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XIX.—The Effect of the Inhibition of Respiration and Assimilation on the Diatom Ditylum Brightwelli (West)

Published online by Cambridge University Press:  15 September 2014

D. Bhatia
D. Bhatia
Affiliation:
Department of Zoology, University of Edinburgh
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Extract

Ditylum Brightwelli, a marine plankton diatom, shows very peculiar osmotic relations which have recently been investigated by Gross (1939). The cells (fig. 1) consist of a central mass of protoplasm containing the nucleus and connected by a few protoplasmic strands with the peripheral plasma membrane in which are embedded numerous chromatophores. The remainder of the space inside the cell is filled with cell sap. As in other diatoms, the protoplast is enclosed by a siliceous cell wall. Gross found that Ditylum plasmolyses rapidly in isotonic and hypotonic NaCl and sugar solutions, being reduced in a few seconds to a small spherical body about one-third to one-twentieth of its original volume, similar in all respects to a resting spore. In a solution of NaCl + CaCl2, and in unbuffered artificial sea-water, plasmolysis occurs in all cells, but the process is considerably delayed and completed only after several hours. In artificial sea-water, the pH of which is adjusted to about 8, the cells remain unchanged.

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Proceedings
Information
Proceedings of the Royal Society of Edinburgh , Volume 60 , Issue 3 , 1940 , pp. 245 - 259
Copyright
Copyright © Royal Society of Edinburgh 1940

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References

References to Literature

Commoner, B., 1939. “The Effect of Cyanide on the Respiration of Baker's Yeast in Various Concentrations of Dextrose,” Journ. Cell. Comp. Physiol., vol. xiii, pp. 121138.CrossRefGoogle Scholar
Dixon, M., and Elliott, K. A. C., 1929. “The Effect of Cyanide on the Respiration of Animal Tissues,” Biochem. Journ., vol. xxiii, pp. 812830.CrossRefGoogle Scholar
Emerson, R., 1927. “The Effect of certain Respiratory Inhibitors on the Respiration of Chlorella,” Journ. Gen. Physiol., vol. x, pp. 469477.CrossRefGoogle Scholar
Genevois, L., 1927 a. “Ueber Atmung und Gärung in grünen Pflanzen, I,” Biochem. Zeits., vol. clxxxvi, pp. 461473.Google Scholar
Genevois, L., 1927 b. “Ueber Atmung und Gärung in grünen Pflanzen, II,” Biochem. Zeits. vol. cxci, pp. 147157.Google Scholar
Gross, F., 1937. “Notes on the Culture of some Marine Plankton Organisms,” Journ. Mar. Biol. Ass., vol. xxi, pp. 753768.CrossRefGoogle Scholar
Gross, F., 1939. “The Osmotic Relations of the Plankton Diatom Ditylum Brightwelli,”Journ. Mar. Biol. Ass., vol. xxiv, pp. 381415.Google Scholar
Keilin, D., 1925. “On Cytochrome, a Respiratory Pigment, common to Animals, Yeast, and Higher Plants,” Proc. Roy. Soc., B, vol. xcviii, pp. 312339.Google Scholar
Keilin, D., 1930. “Cytochrome and Intracellular Oxidase,” Proc. Roy. Soc., vol. cvi, pp. 418440.Google Scholar
Kitching, J. A., 1936. “The Physiology of Contractile Vacuoles: II. The Control of Body Volume in Marine Peritricha,” Journ. Exp. Biol., vol. xiii, pp. 1127.CrossRefGoogle Scholar
Kitching, J. A., 1938. “The Physiology of Contractile Vacuoles : III. The Water Balance of Fresh-water Peritricha,”Journ. Exp. Biol., vol. xv, pp. 143151.CrossRefGoogle Scholar
Osterhout, W. J. V., 1923. Recovery and Death in Relation to Conductivity and Permeability, Philadelphia.Google Scholar
Osterhout, W. J. V., and Haas, A. R. C., 1918. “On the Dynamics of Photosynthesis,” Journ. Gen. Physiol., vol. i, pp. 116.CrossRefGoogle Scholar
Paauw, Van Der, 1932. “The Indirect Action of External Factors on Photosynthesis,” Rec. Trav. Bot. Neerland, vol. xxix, pp. 497620.Google Scholar
Paauw, Van Der,1935. “Die Wirkung von Blausäure auf die Kohlensäureassimilation und Atmung von Stichococcus bacillaris,” Planta, vol. xxiv, p. 353.CrossRefGoogle Scholar
Pantin, C. F. A., 1930. “On the Physiology of Amœboid Movement: V. Anaerobic Movement,” Proc. Roy. Soc., B, vol. cv, pp. 538555.Google Scholar
Pantin, C. F. A., 1930. “On the Physiology of Amœboid Movement: VII. The Action of Anæsthetics,” Proc. Roy. Soc., vol. cv, pp. 565579.Google Scholar
Spoehr, H. A., 1926. Photosynthesis, New York.Google Scholar
Spoehr, H. A., and MacGee, , 1923. “Studies in Plant Respiration and Photosynthesis,” Carnegie Inst. Wash. Publ., p. 325.Google Scholar
Walter, H., 1923. “Protoplasma- und Membranquellung bei Plasmolyse. Untersuchungen an Bangia fusca-purpurea und anderen Algen,” Jahrb. Wiss. Bot., vol. lxii, pp. 145213.Google Scholar
Warburg, O., 1919. “Ueber die Geschwindigkeit der photochemischen Kohlensäurezersetzung in lebenden Zellen,” Biochem. Zeits., vol. c, pp. 230270.Google Scholar
Warburg, O., 1920. “Ueber die Geschwindigkeit der Kohlensäurezersetzung in lebenden Zellen,” Biochem. Zeits., vol. ciii, pp. 188217.Google Scholar
Warburg, O., 1921. “Physikalische Chemie der Zellatmung,” Biochem. Zeits., vol. cxix, pp. 135166.Google Scholar
Warburg, O., 1926. “Ueber die Wirkung des Kohlenoxyds auf den Stoffwechsel der Hefe,” Biochem. Zeits., vol. clxxvii, pp. 471486.Google Scholar