Thermal sensitivity of escape response performance by the scallop Placopecten magellanicus: Impact of environmental history

Abstract

To examine the impact of environmental history on the thermal sensitivity of escape response performance in juvenile giant scallops, Placopecten magellanicus, we compared animals sampled in late May, when water temperatures and day length were increasing, to animals sampled in late September, when water temperature and day length were decreasing. Habitat temperature was approximately 12 °C at both sampling times. For May scallops, performance was better at 6 than at 12 or 18 °C whereas September scallops performed better at 6 and 12 °C than at 19 °C. Regardless of environmental history, the rate of phasic contractions consistently declined at 18–19 °C, due to a decrease in the number of phasic contractions. Force measurements during escape responses of May scallops showed that phasic force production and the minimal interval between contractions changed little with temperature, whereas the minimum and mean durations of phasic contractions decreased as temperature rose. Phasic contraction rate in the first series increased with temperature. Reliance upon tonic contractions was higher in scallops tested at 18 °C than in those tested at 6 °C. Environmental history, more than habitat temperature at the time of sampling, seems to set the thermal sensitivity of phasic contraction rate in P. magellanicus. Phasic force production did not change within the thermal range tested.