Ontogeny of Osmoregulation and Salinity Tolerance in Cancer irroratus; Elements of Comparison with C. borealis (Crustacea, Decapoda)

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PHYSIOLOGY

Ontogeny of Osmoregulation and Salinity Tolerance in Cancer irroratus; Elements of Comparison with C. borealis (Crustacea, Decapoda)

G. Charmantier and M. Charmantier-Daures
Laboratoire d'Ecophysiologie des Invertebres, Universite des Sciences, Montpellier 2, Place E. Bataillon, 34095 Montpellier cedex 05, France

Osmoregulation and salinity tolerance were studied in zoeae, megalopae, first crab stage (osmoregulation only), and adults of Cancer irroratus, and in zoeae and adults of C. borealis. In C. irroratus, salinity tolerance was moderate in zoeae, decreased in late zoeae 5, was at a minimum in megalopae, and increased in adults. The lower and upper lethal salinities for 50% of the animals (48 h LS 50) at 15{deg}C were about 13-17{permil}/42-50{permil} in zoeae, 24{permil}/37{permil} in megalopae, and 8.5{permil}/65{permil} in adults. In C. borealis, the corresponding values of LS 50s were 16-20{permil}/46-50{permil} in zoeae and 12{permil}/65{permil} in adults. In both species, zoeae were hyper-osmoconformers; adults were isosmotic in high salinities and slightly hyper-regulators in low salinities. In C. irroratus, the change from larval to adult type of regulation occurred from megalopa (hyper-osmoconformer) to first crab stage (hyper-regulator in dilute media), i.e., after the completion of metamorphosis. Osmoregulation and salinity tolerance appear correlated and are modified at metamorphosis. These results are discussed with an emphasis on the effects of metamorphosis on osmoregulation of developing decapods.

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