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INFLUENCE OF SITE AND FENITROTHION CONTAMINATION ON VERTICAL DISTRIBUTION OF DRIFT ARTHROPODS IN A WOODLAND STREAM

Published online by Cambridge University Press:  31 May 2012

D. C. Eidt  and
C. A. Weaver
D. C. Eidt
Affiliation:
Maritimes Forest Research Centre, Canadian Forestry Service, Fredericton, New Brunswick E3B 5P7
C. A. Weaver
Affiliation:
Maritimes Forest Research Centre, Canadian Forestry Service, Fredericton, New Brunswick E3B 5P7
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Abstract

Drift of aquatic arthropods was not uniformly distributed by depth in a stream and differed from one reach to another. Drift of terrestrial arthropods, although usually densest at or near the surface, was also substantial at depths. Nets for sampling of drift should extend to the bottom and include the surface.

Résumé

La distribution des arthropodes aquatiques en dérive dans un cours d'eau n'était pas uniforme sur le plan vertical et différait d'un tronçon à l'autre. La dérive des arthropodes terrestres, si elle était ordinairement plus dense à la surface ou à proximité, était également importante en profondeur. Les filets servant à l'échantillonnage des arthropodes en dérive devraient être tendus jusqu'au fond et inclure la surface.

Type
Articles
Information
The Canadian Entomologist , Volume 116 , Issue 10 , October 1984 , pp. 1425 - 1430
Copyright
Copyright © Entomological Society of Canada 1984

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References

Eidt, D. C. 1978. Toxicity of fenitrothion to insects in a woodland stream. Maritimes Forest Research Centre, Inf. Rep. M-X-86. 13 pp.Google Scholar
Eidt, D. C., Sosiak, A. J., and Mallet, V. N.. 1984. Partitioning and short-term persistence of fenitrothion in New Brunswick headwater streams. Arch. Environ. Contam. Tox. 13: 4352.Google Scholar
Elliott, J. M. 1970. Methods of sampling invertebrate drift in running water. Ann. Limnol. 6: 133159.CrossRefGoogle Scholar
Hynes, H. B. N. 1970. The Ecology of Running Waters. University of Toronto Press. 555 pp.Google Scholar
Matter, W. J. and Hopwood, A. J.. 1980. Vertical distribution of invertebrate drift in a large river. Limnol. Oceanogr. 25: 11171121.Google Scholar
Waters, T. F. 1965. Interpretation of invertebrate drift in streams. Ecology 46: 327334.CrossRefGoogle Scholar