Temperature constraints on phenotypic plasticity explain biogeographic patterns in predator trophic morphology

Phenotypic plasticity in feeding structures allows invasive predators to adjust to variation in prey defenses, but the abiotic milieu may constrain the extent or rate of the response. In the northwest Atlantic Ocean, the introduced European green crabCarcinus maenasencounters latitudinal differences...

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Bibliographic Details
Published in:Marine ecology. Progress series (Halstenbek) 2008-08, Vol.365, p.25-34
Main Authors: Baldridge, Ashley K., Smith, L. David
Format: Article
Language:English
Subjects:
Carcinus maenas
Claws
Crabs
Decapoda
Diet
Exoskeletons
Foraging
High temperature
Littorina obtusata
Low temperature
Marine
Phenotypic plasticity
Predators
Snails
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Summary:Phenotypic plasticity in feeding structures allows invasive predators to adjust to variation in prey defenses, but the abiotic milieu may constrain the extent or rate of the response. In the northwest Atlantic Ocean, the introduced European green crabCarcinus maenasencounters latitudinal differences in shell thickness of its snail prey,Littorina obtusata, and water temperature. To determine whether claw size in this heterochelous species responds to broad-scale differences in prey armor or water temperature, we rearedC. maenason a diet of thick- or thin-shelledL. obtusataat 16 or 10°C. At the higher temperature, crusher claw size increased significantly more at the molt relative to carapace width increase for crabs raised on the thick-shelled rather than thin-shelled diet. The lower temperature inhibited trophic responses in the crusher claw by reducing foraging performance on thick-shelled snails, and lower temperature also prolonged the molt interval. Cutter claw growth showed no diet effect at either temperature. Non-additive responses to multiple cues highlight the importance of testing for phenotypic plasticity over a range of environmental backgrounds and help explain post-invasion biogeographic patterns between an introduced predator and its prey.
ISSN:0171-8630
1616-1599
DOI:10.3354/meps07485