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Certain Effects of Agitation Upon the Release of Phosphate from Mud

Published online by Cambridge University Press:  11 May 2009

William Stephenson
Affiliation:
Dove Marine Laboratory, University of Durham, Cullercoats, Northumberland

Extract

When sea water is stirred with mud and then filtered, its phosphate concentration may either increase or decrease. When the filtrate is ultrafiltered, the concentration increases.

Similar increases occur when the filtrate is stored in glassware, and these obscure any effects of the presence of colloidal material. On storage concentrations rise for about 2 hr., and then fall to as low as 2 mg./m.3 P2O5 in 18 hr.

Rise and fall are both prevented by the addition of formalin, chloroform or toluene, and are more noticeable in small containing vessels. Both occur during either day or night, and when temperatures are either rising or falling.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 1949

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References

REFERENCES

Atkins, W. R. G., 1923. The phosphate content of fresh and salt waters in its relationship to the growth of algal plankton. Journ. Mar. Biol. Assoc., Vol. 14, pp. 119–50.CrossRefGoogle Scholar
Atkins, W. R. G. & Wilson, E. G., 1927. The phosphorus and arsenic compounds of sea water. Journ. Mar. Biol. Assoc., Vol. 14, pp. 609–14.CrossRefGoogle Scholar
Cooper, L. H. N., 1933. Chemical constituents of biological importance in the English Channel. Journ. Mar. Biol. Assoc., Vol. 18, pp. 677728.CrossRefGoogle Scholar
Cooper, L. H. N., 1938. Salt error in the determination of phosphate in sea water. Journ. Mar. Biol. Assoc., Vol. 23, 171–8.CrossRefGoogle Scholar
Harvey, H. W., 1937 a. The supply of iron to diatoms. Journ. Mar. Biol. Assoc., Vol. 22, pp. 205–19.CrossRefGoogle Scholar
Harvey, H. W., 1937 b. Note on colloidal ferric hydroxide in sea water. Journ. Mar. Biol. Assoc., Vol. 22, pp. 221–5.CrossRefGoogle Scholar
Harvey, H. W., 1945. Recent Advances in the Chemistry and Biology of Sea Water. Cambridge Univ. Press.Google Scholar
Harvey, H. W., 1948. The estimation of phosphate and of total phosphorus in sea water. Journ. Mar. Biol. Assoc., Vol. 27, pp. 337–59.CrossRefGoogle Scholar
Ibañez, O. G., 1933. Note on the effect of salts in the determination of phosphates in sea water by Denigés method. Journ. Conseil Int. Explor. Mer, Vol. 8, pp. 326–9.CrossRefGoogle Scholar
Lloyd, B., 1937. Bacteria in stored sea water. Journ. Roy. Tech. Coll. Glasgow, Vol. 4, pp. 173–7.Google Scholar
Marshall, S. M., 1947. An Experiment In Marine Fish Cultivation. III. The Plankton of a fertilized Loch. Proc. Roy. Soc. Edinb., B, Vol. 63, pp. 2133.Google Scholar
Matthews, D.J., 1916. On the amount of phosphoric acid in the sea water off Plymouth Sound. I. Journ. Mar. Biol. Assoc., Vol. 11, pp. 122–30.CrossRefGoogle Scholar
Moore, H. B., 1930. The muds of the Clyde Sea area. I. Phosphate and nitrogen contents. Journ. Mar. Biol. Assoc., Vol. 16, pp. 595607.CrossRefGoogle Scholar
Redfield, A. C, Smith, H. & Ketchum, B., 1937. The cycle of organic phosphorus in the Gulf of Maine. Biol. Bull. Woods Hole, Vol. 73, pp. 421–43.CrossRefGoogle Scholar
Renn, C. E., 1937. Bacteria and the phosphorus cycle in the sea. Biol. Bull. Woods Hole, Vol. 72, pp. 190–5.CrossRefGoogle Scholar
Stockfisch, K. & Benade, W., 1930. Die Charakterisierung der Heilschlamme und verwandter Stoffe—physikalischen Eigenschaften. Mitt. Laborat. preuss. geol. Landesanst., Heft II, pp. 3583.Google Scholar
Sverdrup, H. U., Johnson, M. W. & Fleming, R. H., 1942. The Oceans. New York. 1087 pp.Google Scholar
Waksman, S. A., 1933. On the Distribution of organic matter in the sea bottom and the chemical nature and origin of marine humus. Soil Sci., Vol. 36, pp. 125–47.Google Scholar
Waksman, S. A., Stokes, J. L. & Butler, M. R., 1937. Relation of bacteria to diatoms in sea water. Journ. Mar. Biol. Assoc., Vol. 22, pp. 359–72.CrossRefGoogle Scholar
Zobell, C. E., 1946. Marine Microbiology, Waltham, Mass. 240 pp.Google Scholar
Zobell, C. E. & Anderson, D. Q., 1936. Observations on the multiplication of bacteria in different volumes of stored sea water and the influence of oxygen tension and solid surfaces. Biol. Bull. Woods Hole, Vol. 71, pp. 324–42.CrossRefGoogle Scholar