12 FORESTRY [Bot. Absts., Vol. VI, 



86. Beumee, J. G. B. Over Bastverwondingen aan den djati. [Bark wounds of teak.] 

 Mededeel. Proefsta. Boschw. Dept. Landb. Nijverheid en Handel Nederlandsch-Indie 4: 

 31-54. PI. 12-17. 1919.— See Bot. Absts. 6, Entry 218. 



87. Bixby, W. G. The butternut and the Japan walnut. Amer. Nut Jour. 10: 76-79, 

 82, S3, 11 fig. 1919.— See Bot. Absts. 5, Entry 329. 



88. Cooper, G. M. Growth of sal from broadcast sowings. Indian Forester 45: 310-312. 

 1919. — An average girth of 5.17 inches and an average height of 12 feet 2 inches was made 

 by a sal plantation from broadcast seed in 5 years from sowing. — E. N. Munns. 



89. Dixon*, H. H., and W. R. G. Atkixs. Osmotic pressures in plants. VI. On the 

 composition of the sap in the conducting tracts of trees at different levels and at different seasons 

 of the year. Sci. Proc. Roy. Dublin Soc. 15: 51-62. 1918.— See Bot. Absts. 5, Entry 848. 



90. Eaton, B. J. Commercial possibilities of Para rubber seed oil. Agric. Bull. Feder- 

 ated Malay States 7: 73-78. 1919.— Gives the results, yield, and sale price, of an experimental 

 shipment of 25 f tons of seeds to England. — E. D. Merrill. 



91. Ferreri, E. Dati dendrometrici sul faggio della foresta inalienabile di Camaldoli. 

 [Dendrometric data on Fagus in the inalienable forest of Camaldoli.] Staz. Sper. Agr. Ital. 

 52:542-543. 1919.— A. Bonazzi. 



92. Ferreri, E. Applicazione di dieci metodi di cubatura per la determinazione della massa 

 legnosa di 42 piante di abete bianco in piedi della foresta inalienabile di Camaldoli. [The appli- 

 cability of ten methods for determining the total quantity of lumber in 42 standing plants of 

 white pine in the forest of Camaldoli.] Staz. Sper. Agr. Ital. 52: 587-598. 1919. — A compara- 

 tive study of the different methods. — A. Bonazzi. 



93. Glover, H. M. Spruce red wood. Indian Forester 45 : 243-245. 1919.— A red "heart- 

 wood" is often formed in the Himalayan spruce, which is moister than sapwood and cannot 

 be floated. This dries out readily but after being placed in water regains its original specific 

 gravity. — E. N. Munns. 



94. Harper, Roland M. The supposed southern limit of the eastern hemlock. Torreya 

 19: 19S-199. Oct., 1919.— See Bot. Absts. 4, Entry 337. 



95. Hartley, Carl, T. C. Merrill, and Arthur S. Rhodes. Seedling diseases of 

 conifers. Jour. Agric. Res. 15: 521-558. PL B. 1918.— See Bot. Absts. 4, Entry 1296. 



96. Hawes, A. F. Cooperative marketing of woodland products. U. S. Dept. Agric. 

 Farmers' Bull. 1100. 15 p., 6 fig. 1920. 



97. Heimlich, Louis F. The trees of White County, Indiana. Proc. Indiana Acad. Sci. 

 1917: 387-471. 34 pi. 1918.— See Bot. Absts. 4, Entry 338. 



98. Henkel, J. S. Why grow trees? Rhodesia Agric. Jour. 17: 137-141. 1920. 



99. Hollick, A. The story of the Bartram oak. Sci. Amer. 121 : 422, 429-430, 432. 6 fig. 

 1919— See Bot. Absts. 4, Entry 615. 



100. Kotze, J. J., and E. P. Phillips. A note on the genus Faurea Harv. South African 

 Jour. Sci. 16: 232-238. PI. 13-18, 2 fig. 1919. — Faurea nalalensis is evidently confined to the 

 eastern coastal forest belts. Faurea Mcnaughtonii is only known from Knysna, where it is 

 confined to the Lily Vlei Forest. Faurea saligna is used for fence posts, as a wagon wood and 

 for furniture, etc. It is said to be fairly ant resistant. Faurea Mcnaughtonii is remarkable 

 for the durability of its timber, which compares favorably with that of the sneezewood. — 

 E. P. Phillips. 



