898 



LEGUMES 



LEMON 



It bas been shown, first iu 1880 by experiments con- 

 ducted by Hellriegel and Wilfartb and later by numer- 

 ous other investigators, that when Legumes are grown 

 in sterilized sand, which contains no trace of nitrogen, 

 they soon die of nitrogen-hunger, and no tubercles arn 

 formed on their roots. If, however, a very small quan- 

 tity of soil extract or of bacteroids, grown from ront- 

 tubercles, is added to the sand, the plant-^ ns- 

 sume new vigor and grow to maturity. Tu- 

 I)ercles are formed on the roots, and iIm- 

 plants are found to contain more nitrogtii 

 than was present in the seed. By such ex- 

 periments it is shown that Legumes can ac- 

 quire free nitrogen through the agency of the 

 bacteroids. The physiolriu'ical process by 

 which this is dom- is still obscure. 



Some species id' LiKumfs can be innocu- 

 lated by bacteroids from iither species, but 

 others seem to be dependent upon their own 

 .specific organism. The organisms are spread 

 in the soil only by mechanical agencies, such 

 as working the soil, moving water, wind, etc. 

 If the soil is rich in nitrogen, leguminous 

 plants can develop, like all others, without 

 the aid of tubercles. 



Recently pure cultures of bacteroids have 

 been offered in the market as Nitragin, to be 

 used for the purpose of innoculating soils de- 

 ficient in micro-organisms. Altbtnigh several 

 espeiiraenters claim sui-css with this sub- 

 stance, its practical applic-;itiriii tu agriculture 

 remains yet to. be demonstrated. The sub- 

 stance sold as Alinit, and said to enable 

 grasses to acquire free nitrogen, is merely a 

 pure culture of a very common bacterium 

 present in all decaying matter. 



Heinrich Hasselbring. 



oofh ind 



t..lM., ) 



ilelis, l^ 

 cumbf nt 



lEIOPHtLLUM (from /. /n 

 phi/lloii : ref.TrinjT t<i the si 

 Syn.. Diinlriinii immin-in 

 Sanii Mvrtlk. hvpigieen 

 branched shrub, sometimes 

 with small, glabrous opposite oi alternate 

 crowded Iva. and white or light pink small 

 fls. in terminal manv fld umbels, appearing 

 profusely late in spring It resembles m ap 

 peanince somewhat the Dwarf Box, and is 

 well adapted for borders of evergreen shrub- 

 beries and also for rockeries. It thrives best 

 in a peaty or very sandy, loamy soil and as 

 well in a sunny as in a partly shaded posi- 

 tion. Prop, by seeds sown in pans and placed 

 in a cool frame or by layers put down in fall. 

 One species in E. N. Amer. from N. J. to 

 Pla. Allied to Ledum. Lvs. entire: fls. in 

 terminal, umbelliform corymbs ; sepals jtnd 

 petals 3; stamens 10: fr. a 2-5-celled dehis- 

 cent many-seeded capsule. 



buxifdllum. Ell. (Ledum buxifdiium, Berg.). 

 Dense, leafy bush, to 3 ft. high: lvs. short- 

 petioled, thick, oval or obovate, about % in. 

 long: fls. white, pinkish outside, about one- 

 fifth in. across, on slender pedicels; petals 

 elliptic, alraosttwice as long as sepals. April- 

 June. Pine barrens and mountains, N. J. to 

 Fla. B.M. H7.3-2. Gn. 42, p. 559. G.W.F.A. 

 49. B.R. 7:531 (as Ammyrsine). L.B.C. 1:.')2 

 (as Ledum). Var. prostr&tum. Gray. Form- 

 ing dense depressed tufts: lvs. usually oval. 

 and deep green. High mountains of Carolina. 

 Alfred Rehder. 



L£MNA (Greek, limne ; a large pool of 

 standing water). Lemnacete. Di'ckwefd. 

 DrCKSMEAT. Duckweeds are common up.in stagnant 

 pools, often covering the water with a blanket of grten. 

