REFERENCES 175 



Macrobbie, E. a. C. and Dainty, J. (1958b). Sodium and potassium distribu- 

 tion and transport in the seaweed, Rhodymenia palmata (L). Grev. Physiol. 



Plant. 11, 782-801. (103). 

 Mason, T. G. and Maskell, E. J. (1931). Further studies on transport in the 



cotton plant. I. Preliminary observations on the transport of phosphorus, 



potassium and calcium. Ann. Bot. Lond. 45, 125-73. (128). 

 Meurer, R. (1909). Ober die regulatorische Aufnahme anorganischer Stoffe 



durch die Wurzeln von Beta vulgaris und Daucus carota. Jb. Wiss. Bot. 



46,503-67. (11,16). 

 MiDDLETON, L. J. and Russell, R. S. (1958). The interaction of cations in 



absorption by plant tissues. Journ. Exp. Bot. 9, 115-27. (61, Fig. 20b). 

 Miller, E. C. (1938). Plant Physiology (2nd Ed.) McGraw-Hill, New York. 



(3, Table 2). 

 Miller, G. W. and Evans, H. J. (1956). Inhibition of plant cytochrome 



oxidase by bicarbonate. Nature, 178, 974-76. (52). 

 Mitchell, P. (1954). Transport of phosphate through an osmotic barrier. 



Symp. Soc. Exp. Biol. 8, 254-61. (97). 

 Mitchell, P. (1957). A general theory of membrane transport from studies 



of bacteria. Nature, ISO, 134-36. (88). 

 Mullan, D. P. (1931). On the occurrence of glandular hairs (salt glands) on 



the leaves of some Indian halophytes. Journ. Indian Bot. Soc. 10, 184-89. 



(159). 

 Mullins, L. J. (1940). Radioactive ion distribution in protoplasmic granules. 



Proc. Soc. Exp. Biol. NY. 45, 856-58. (106). 



Nathanson, a. (1904). tjber die regulation der Aufnahme anorganischer Salze 

 durch die Krollen von Dahlia. Jb. IViss. Bot. 39, 607-44. (16). 



Newton, J. D. (1928). The selective absorption of inorganic elements by 

 various crop plants. Soil Sci. 26, 85-91. (70). 



Oland, K. and Opland, T. B. (1956). Uptake of magnesium by apple leaves. 



Physiol Plant. 9, 401-1 1 . (1 32). 

 Olsen, C. (1950). The significance of concentration for the rate of ion absorption 



by higher plants in water culture. Physiol. Plant. 3, 1 52-64. (56, Fig. 1 8b ; 57). 

 Olsen, C. (1953). The significance of concentration for the rate of ion absorption 



by higher plants in water culture. IV. The influence of hydrogen ion 



concentration. Physiol. Plant. 6, 848-58. (52). 

 Ordin, L. and Jacobson, L. (1955). Inhibition of ion absorption and respiration 



in barley roots. Plant Physiol. 30, 21-27. (92). 

 Osterhout, W. J. V. (1912). The permeability of protoplasm to ions and the 



theory of antagonism. Science, 35, 1 12-\ 3. (152). 

 Osterhout, W. J. V. (1936). The absorption of electrolytes in large plant cells. 



Bot. Rev. 2, 283-315. (55,76). 

 Osterhout, W. J. V. and Stanley, W. M. (1932). The accumulation of 



electrolytes. V. Models showing accumulation and a steady state. Journ. 



Gen. Physiol. 15, 667-89. (40, Fig. lib). 

 Overstreet, R., Broyer, T. C, Isaacs, T. L. and Delwiche, C. C. (1942). 



Additional studies regarding the cation absorption mechanism of plants in 



soil. Amer. Journ. Bot. 29, 227-31. (142). 



