripened, they were removed, and the cotton carefully picked off and the seed planted in damp sand. When the seeds had germinated and the little trees had reached a height of about two inches, the small trees were transferred to larger containers and separated somewhat. Later, the seedlings were individually planted. At the end of the following summer the seedlings of desired characteristics were selected for propagation.

I have found that by simply taking the cuttings and making a hole approximately eight inches in depth in the damp ground by means of a sharp stick, putting the lower end of a cutting twelve or fourteen inches in length in the hole, and pressing the ground back around the cutting, fully per cent. of the cuttings of the new hybrids will grow. As is known to those skilled in the art, this vitality is not shown by their parents. Indeed, in the case of the common poplar (P. tremuloides) for example, not more than one or two in a thousand will grow under the same circumstances.

The general method of propagation applicable to the new hybrid poplar constituting the present invention is as follows: From the seedling tree produced, cuttings of the new wood (the preceding summers growth or the growth of two summers) are made after the leaves have fallen in the fall. These cuttings may be taken, generally speaking, during the period from November to March. The cutting from the small tree is then divided into pieces approximately from ten to fifteen inches in length. These cuttings are stored in an ice house or similar cool room, but are not allowed to dry out, until the time for planting is at hand. The cuttings may be planted either in the fall before the ground has become frozen or, as is preferable, in the spring shortly after the frost has left the ground and before the weeds have started to grow vigorously. The cutting is inserted in the ground, where it will begin to grow with considerable rapidity. I have found that, in the latitude of New York, with average summer weather, the cutting will grow into a tree of about six feet in height by the 15th of September. Under the same circumstances, the pure species which were the parents of this same hybrid will not reach a height of more than two or three feet. The growth of this new hybrid poplar in succeeding years is about the same as during the first year, that is, a gain of about six feet in height and approximately an inch in diameter per year may be counted upon.

I have found that from one cutting there will be obtained in one summer a five to eight foot tree. By cutting this tree into cuttings of say fourteen inches in length, there may be obtained from six to ten cuttings suitable for planting the following year, and from the old stalk there will come up a number of shoots so that during the following year there will be obtained not only the six to ten cuttings (each capable of providing six to ten new cuttings for propagation) but also from the original stalk sufiicient material to furnish another fifteen to twenty cuttings.

As will be apparent, if the tree is not cut up it will grow to be a mature tree and can. be expected to increase in diameter roughly an inch per year and in height about six feet per year. The exact increase will be determined by the length of the growing season and by the supply of rain during the particular summer in question. I have found that the new hybrid poplar above referred to thrives on sunshine and rain but requires little in the way of rich soil or fertilizers. Analyses of the wood show that this hybrid poplar, contrary to most trees, does not take up from the soil much more than a trace of nitrogen, potash or phosphates. In fact, attempts to secure the usual effects of fertilizer have failed to show more than about 10 per cent. increase in growth due to fertilizer treatment. In no event has the rate of growth of the herein. described hybrid poplar been increased 20 per cent by the use of fertilizer.

While the above describes the method always used in the early work of propagation of this new hybrid, later work has shown that the method of the McKee Patent No. 1,943,030, Propagation of trees from cuttings, is applicable so that all of the tree except the leaves can be used for propagation and thus a much more rapid multiplication of available trees be provided.

A tree which had been grown from a cutting for a single summer was sawed off even with the ground in the fall in order to make cuttings for propagation. From the one year root there grew the succeeding summer several shoots, a number of which reached the height of 9 ft. 6 in. in the one seasons growth. Such trees show an annual ring of about in. Of the hybrid poplars known previously P. eugcnei is generally considered as the most rapid growing but it shows annual rings of only about in. The wild poplars, such as P. tremuloides, which are now customarily used for lumber and pulpwood purposes show an annual ring of about 1/11 in. It is, accordingly, evident that the new hybrid described herein has a surprising rate of growth in that it is much more rapid in growing than the pure species, ordinary aspen, P. tremulcides, which is considered the fastest growing commercial wood of the northern forests, or the hybrid poplars grown in lumber plantations in Italy and France, P. eugenei, which is considered the fastest growing of the hybrid poplars hitherto known. It is to be noted further that the hardness and density of the wood of the present hybrid as compared with P. tremuloides and P. eugenei is about the same. Rapid growing trees often give soft and light woods.

A study of the chromosome numbers as shown in the root system from growing cuttings was made. The stainings were by the Flemming and I-Ieidenhain stains. In the original drawing the magnification is approximately 3400 times and the cell represented is from the cortical zone of a root tip stained with Heidenhain stain. The nucleus is in the equatorial plate stage of mitosis and shows 38 chromosomes.

Stems The stems are round at the base becoming angular toward the tip. They are glabrous, grayish brown at the base and green toward the tip. The lenticels are round to oval at the base, measuring 0.7 to 1.5 mm. in diameter, and are linear toward the tip, measuring 0.6 to 3.0 mm. long.

