BURTON EDWARD LIVINGSTON 



velopment. Plant World 10: 269-276. 1907.— Evaporation and plant habitats. Ihid. 

 11:1-9. 1908.— A simple atmometer. Science N. S. 28: 319-320. 1908. A method 

 for controlling plant moisture. Plant World 11: 39-40. 1908.— The botanical garden 

 of Florence. Ihid. 11:86-88. 1908. — Evaporation and centers of plant distribution. lUd. 

 11:106-112. 1908.— The botanical garden at Pisa. 76id. 11: 156-157. 1908.— A new 

 method for cultures of algae and mosses. Ihid. 11: 183-184. 1908. — Soils of the Desert 

 Laboratory domain. (In: Spalding, Distribution, etc., of desert plants. Carnegie 

 Inst. Wash. Pub. 113. Pages 83-93.) 1909. — Present problems of physiological plant 

 ecology. Amer. Nat.. 43: 369-378. 1909. — Present problems of physiological plant 

 ecology. Plant World 12: 41-46. 1909. — Roles of the soil in limiting plant activities. 

 Ihid. 12: 49-53. 1909.— A repeated cycle in assimilation. Ihid. 12: 66-67. 1909.— 

 Stomata and transpiration in Tradescantia zebrina. Science N. S. 29: 269-270. 1909. 

 —The heath of Liineburg. Plant World 12: 231-237. 1909.— A rain-correcting at- 

 mometer for ecological instrumentation. Ihid. 13: 79-82. 1910. — Operation of the 

 porous cup atmometer. Ihid. 13: 111-118. 1910. — Relation of soil moisture to desert 

 vegetation. Bot. Gaz. 50: 241-256. 1910. — A radio-atmometer for comparing light 

 intensities. Plant World 14: 96-99. 1911. — The relation of the osmotic pressure of 

 the cell sap in plants to arid habitats. Ihid. 14: 153-164. 1911. — Light intensity 

 and transpiration. Bot. Gaz. 52: 417-438. 1911. — A study of the relation between 

 summer evaporation intensity and centers of plant distribution in the United States. 

 Plant World 14: 205-222. 1911. — Paper atmometers for studies in evaporation 

 and plant transpiration. Ihid. 14:281-289. 1911. — Relation of the daily march 

 of transpiration to variations in the water content of foliage leaves. {With W. H. 

 Brown.) Bot. Gaz. 53: 309-330. 1912. — Observations on the degree of stomatal 

 movement in certain plants. iyVith A. H. Estahrook.) Bull. Torr. Bot. Club. 39: 

 15-22. 1912. — Present problems in soil physics as related to plant activities. Amer. 

 Nat 46: 294-301. 1912. — The choosing of a problem for research in plant phys- 

 iology. Plant World 15: 73-82. 1912. — A rotating table for standardizing porous 

 cup atmometers. Ibid. 15: 157-162. 1912. — A schematic representation of the 

 water relations of plants, a pedagogical suggestion. Ibid. 15: 214-218. 1912. — 

 The resistance offered by leaves to transpirational water loss. Ihid. 16: 1-35. 1913. — 

 Adaptation in the living and non-living. Amer. Nat. 47: 72-82. 1913. — Osmotic pres- 

 sure and related forces as environmental factors. Plant World 16: 165-176. 1913. — • 

 Climatic areas of the United States as related to plant growth. Proc. Amer. Phil. Soc. 

 52: 257-275. 1913. — Temperature coefficients in plant geography and climatology. 

 {With G. J. Livingston.) Bot. Gaz. 56: 349-375. 1913. — The relation of atmospheric 

 evaporating power to soil moisture content at permanent wilting in plants. {With J. 

 W. Shive.) Plant World 17: 81-121. 1914. — Influence of humidity and illumination 

 on transpiration. Ihid. 17: 216-219. 1914. — On the water-supplying power of the soil 

 as indicated by osmometers. {With H. E. Pulling.) Carnegie Inst. Wash. Pub. 204: 

 5^8. Washington, 1915. — The water-relation between plant and soil. {With L.A. 

 Hawkins.) Carnegie Inst. Wash. Pub. 204: 49-84. Washington, 1915. — Atmometrj- 

 and the porous cup atmometer. Plant World 18: 21-30, 51-74, 95-111, 143-149. 

 1915. — Atmospheric influence upon evaporation and its direct measurement. Monthly 

 Weather Rev. 43: 126-131. 1915. — A modification of the Bellani porous-plate at- 

 mometer. Science N. S. 41: 872-874. 1915. — Physiological temperature indices for the 

 study of plant growth in relation to climate. Physiol. Res. 1: 399-420. 1916. — A single 

 index to represent both moisture and temperature conditions as related to plant 

 growth. Physiol. Res. 1: 421-440. 1916. — The daily march of transpiring power as 

 indicated by the porometer and by standardized hygrometric paper. {With S. F. 

 Trelease.) Jour. Ecol., in press. — Measurement of evaporation rates for short time 

 intervals. {With E. S. Johnston.) Plant World, in press. , 



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