Different ontogenetic trajectories of body colour, pattern, and crypsis in two sympatric intertidal crab species
Duarte, RC; Dias, GM; Flores, AAV; et al.Stevens, M
Date: 25 November 2020
Journal
Biological Journal of the Linnean Society
Publisher
Oxford University Press (OUP) / Linnean Society of London
Publisher DOI
Abstract
Animals frequently exhibit high appearance variation, especially in heterogeneous habitats where individuals may be differentially concealed against backgrounds. While background matching is a common anti-predator strategy, gaps exist in understanding within- and among-species variation. Specifically, the drivers of appearance changes ...
Animals frequently exhibit high appearance variation, especially in heterogeneous habitats where individuals may be differentially concealed against backgrounds. While background matching is a common anti-predator strategy, gaps exist in understanding within- and among-species variation. Specifically, the drivers of appearance changes associated with habitat use and occurring through ontogeny are poorly understood. Using image analysis, we tested how individual appearance and camouflage in two intertidal crab species – the mud crab Panopeus americanus and the mottled crab Pachygrapsus transversus – relates to ontogeny and habitat use. We predicted that both species would change appearance with ontogeny, but resident mud crabs would exhibit higher background similarity than generalist mottled crabs. Both species showed ontogenetic changes, but while mud crabs become darker, mottled crabs turn greener. Small mud crabs were highly variable in colour and pattern, likely stemming from utilising camouflage in heterogeneous habitats during the most vulnerable life-stage. Being habitat specialists, mud crabs concealed better against all backgrounds than mottled crabs. Mottled crabs are motile and generalist, occupying macroalgal-covered rocks when adults, which explain why they are greener and why matches to specific habitats are less valuable. Differential habitat use in crabs can be associated with different coloration and camouflage strategies to avoid predation.
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