Hostname: page-component-76fb5796d-vvkck Total loading time: 0 Render date: 2024-04-26T14:05:10.770Z Has data issue: false hasContentIssue false
  • English
  • Français

Nitrogen and phosphorus required for the growth of phytoplankton

Published online by Cambridge University Press:  11 May 2009

H. W. Harvey
Get access Rights & Permissions [Opens in a new window]

Extract

A method is described for obtaining growths of phytoplankton in samples of crude sea water, similar in composition but several hundred times more dense than phytoplankton communities occurring in the sea.

The ratio of nitrogen to phosphorus utilized by such communities has been determined.

They use ammonium in preference to nitrate, although the latter may be many times more concentrated than the former.

They use urea and uric acid as sources of nitrogen.

Certain amino-acids when added as sources of nitrogen were attacked by the bacteria in the community and either the ammonium set free or both the ammonium and the amino-acid were used by the phytoplankton. Others, as d-leucine, were not utilized, or, as l-leucine, only slowly utilized.

Sodium nucleinate and caseinate were rapidly broken down when added to crude sea water by bacterial action, and the phosphate produced utilized by phytoplankton. There was no significant utilization of glycerophosphate.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 24 , Issue 1 , January 1940 , pp. 115 - 123
Copyright
Copyright © Marine Biological Association of the United Kingdom 1940

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCE

Allen, E. J. & Nelson, E. W., 1910. On the artificial culture of marine plankton organisms. Journ. Mar. Biol. Assoc., Vol. X, pp. 417–39.Google Scholar
Baldwin, E., 1937. An Introduction to Comparative Biochemistry, Cambridge University Press.CrossRefGoogle Scholar
Braarud, T. & Föyn, B., 1930. Beiträge zur Kenntnis des Stoffwechsels im Meer. Avh. Norske Videnskap Akad., No. 14, pp. 1–24.Google Scholar
Cooper, L. H. N., 1937a. On the ratio of nitrogen to phosphorus in the sea. Journ. Mar. Biol. Assoc., Vol. XXI, pp. 177–82.CrossRefGoogle Scholar
Cooper, L. H. N., 1937b. The nitrogen cycle in the sea. Journ. Mar. Biol. Assoc., Vol. XXI, pp. 183204.CrossRefGoogle Scholar
Gardiner, A. C., 1937. Phosphate production by planktonic animals. Journ. Cons. Int. Explor. Mer., Vol. XII, pp. 144–46.CrossRefGoogle Scholar
Harvey, H. W., 1934. Measurement of phytoplankton population. Journ. Mar. Biol. Assoc., Vol. XIX, pp. 761–73.CrossRefGoogle Scholar
Harvey, H. W., Cooper, L. H. N., Lebour, M. V. & Russell, F. S., 1935. Plankton production and its control. Journ. Mar. Biol. Assoc., Vol. XX, pp. 407–41.CrossRefGoogle Scholar
Kreps, E., 1934. Organic catalysts or enzymes in sea water. James Johnstone Memorial Volume, Liverpool, pp. 193202.Google Scholar
Lloyd, B., 1937. Bacteria in stored sea water. Journ. Roy. Tech. Coll. Glasgow, Vol. IV, p. 173.Google Scholar
Pearsall, W. H. & Loose, L., 1937. The growth of Chlorella vulgaris in pure culture. Proc. Roy. Soc., B, Vol. CXXI, pp. 451501.Google Scholar
Peterson, W., Fred, E. & Domogalla, B., 1925. The occurrence of amino acids and other organic nitrogen compounds in lake water. Journ. Biol. Chem., Vol. LXIII, pp. 287–95.CrossRefGoogle Scholar
Redfield, A. C., 1934. On the proportion of organic derivatives in sea water and their relation to the composition of plankton. James Johnstone Memorial Volume, Liverpool, pp. 176–92.Google Scholar
Redfield, A., Smith, P. & Ketchum, B., 1937. The cycle of organic phosphorus in the Gulf of Maine. Biol. Bull., Vol. LXXIII, pp. 421–33.CrossRefGoogle Scholar
Schreiber, E., 1927. Die Reinkultur von marinen Phytoplankton. Wiss. Meeresuntersuch. Abt. Helgoland., N.F., Bd. 16, No. 10, pp. 134.Google Scholar
Waksman, S. A., Reuzer, H. W., Carey, C. L., Hotchkiss, M. & Renn, C. E., 1933. Biology and chemistry of the Gulf of Maine. III. Bacteriological investigation of the sea water and marine bottoms. Biol. Bull., Vol. LXIV, pp. 183205.CrossRefGoogle Scholar
Warburg, O. & Negelein, F., 1920. Ueber die Reduction der Saltpetersäure in grünen Zellen. Biochem. Zeitsch., Vol. CX, pp. 66115.Google Scholar