 They are easily gathered for schoolroom and home 

 aquaria, and may be procured from specialists in aqua- 

 tics and native plants. Ducks and carp eat these plants 

 greedily. One of the common Duckweeds is shown 6 

 times its natural size in Fig. 12.59. Duckweeds are small 

 floating plants, %vithout any distinct stems, a whoie 



plant commonly consisting of one leaf and one un- 

 branched root which has no vascular tissue. These lvs. 

 are called fronds by the botanist largely because lvs. 

 do not ordinarily emit roots. The plants grow separ- 

 ately, or cohere by their edges in 2's or 3's, and muki- 

 ply by similar fronds, which grow out of the edges of 

 the old ones something like buds. The flowers are 

 minute and appear on the edge of the 

 frond. They consist of a pistil and generally 

 2 stamens which are inclosed in a sheath, 

 which the botanists have determined is a 

 spathe by reason of the place where it is 

 borne and by homology with related plants. 

 Ij. minor is said to flower more frequently 

 than any other northern species. Details of its 

 flower are shown in Pig. 1260, where there seem 

 to be 4 anthers, but there are only 2, each 

 bearing 2 locules. Some botanists consider 

 the 2 stamens as 2 fls. and the pistil a third 

 flower. Duckweeds are perennial plants. In 

 the autumn they fall to the botlom of the 

 ditch or pond, but rise again in the spring, 

 and increase in size. The allied genus Wolffia 

 contains the smallest flowering plants in the 

 vegetable kingdom. There are about 11 spe- 

 cies of Duckweeds, widely scattered. L.poly- 

 rhiza is commonly known in American botan- 

 ies as Spirixhln polyrhiza, but Spirodela is 

 considered by Bentham and Hooker a sub- 

 genus of Lemna. The common Duckweed 

 occasionally infests the small lily ponds (arti- 

 ficial ones)', where it is a pest. The simple 

 remedy is to flush the pond and see that com- 

 mon goldfish or carp are in sufficient numbers 

 to clear oil the remainder. 



ns 7-11: roots several. 



poIyrMza, Linn . ( Sp irocle la pol yrh) za, 

 Schleid.). Also spelled polyrrhiza. Fronds 

 broadly ovate or orbicular, attaining 3 or 4 

 lines diam. B.B. 1:365. 



AA. Veins 1-5 : root solitary. 

 B. Froiiils ohlong, 6 lines long, S lines wide. 



trisiilca, Linn. Fronds much thinner than 

 in the next, narrow and minutely toothed at 

 one end, thicker and taslk-like at the other, 

 usually with 2 young ones growing from op- 

 posite sides near the base. B.B. 1:366. V. 

 3:200. 



BB. J^ronds broadly ovate or orbicular, 



Z lines lonij. 

 minor, Linn. Figs. 1259-60. Fronds usu- 

 ally cohering in 3's or 4's, rather thick, not 

 minutely toothed. B.B. 1:366. V. 3:200. 

 Wm. Thicker and W. M. 



LEMON culture in Florida was assuming 

 an important share of horticultural work 

 previous to the cold winter of 1894-5, but 

 since then attention has been more largely 

 given to hardier fruits. The growing of Lemon 

 trees is beginning again in lower Florida, 

 in sections free from killing frosts, and al- 

 though soil conditions are rather unfavorable 

 to the cultivation of citrous trees, owing to 

 the rocky or poor character of the ground, 

 ^ there is evidence of interest and some practi- 



"• cal results from the experimental plantations. 



n58. Nodules on the There remained after the killing freezes some 

 roots of a young plant isolated orchards of Lemons iu southern 

 of earden pea. Florida, which have since entirely recovered 



Natural size. and have borne full crops of fruit for two or 



three years. 

 The pecuniary reward to a careful Tjemon grower is 

 large, provided he has suitable soil and a situation re- 

 moved from killing frosts, and, although profits from 

 other citrous fruits may be temporarily larger. Lemons 

 are constantly iu demand, and the reward is correspond- 

 ingly certain. Orchards are usually set with budded 

 trees, about 20 by 25 feet apart. The young trees after 

 setting are advantageously mulched with grass or other 



