Ecocytological and toxicological responses to copper in Perna viridis (L.) (Bivalvia: Mytilidae) haemocyte lysosomal membranes

Bivalve lysosomes are sites of intense intracellular digestion. Lysosomes accumulate many pollutants to high concentrations resulting in membrane destabilisation. Consequently, the elucidation of lysosomal membrane integrity utilising the neutral red assay has been used to good effect in pollution monitoring. Naturally occurring environmental stressors also have the potential to destabilise the membrane. Exposure to elevated copper concentrations and extremes of temperature, salinity, hypoxia, emersion and inadequate ration were investigated in haemocyte lysosomes from the tropical bivalve, Perna viridis. Elevated copper concentrations destabilised the membrane although responses were not entirely related to the exposure-concentration. Environmental stressors induced through higher thermal regimes (29°C and 35°C), hyposalinity (10–25‰) and prolonged emersion elicited significant lysosomal membrane destabilisation. Hypoxia and inadequate ration did not significantly effect membrane stability. The haemocyte lysosomal membranes were generally resistant to exogenous alterations within normal ranges and only showed significant labilisation at environmental extremes. P. viridis haemocyte lysosomal membrane biomarkers should, therefore, prove robust to natural stressors when deployed in marine monitoring programmes and thus prove a valuable, rapid, cost-effective cytological marker of pollution.