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An Investigation of Detritus in Southampton Water

Published online by Cambridge University Press:  11 May 2009

Ann Trevallion*
Affiliation:
Department of Oceanography, University of Southampton
*
1Present name and address: Ann Ralph, Marine Laboratory, Aberdeen.

Extract

An apparatus is described which has been used at three sites in Southampton Water for the continuous collection of sedimenting detritus. The collected detritus was removed at monthly intervals for measurement, and for analysis of the organic carbon and nitrogen content.

The total quantities of dry detritus varied from 4 mg/cm2/month to 980 mg/cm2/month, and because of the variable collection of resuspended bottom material show no clear seasonal variation. The carbon content was 0.1–7.3% of the total and nitrogen varied from 0.02 to 0.62%. The organic content did show some seasonal variation which tended to follow changes in the abundance of phytoplankton.

The amounts of total detritus collected and the organic content are high compared with some other areas and this is thought to be due partly to the high primary productivity of the area and partly to the complex water movements in the estuary.

Introduction

The importance of detritus in suspension in the sea and as a superficial layer on the sediment is well recognized. The quantity of detritus in sea water has been measured (Armstrong & Atkins, 1950; Fox, Isaacs & Corcoran, 1952; Krey, 1950, 1961a, b, 1964; Krey, Banse & Hagmeier, 1957; Hagmeier, 1962) and usually exceeds the amount of living material in suspension by at least a factor of ten. Study of deposited detritus has mainly involved measurement of the amount of organic matter in bottom sediments (Waksman, 1933; Anderson, 1939; Southward, 1952; Morgans, 1956; Sanders, 1960).

In studies of marine productivity it is important to know not only the amount of detritus present in the water column, but also its composition and rate of sedimentation.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 1967

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References

Anderson, D. Q., 1939. Distribution of organic matter in marine sediments and its availability to further decomposition. J. mar. Res., Vol. 2, pp. 225–37.CrossRefGoogle Scholar
Armstrong, F. A. J. & Atkins, W. R. G., 1950. The suspended matter of sea water. J. mar. biol. Ass. U.K., Vol. 29, pp. 139–44.CrossRefGoogle Scholar
Bader, R. G., 1954. Use of factors for converting carbon or nitrogen to total sedimentary organics. Science, N. Y., Vol. 120, pp. 709–10.CrossRefGoogle ScholarPubMed
Bader, R. G., 1955. Carbon and nitrogen relations in surface and subsurface marine sediments. Geochim. cosmochim. Acta, Vol. 7, pp, 205–11.CrossRefGoogle Scholar
Fox, D. L., 1950. Comparative metabolism of organic detritus by inshore animals. Ecology, Vol. 31, pp. 100–8.CrossRefGoogle Scholar
Fox, D. L., Isaacs, J. D. & Corcoran, E. F., 1952. Marine leptopel, its recovery, measurement and distribution. J. mar. Res., Vol. 11, pp, 2946.Google Scholar
Hagmeier, E., 1962. Das Seston und seine Komponenten. Kieler Meeresforsch., Bd. 20, H. I, pp. 1217.Google Scholar
Krey, J., 1950. Eine neue Methode zur quantitativen Bestimmung des Planktons. Kieler Meeresforsch., Bd. 17, H. 1, pp. 5876.Google Scholar
Krey, J., 1961 a. Der Detritus im Meere. J. Cons. perm. int. Explor. Mer, Vol. 26, pp. 263–80.CrossRefGoogle Scholar
Krey, J., 1961 b. Beobachtungen über den Gehalt an Mikrobiomasse und Detritus in der Kieler Bucht, 1958–1960. Kieler Meeresforsch., Bd. 17, H. 2, pp. 163–75.Google Scholar
Krey, J., 1964. Die mittlere Tiefenverteilung von Seston Mikrobiomasse und Detritus im nbördlichen Nordatlantik. Kieler Meeresforsch., Bd. 20, H. 1, pp. 1829.Google Scholar
Krey, J., Banse, K. & Hagmeier, E., 1957. Über die Bestimmung von Eiweiss im Plankton mittels der Biuretreaktion. Kieler Meeresforsch., Bd. 13, H. 1, pp. 3540.Google Scholar
Moore, H. B., 1931. The muds of the Clyde Sea Area, III. Chemical and physical conditions; rate and nature of sedimentation and fauna. J. mar. biol. Ass. U.K., Vol. 17, pp. 325–58.CrossRefGoogle Scholar
Morgans, J. F. C., 1956. Notes on the analysis of shallow water soft substrata. J. Anim. Ecol., Vol. 25, pp, 367–86.CrossRefGoogle Scholar
Petersen, C. J. & Boysen, JensenP., 1911. Valuation of the sea. I. Animal life in the sea, its food and quantity. Rep. Dan. biol. Stn, Vol. 20, pp. 376.Google Scholar
Raymont, J. E. G. & Carrie, B. G. R., 1964. The production of zooplankton in Southampton Water. Int. Revue ges. Hydrobiol. Hydrogr., Bd. 49, pp. 185232.CrossRefGoogle Scholar
Sanders, H. L., 1960. Benthic studies in Buzzards Bay. III. The structure of the soft bottom community. Limnol. Oceanogr., Vol. 5, pp. 138–53.CrossRefGoogle Scholar
Savage, P. D. V., 1965. Preliminary observations on the phytoplankton of Southampton Water. Br. phycol. Bull., Vol. 2, pp. 515–16.Google Scholar
Savage, P. D. V., 1967. Some features of the phytoplankton and its production in Southampton Water. Rep. Challenger Soc. (In the Press.)Google Scholar
Southward, A. J. 1952. Organic matter in littoral deposits. Nature, Lond., Vol. 169, p. 888.CrossRefGoogle Scholar
Steele, J. H. & Baird, I. E., 1965. The chlorophyll a content of particulate organic matter in the northern North Sea. Limnol. Oceanogr., Vol. 10, pp. 261–7.CrossRefGoogle Scholar
Wakeel, S. K. El & Riley, J. P., 1957. The determination of organic matter in marine muds. J. Cons. perm. int. Explor. Mer, Vol. 22, pp. 180–3.CrossRefGoogle 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 Set,. Vol. 36, pp. 127–46.Google Scholar
Zeitschel, B., 1965. Zur Sedimentation von Seston, eine produktionsbiologische Untersuchung von Sinkstoffen und Sedimenten der westlichen und mittleren Ostsee. Keiler Meeresforch., Bd. 21, H. 1, pp. 5580.Google Scholar