The micronucleus assay in the zebra mussel, Dreissena polymorpha, to in situ monitor genotoxicity in freshwater environments.

Caged zebra mussels, Dreissena polymorpha, were transplanted to 6 monitoring sites receiving industrial effluents suspected of containing genotoxic chemicals. After a residence time of 2 months, the induction of micronuclei (MN) in haemocytes was determined as a criterion for genetic damage. The mean MN frequencies observed in mussels exposed to effluents ranged between 5.0 and 8.8/1000. These rates were significantly higher than the baseline level of 2.0/1000 recorded in a concurrent control mussel group reintroduced at the reference location. Biological fitness descriptors (mortality, attachment biotest, condition index, gonadic index) revealed no relationship between the general well-being of the mussels exposed under contrasted environmental conditions and the frequency of MN induced in their haemocytes. The biological feasibility of the transfer technique of zebra mussels, together with a moderate, but significant, inducibility of MN, are major features towards the development of a first tool for in situ monitoring of genotoxicity in freshwater environments using a common indicator species.