Water In Plants —215— Bibliography 



Hall, W. H. 1940: Suggestions regarding a proposed standardization of osmotic pressure as a 



term (Science 92: 334). 

 Halma, F. F., and A. R. C. Haas 1928: Effect of sunlight on sap concentration of citrus leaves 



(Bot. Gaz. 86: 102-106). 

 Hamner, K. C, and J. Bonner 1938: Photopetiodism in relation to hormones as factors in floral 



initiation and development {Ibid. 100: 388-431). 

 Handley, W. R. C. 1939: The effect of prolonged chilling on water movement and radial growth 



in trees (Ann. Bot. 2: 803-813). 

 Hannig, E. 1912: Untersuchungen iiber die Verteilung des osmotischen Druckes in der Pflanze in 



Hinsicht auf die Wasserleitung (Ber. deut. bot. Ges. 20: 194-204). 

 Hansteen-Cranner, B. 1914: Uber das Verhalten der Kulturpflanzen zu den Bodensalzen, III 



(Jahrb. wiss. Bot. 52: 536-602). 

 Harkens, W. D. 1926: Surface energy and surface tension {In Alexander, J., Colloid Chemistry 



1: 192-264. Chemical Catalog Company, New York). 

 Harned, H. S., and B. B. Owen 1943: The physical chemistry of electrolytic solutions, 611 p. 



(Reinhold, New York). 

 Harris, J. A. 1915: An extension to 5.99° of tables to determine the osmotic pressure of expressed 



vegetable saps from the depression of the freezing point (Amer. Jour. Bot. 2: 418-419). 



1934: The physico-chemical properties of plant saps in relation to phytogeography, 339 p. 



(Univ. Minnesota Press, Minneapolis). 



— — , and R. A. Gortner 1914: Notes on the calculation of the osmotic pressure of expressed 



vegetable saps from the depression of the freezing point, with a table for the values of P for A 



= 0.001° to A = 2.999° (Amer. Jour. Bot. 1: 75-78). 

 - — ■ — , J. V. Lawrence, and R. A. Gortner 1916: The cryoscopic constants of expressed vegetable 



saps as related to local environmental conditions in the Arizona deserts (Physiol. Res. 2: 1-49). 

 Harter, L. L. 1908: The influence of a mixture of soluble salts, principally sodium chlorid, upon 



the leaf structure and transpiration of wheat, oats, and barley (U. S. Dept. Agric. Bur. Plant 



Ind. Bull. 124: 1-22). 

 Hartmair, V. 1937: tJber Vakuolenkontraktion in Pflanzenzellen (Protoplasma 2S: 582-592). 

 Hartsuijker, K. 1935: Kritische Bemerkungen ueber einige der wichtigsten Methoden zur Ermitt- 



lung des Oeffnungszustandes der Spaltoeffnungen (Rec. trav. botan. Neerland. 22: 516-542). 

 Harvey, E. B. 1917: A physiological study of specific gravity and of luminescence in Noctiluca, 



with special reference to anesthesia (Publ. Carnegie Inst. 11, p. 237-253). 

 Hausermann, E. 1944: The amount of wetting of mesophylHc intercellular spaces (Ber. schwez. 



boton. Ges. 54: 541-578). 

 Hasman, M. 1943: A study of the shape of the determinant curve in measurements of the suction 



potential in plant tissues (Istanbul Universitesi fen Facultesi Mecmuasi. B/8: 167-200). 

 Hasselbring, H. 1914: The relation between the transpiration stream and the absorption of salts 



(Bot. Gaz. 57: 72-73). 

 Hayward, H. E., and W. B. Spurr 1944: Effects of isosmotic concentrations of inorganic and or- 

 ganic substrates on entry of water into corn roots (Bot. Gaz. 106: 131-139). 

 Heath, O. V. S. 1941: Experimental studies of the relation between carbon assimilation and 



stomatal movement, II. The use of the resistance porometer in estimating stomatal aperture 



and diffuse resistance. (Ann. Bot. N.S. 5: 455-500). 

 Heinicke, a. J., and N. F. Childers 1935: The influence of water deficiency in photosynthesis and 



transpiration of apple leaves (Proc. Amer. Soc. Hort. Sci. 22: 155-159). 

 Henderson, L. J. 1924: The fitness of the environment, 317 p. (Macmillan, New York). 

 Hendrickson, a. H., and F. J. Veihmeyer 1941: Moisture distribution in soil containers (Plant 



Physiol. 16: 821-826). 

 , and 1942: Irrigation experiments with pears and apples (Calif. Agr. Exp. Sta. Bull. 



667). 

 ^ and 1945: Permanent wilting percentages of soils obtained from field and laboratory 



trials (Plant Physiol. 20: 517-539). 

 Henrici, M. 1943: Data on the sugar and starch content of some fodder plants under different 



physiological conditions (So. African Jour. Sci. 40: 157-161). 



1945 : The effect of wilting on the direct assimilates of lucerne and other fodder plants {Ibid. 



41: 204-212). 



Hermans, P. H., and A. Weidinger 1946: The hydrates of cellulose (Jour. Colloid Sci. 1: 185- 



193). 

 Herrick, E. M. 1933: Seasonal and diurnal variations in the osmotic values and suction tension 



values in the aerial portions of Ambrosia trifida (Amer. Jour. Bot. 20: 18-34). 



1934: A three wire thermocouple system for use in cryoscopic investigations {Ibid. 21: 673- 



687). 



Heuser, E. 1944: The chemistry of cellulose, 660 p. (Wiley, New York). 



Heyn, a. N. J. 1940: The physiology of cell elongation (Bot. Rev. 6: 515-574). 



Hibbard, R. p., and O. E. Harrington 1913: Depression of the freezing point in triturated plant 



tissues and the magnitude of this depression as related to soil moisture (Physiol. Res. 1: 441- 



454). 

 Hiesey, W. M. 1940: A critical study of transpiration rates of alpine and lowland forms of Poten- 



tilla gracilis (Ph.D. Dissert., Univ. of California). 

 Hildebrand, E. M. 1942: Rapid transmission techniques for stone-fruit viruses (Science 95: 52). 

 , and O. F. Curtis 1942: A darkening technique for inducing virus symptoms in mature as well 



as in growing leaves (Science 95: 390). 

 Hildebrand, J. H. 1924: Solubility (Amer. Chem. Soc. Monograph Ser., 206 p., Chem. Catalog. 



Co., New York). 



1936: Solubility of non-electrolytes, 2nd ed., 303 p. (Reinhold, New York). 



1937: Intermolecular forces in solutions (Trans. Far. Soc. 22: 144-151). 



Hill, A. V. 1930: A thermal method of measuring the vapour pressure of aqueous solutions (Proc. 



Roy, Soc. London A127: 9-19). 

 HiRSCHFELDER, J., D. Stevenson, and H. Eyring 1937: A theory of liquid structure (Jour. Chem. 



Physics 5: 896-912). 



