The Role of the Zebra Mussel, Dreissena polymorpha, in Contaminant Cycling: II. Zebra Mussel Contaminant Accumulation from Algae and Suspended Particles, and Transfer to the Benthic Invertebrate, Gammarus fasciatus

Bruner, K. A., S. W. Fisher, and P. F. Landrum, 1994. The Role of the Zebra Mussel, Dreissena polymorpha, in Contaminant Cycling: II. Zebra Mussel Contaminant Accumulation from Algae and Suspended Particles, and Transfer to the Benthic Invertebrate, Gammarus fasciatus, Ohio State University

-- Reprinted from J. Great Lakes Res 20(4), 735-750, 1994 with permission from the International Association for Great Lakes Research (IGAR)

The Role of the Zebra Mussel, Dreissena polymorpha, in Contaminant Cycling: II. Zebra Mussel Contaminant Accumulation from Algae and Suspended Particles, and Transfer to the Benthic Invertebrate, Gammarus fasciatus

Abstract
To determine the contribution of ingested material to zebra mussel contaminant accumulation, contaminant assimilation efficiencies (fraction of the total contaminant exposure that is accumulated into tissue, A E) from spiked algae and suspended sediment particles were measured for benzo(a)pyrene, the insecticide DDT, and selected polychlorinated biphenyl (PCB) congeners. Contaminant transfer from zebra mussel feces to the benthic invertebrate, Gammarus fasciatus, was determined by measuring AE from PCB contaminated mussel, feces to gammarids. Further, mussel contaminant AE values coupled with physiological and environmental parameters were used in a steady-state model to examine the relative importance of the algal, suspended sediment, and water-borne exposure routes for a representative organochlorine compound, hexachlorobiphenyl (HCBP). The relative accumulation via the fecal and water exposure routes were modeled for gammarids. Mussel AE values for contaminant accumulation) were greater from algae than from suspended sediments. Model estimates indicated that when contaminant concentrations in the water were near detection limits, dietary exposure was the primary route of contaminant accumulation (61.5%< of the total contaminant concentration). Water was the most important route of contaminant exposure (89.5% of the total contaminant concentration) when contaminant concentrations in water were 10 times greater than the compound detection limit. Suspended sediment was the major dietary source of contaminants at all water concentrations, % AE for zebra mussel feces 10 gammarid transfer were high-79.0 and 89.4% for hexachlorobiphenyl and tetrachlorobiphenyl respectively but not statistically different. Model estimates indicated that the dietary route of exposure was the primary source of PCB exposure for gammarids and indicated a potential for PCB biomagnification in the mussel based detrital food chain. Results suggest that zebra mussels have the potential to change contaminant cycling in the Great Lakes by rerouting dissolved and particulate bound contaminants through zebra mussel food chains with possible biomagnification in upper trophic levels.

Entire Paper
Contact: S. Warwick Fisher, Ohio State University, 1735 Neil Avenue, Columbus, OH 43210 or fisher.14@ostbox.acs.ohio-state.edu
Keywords: Basic_biology, Bio-accumulation, Zebra_mussel, Environmental_impacts
Product Type: Impact, Research
User Type: Resource_management