Leaves The infantile leaves are ovate to lanceolate, generally rounded or very slightly cordate at the base, with tips acute. The blades are usually greenish but frequently are more or less suffused with a bright red pigment which overshadows the green. This reddish tinge appears especially in young terminal leaves of an older shoot. The first leaves of a cutting usually are bright green. The margins are pubescent and are finely crenate with 8 to 12 crenations per centimeter. The veins are prominent and bright red in color. The blades measure 2.1 to 2.8 cm. wide by 2.8 to 3.7 cm. long. The petioles are red, pubescent and measure 1.5 to 1.8 cm. long.

The mature leaves are ovate, measuring 7.0 to 17.5 cm. wide by 8.7 to 25 cm. long. The bases are truncate to cordate and the tips acute to acuminate. The blades are bright green, glabrous above and below with margins sparsely pubescent and crenate. The crenations occur 3.5 to 4.0 per centimeter, and are cuspidate with cusps brown. The midrib is yellow to bright red. The large veins are usually yellow, sometimes slightly tinged with pale red pigment. The petioles are green to red, ridged, often flattened, lenticellate, and measure 3.5 to 7.5 cm. long. The stipules are triangular, pale green, becoming darker, hispid, viscid, and fugacious.

Buds

The buds are broadly triangular to lanceolate and measure 2.0 to 6.0 mm. long. They are pale to reddish brown, glossy, viscid, and appressed.

Lea f scars The leaf scars are broad, triangular, decurrent, and the bundle scars are prominent, keeled by prominent ridges which appear corky in older stems.

Resistance to disease This new hybrid poplar is not attacked by the common poplar diseases. For example, it seems to be entirely immune to Cytospora, the most common disease of both the wild and cultivated poplars. It is susceptible to Melampsora medusae in Maine but it has not been attacked by this rust in mssouri, Wisconsin, or New York. This is the red rust that has proven to be a pest to most poplars growing in America, i. e., those designated under the names of P. tremuloides, grcmdidenta, angulata, balsamifem, deltoides, wisliecui, occidentalis, clz'latata, and condzcans. European poplars are similarly affected.

One would like to have available the flower and seed characteristics but obviously they can not be given it would require a tree 15 to 20 years old to get these characters in true form. It was felt that it was safe not to attempt to get flowers and seed growth by grafting on ma ture trees as such growth is often affected by the hormones present in the sap of the grafted tree.

A study of the root producing hormones along the lines of the work done by Wend brings out that this hybrid has an exceptionally high percentage of such hormones.

The leaves of the young poplar hybrid covered by this application are surprisingly large, being often 9 in. in length and 8 in. in breadth. Such leaves are shown by trees in their first or second year of growth from cuttings. An older tree, say years old, shows leaves which are approximately 4 in. by 3 in.

The characteristics of this hybrid are:

(1) Fiber length of over 0.70 mm. in first years growth.

(2) Growth not increased 20% by fertilizer.

(3) Rapid growth in diameter, e. g. in. ring.

(4) Rapid growth in height.

(5) Relatively large proportion of the wood in the bole.

(6) Relatively few branches.

(7) Large leaves.

(8) Chromosomes 38.

(9) Resistance to disease.

(10) Rapid propagation.

There are scarcely any other characteristics that could be named which, from the viewpoint of those engaged in the art of growing trees for pulpwood or lumber, could be as distinctive as the major ones of those listed above, i. e., length of fiber, speed of growth, and nearly entire lack of fertilizer efiect.

Further evidence of the hardy strength of this hybrid is the fact that young trees, 12 to 14 in. high, have survived submersion for as much as a week under fiood waters and continued with growth unimpaired.

The new hybrid poplar which I have developed shows not only a more rapid rate of growth than the parent trees but also a greater freedom from the ordinary diseases to which poplars are susceptible. In addition, this hybrid poplar shows an increased length of fiber as compared with that of the parent trees. As is obvious, this greater length of fiber is important, not only because it provides a wood of greater mechanical strength, but even more so because it provides a wood which when used for the making of paper is found to give materially stronger paper. As is well known, greater length of fiber is a decided advantage from the paper making standpoint. The ordinary poplar used for paper making, known as P. tremulot'des, has, in the case of a one year old plant sampled a foot from the ground, a fiber length averaging about 0.54 mm. whereas the new hybrid set forth above has fiber length. under the same conditions of about 0.74 mm. These figures are for small trees in a single summers growth. Older trees have correspondingly longer length fibers; that is, the same approximate ratios are kept up.

From the foregoing it will be seen that I have developed, from the parents P. trichocurpa and P. angulata, a new hybrid poplar which is particularly suitable for supplying wood for lumber and for use in making wood pulp and which, because of the rapid growth rate of the trees and freedom from disease, is particularly valuable for reforestation purposes.

I claim:

A hybrid poplar as described, characterized by its very rapid rate of growth, its great fiber length, its large leaves, its disease resistance, and its ability to thrive and maintain substantially its maximum rate of growth in the absence of fertilizer.

RALPH H. MoKEE.

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