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Seasonal Changes in the Organic Forms of Carbon, Nitrogen and Phosphorus in Sea Water at E1 in the English Channel During 1968

Published online by Cambridge University Press:  11 May 2009

M. W. Banoub  and
P. J. leB. Williams
M. W. Banoub
Affiliation:
Department of Oceanography, The University, Southampton
P. J. leB. Williams
Affiliation:
Department of Oceanography, The University, Southampton
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Extract

A seasonal survey of particulate and dissolved organic material was made at E1 in the English Channel during 1968. The average integral mean values were: dissolved organic carbon 65 μg-at C/l (780 μg C/l); dissolved organic nitrogen 4·6 μg-at N/l (64 μg N/l); dissolved organic phosphorus 0·12 μg-at P/l (3·8 μg P/l); particulate organic carbon 190 μg C/l and particulate organic nitrogen 21 μg N/l. Dissolved organic carbon and the particulate organic carbon and nitrogen showed increases subsequent to the spring bloom; such increases were less evident in the dissolved organic nitrogen results and not apparent in those of dissolved organic phosphorus.

Analyses were also made in March and June in 1969 at two other stations in the English Channel, in addition to E1. The results from the three stations were basically similar.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 53 , Issue 3 , August 1973 , pp. 695 - 703
Copyright
Copyright © Marine Biological Association of the United Kingdom 1973

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References

Andrews, P. & Williams, P. J. Leb., 1971. Heterotrophic utilization of dissolved organic compounds in the sea. III. Measurement of the oxidation rates and concentrations of glucose and amino acids in sea water. Journal of the Marine Biological Association of the United Kingdom, 51, 111–25.CrossRefGoogle Scholar
Armstrong, F. A. J. & Butler, E. I., 1959. Chemical changes in sea water off Plymouth during 1957. Journal of the Marine Biological Association of the United Kingdom, 38, 41–5.CrossRefGoogle Scholar
Armstrong, F. A. J. & Butler, E. I., 1960 a. Chemical changes in sea water off Plymouth during 1958. Journal of the Marine Biological Association of the United Kingdom, 39, 299302.CrossRefGoogle Scholar
Armstrong, F. A. J. & Butler, E. I., 1960 b. Chemical changes in sea water off Plymouth during 1959. Journal of the Marine Biological Association of the United Kingdom, 39, 525–8.CrossRefGoogle Scholar
Armstrong, F. A. J. & Butler, E. I., 1962 a. Chemical changes in sea water off Plymouth during 1960. Journal of the Marine Biological Association of the United Kingdom, 42, 253–8.CrossRefGoogle Scholar
Armstrong, F. A. J. & Butler, E. I., 1962 b. Hydrographic surveys off Plymouth in 1959 and 1960. Journal of the Marine Biological Association of the United Kingdom, 42, 445–63.Google Scholar
Armstrong, F. A. J. & Butler, E. I., 1963. Chemical changes in sea water off Plymouth in 1961. Journal of the Marine Biological Association of the United Kingdom, 43, 75–8.CrossRefGoogle Scholar
Armstrong, F. A. J. & Butler, E. I., 1968. Chemical changes in sea water off Plymouth during the years 1962 to 1965. Journal of the Marine Biological Association of the United Kingdom, 48, 153–60.Google Scholar
Armstrong, F. A. J. & Harvey, H. W., 1950. The cycle of phosphorus in the waters of the English Channel. Journal of the Marine Biological Association of the United Kingdom, 29, 145–62.CrossRefGoogle Scholar
Armstrong, F. A. J., Williams, P. M. & Strickland, J. D. H., 1966. Photooxidation of organic matter in sea water by ultraviolet radiation, analytical and other applications. Nature, London, 211, 481–3.Google Scholar
Banoub, M. W., 1971. The cycle and balance between organic and inorganic matter in the English Channel. Ph.D. Thesis, University of Southampton, Southampton.Google Scholar
Banoub, M. W., 1972. A method for the determination of paniculate nitrogen in natural waters. International Journal of Environmental Analytical Chemistry, 2, 107–12.CrossRefGoogle Scholar
Butler, E. I., Corner, E. D. S. & Marshall, S. M., 1970. On the nutrition and metabolism of zooplankton. VII. Seasonal survey of nitrogen and phosphorus excretion by Calanus in the Clyde Sea-area. Journal of the Marine Biological Association of the United Kingdom, 50, 525–60.CrossRefGoogle Scholar
Cooper, L. H. N., 1933. Chemical constituents of biological importance in the English Channel, November 1930 to January 1932. I. Phosphate, silicate, nitrate, nitrite, ammonia. Journal of the Marine Biological Association of the United Kingdom, 18, 677728.CrossRefGoogle Scholar
Duursma, E. K., 1961. Dissolved organic carbon, nitrogen and phosphorus in the sea. Netherlands Journal of Sea Research, 1, 147.CrossRefGoogle Scholar
Duursma, E. K., 1963. The production of dissolved organic matter in the sea, as related to the primary gross productions of organic matter. Netherlands Journal of Sea Research, 2, 8594.CrossRefGoogle Scholar
Holm-Hansen, O., Strickland, J. D. H. & Williams, P. M., 1966. A detailed analysis of biologically important substances in a profile off Southern California. Limnology and Oceanography, 11, 548–61.CrossRefGoogle Scholar
Menzel, D. W. & Ryther, J. H., 1964. The composition of paniculate organic matter in the Western North Atlantic. Limnology and Oceanography, 9, 179–86.CrossRefGoogle Scholar
Menzel, D. W. & Vaccaro, R. F., 1964. The measurement of dissolved organic and paniculate carbon in seawater. Limnology and Oceanography, 9, 138–42.CrossRefGoogle Scholar
Redfield, A. C., Ketchum, B. H. & Richards, F. A., 1963. The influence of organisms on the composition of sea water. In The Sea, vol. 2 (ed. Hill, M. N.), pp. 2677. London: Interscience.Google Scholar
Redfield, A. C., Smith, H. P. & Ketchum, B., 1937. The cycle of organic phosphorus in the Gulf of Maine. Biological Bulletin, Marine Biological Laboratory, Woods Hole, 73, 421–43.CrossRefGoogle Scholar
Riley, J. P. & Segar, D. A., 1970. The seasonal variation of free and combined dissolved amino acids in the Irish Sea. Journal of the Marine Biological Association of the United Kingdom, 50, 713–20.CrossRefGoogle Scholar
Russell, F. S., Southward, A. J., Boalch, G. T. & Butler, E. I., 1971. Changes in biological conditions in the English Channel off Plymouth during the last half century. Nature, London, 234, 468–70.Google Scholar
Steele, J. H. & Baird, I. E., 1961. Relation between primary production, chlorophyll and paniculate carbon. Limnology and Oceanography, 6, 6878.CrossRefGoogle Scholar
Strickland, J. D. H. & Parsons, T. R., 1965. A manual of sea water analysis. Bulletin, Fisheries Research Board of Canada, 125, 203.Google Scholar
Thomas, J. P., 1971. Release of dissolved organic matter from natural population of marine phytoplankton. Marine Biology, 11, 311–23.CrossRefGoogle Scholar