The respiratory response of juvenile mud crabs, Rhithropanopeus harrisii to variations in salinity and following short-term exposure to halowax 1099®, a polychlorinated naphthalene (PCN)

Abstract

Juvenile mud crabs Rhithropanopeus harrisii were exposed for five days to Halowax 1099, a polychlorinated naphthalene (approximately 1:1 ratio of tri- and tetrachlorinated isomers). Exposure concentrations were 0, 20, 50 or 100 μg/litre. The exposure salinity was 15%. At the end of the exposure period, respiratory rates of the crabs were determined at 15% S. The respiratory rates were also determined for control and exposed animals which were osmotically shocked by a move from 15% S to either 5 or 25% S immediately before respirometry. Exposure to PCNs always caused the mean respiratory rates of juvenile crabs to increase over control values. The respiratory response of crabs to PCN exposure was similar at the steady-state salinity (15% S) and after hyperosmotic shock (25% S). However, the mean rate for animals exposed to PCNs and given a hyposmotic shock was significantly higher than that for controls and for PCN-exposed animals at the other two salinities. Since hyperosmotic regulation of body fluids is most active at low salinities in this species, we suggest that the PCNs interfere with hyperosmotic regulation and reduce the efficiency of metabolic compensation for hyposmotic shock. The higher energetic cost of acclimation to transient reductions in salinity would be potentially detrimental to wild populations in impacted areas.