174 MINERAL SALTS ABSORPTION IN PLANTS 



KosTYTSCHEW, S. (1926). Lehrbuch der Pflanzenphysiologie. Springer, Berlin. 



(57). 

 Kramer, P. J. (1956). Relative amounts of mineral absorption through various 



regions of roots. U.S. Atomic Energy Commission Report TID-7512, 287- 



95. (113, Fig. 38b). 

 Kramer, P. J. (1957). Outer space in plants. Some possible implications of the 



concept. Sc/e/jct', 125, 633-35. (118). 



Laties, G. C. (1959). The generation of latent-ion-transport capacity. Proc. 



not. Acad. Sci. Wash. 45, 163-72. (84). 

 Leibovitz, J. and Kupermintz, N. (1942). Potassium in bacterial fermentation. 



Nature, 150, 233. (63; 64, Fig. 21a). 

 Lepeschkin, W. W. (1930). Light and the permeability of protoplasm. Amer 



Journ. Bot. 17, 953-70. (50). 



Lesage, P. (1890). Recherches experimentales sur les modifications des feuilles 

 chez les plantes maritimes. Rev. gen. Bot. 2, 55-65. (157). 



Levitt, J. (1957). The significance of "Apparent Free Space" (AFS) in ion 

 absorption. Physiol. Plant. 10, 882-88. (100). 



Lineweaver, H. and Burk, D. (1934). The determination of enzyme dissociation 

 constants. Journ. Amer. Chem. Soc. 56, 658-66. (45). 



Long, E. M. (1943). The effect of salt additions to the substrate on uptake of 

 water and nutrients by roots of approach-grafted tomato plants. Amer. 

 Journ. Bot. 30, 594-601. (63). 



Loughman, B. C. and Russell, R. S. (1957). The absorption and utilization 

 of phosphate by young barley plants. IV. The initial stages of phosphate 

 metabolism in roots. Journ. Exp. Bot. 8, 280-93. (86). 



LowENHAUPT, B. (1956). The transport of calcium and other cations in sub- 

 merged aquatics. Biol. Rev. 31, 371-95. (21, 50, 84). 



Lund, H. A., Vatter, A. E. and Hanson, J. B. (1958). Biochemical and 

 cytological changes accompanying growth and differentiation in the roots 

 of Zea mays. Journ. Biophys. Biochem. Cytol. 4, 87-98. (Plate I facing p. 95) 



Lundegardh, H. (1939). An electrochemical theory of salt absorption and 

 respiration. Nature, 143, 203-04. (77). 



Lundegardh, H. (1940). Sah absorption of plants. Nature, 145,114-15. (82). 



Lundegardh, H. (1954). Anion respiration. The experimental basis of a 

 theory of absorption, transport and exudation of electrolytes by living cells 

 and tissues. Symp. Soc. Exp. Biol. 8, 262-96. (45, 83, 91, 119, 143). 



Lundegardh, H. (1955). Mechanisms of absorption, transport, accumulation 

 and secretion of ions. Ann. Rev. Plant Physiol. 6, 1-24. (80). 



Lundegardh, H. and Burstrom, H. (1933). Untersuchungen iiber die Salz- 

 aufnahme der Pflanzen. III. Quantitative Beziehungen zwischen Atmung 

 und Anionenaufnahme. Biochem. Z. 261, 235-51. (77; 78, Fig. 28a). 



Machlis, L. (1944). The influence of some respiratory inhibitors and inter- 

 mediates on respiration and salt accumulation of excised barley roots. 

 Amer. Journ. Bot. 31, 183-92. (64, 92). 



Macrobbie, E. a. C. and Dainty, J. (1958a). Ion transport in Nitellopsis 

 obtusa. Journ. Gen. Physiol. 42, 335-53. (101 ; 102, Fig. 35a). 



