The influence of Corophium volutator abundance on resuspension

• Published in: Hydrobiologia Vol. 426; no. 1-3; pp. 37 - 42
• Main Authors: DE DECKERE, E. M. G. T, DE KOPPEL, J. V, HEIP, C. H. R
• Format: Conference Proceeding Journal Article
• Language: English
• Published: Dordrecht Springer 15.05.2000; Springer Nature B.V
• Subjects: Animal and plant ecology; Animal, plant and microbial ecology; Animals; Aquariums; Autoecology; Biological and medical sciences; Brackish; Corophium volutator; Estuaries; Experiments; Flow velocity; Fundamental and applied biological sciences. Psychology; Low flow; Marine; Plankton; Protozoa. Invertebrata; Sediments; Shear stress; Suspended solids; Turbidity; Water column; Water treatment; Environmental factor; Water current; Experimental study; Sediments; Amphipoda; Crustacea; Marine environment; Suspended particle; Intertidal zone; Arthropoda; Turbidity; Flumes; Invertebrata; Ecological abundance; Corophium volutator
• ISSN: 0018-8158; 1573-5117
• DOI: 10.1023/A:1003978714382

Two experiments were performed to test the hypothesis that Corophium volutator affects the turbidity of water in estuaries through active resuspension of sediment. One experiment was done in a flume system under different flow velocities, and one in aquaria. A diatom film developed at the sediment surface in both experiments before Corophium was added. This diatom film was supposed to have a stabilising effect on the sediment. In both experiments, the concentration of suspended solids in the water column increased with the density of Corophium individuals. No effect of flow velocity on suspended solids concentration was found. This indicates that, in our flume experiment, active resuspension by Corophium was more important than physical resuspension, at least at low flow velocity (<20 cm s super(-1)) and in the presence of a diatom film. The critical erosion threshold decreased with increasing Corophium density in the aquarium experiment, indicating that indirect effects of Corophium grazing may become more important at high levels of bottom shear stress. The implications of our findings for suspended solids concentration in estuarine systems are discussed.