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A record of plankton on the echo-sounder

Published online by Cambridge University Press:  11 May 2009

D. H. Cushing
Affiliation:
Fisheries Laboratory, Lowestoft
I. D. Richardson
Affiliation:
Fisheries Laboratory, Lowestoft

Extract

A number of records from echo-sounders have been loosely attributed to the presence of plankton. Only two records have been adequately identified as having been produced by plankton; first, the traces offish larvae, or shallow scattering layers (Burd & Lee, 1951); and secondly, the echo layer, at the depth of the temperature discontinuity or thermocline, which is sometimes associated with plankton animals or plants (Cushing, Lee & Richardson, in press). A third type of record, that from the ‘deep scattering layer', has been associated with the presence of euphausiids (Hersey & Moore, 1948; Moore, 1950; Boden, 1950): an equally plausible association with the presence of fish has been made by Marshall (1951), Tucker (1951) and Hersey & Backus (1954). A fourth type of echo record, a ‘noisy’ record, will be described and will show that it is probably attributable to plankton organisms, consisting, in one instance, of euphausiids.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 1956

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References

Boden, B. P., 1950. Plankton organisms in the deep scattering layer. U.S. Navy Electronics Lab., San Diego, Calif., Rep. 186, 29 pp.Google Scholar
Burd, A. C. & Lee, A. J., 1951. The sonic scattering layer in the sea. Nature, Lond., Vol. 167, pp. 624–6.CrossRefGoogle Scholar
Cushing D. H. Production and a pelagic fishery. Fish. Invest., Lond., Ser. 2. (In the Press.)Google Scholar
Cushing, D. H., Lee, A. J. & Richardson, I. D. Echo traces associated with thermoclines. (In the Press.)Google Scholar
Einarsson, H., 1945. Euphausiacea, I. Northern Atlantic Species. Dana Rep., Vol. 5, No. 27, 185 pp.Google Scholar
Gehringer, J. W., 1952. An all-metal plankton sampler (Model Gulf III). Spec. sci. Rep. U.S. Fish Wildl. Serv., No. 88, pp. 712.Google Scholar
Glover, R. S., 1952. Continuous plankton records: The Euphausiacea of the North-eastern Atlantic and the North Sea, 1946–48. Hull Bull. Mar. Ecol., Vol. 3, pp. 185214.Google Scholar
Hardy, A. C. & Gunther, E. R., 1935. The plankton of the South Georgia whaling grounds and adjacent waters, 1926–1927. ’Discovery’ Rep., Vol. 11, 456 pp.Google Scholar
Hersey, J. B. & Backus, R. H., 1954. New evidence that migrating gas bubbles, probably the swimbladders of fish, are largely responsible for scattering layers on the continental rise south of New England. Deep-Sea Res., Vol. I, pp. 190.Google Scholar
Hersey, J. B. & Moore, H. B., 1948. Progress Report On Scattering Layer Observations In The Atlantic Ocean. Trans. Amer. Geophys. Union, Vol. 29, pp. 341–54.Google Scholar
Hersey, J. B., Johnson, H. R. & Davis, L. C., 1952. Recent findings about the deep scattering layer. J. Mar. Res., Vol. 11, pp. 19.Google Scholar
Mackintosh, N. A., 1934. Distribution Of The Macroplankton In The Atlantic Section Of The Antarctic. ‘Discovery’ Rep., Vol. 9, pp. 65160.Google Scholar
Marshall, N. B., 1951. Bathypelagic fishes as sound scatterers in the ocean. J. Mar. Res., Vol. 10, pp. 117.Google Scholar
Moore, H. B., 1950. The relation between the scattering layer and the Euphausiacea. Biol. Bull, Woods Hole, Vol. 99, pp. 181212.CrossRefGoogle ScholarPubMed
Tucker, G. H., 1951. Relation of fishes and other organisms to the scattering of underwater sound. J. Mar. Res., Vol. 10, pp. 215–38.Google Scholar