Cannibalism, post-settlement growth rate and size refuge in a recruitment-limited population of the shore crab Carcinus maenas.

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Cannibalism, post-settlement growth rate and size refuge in a recruitment-limited population of the shore crab Carcinus maenas.

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Title: Cannibalism, post-settlement growth rate and size refuge in a recruitment-limited population of the shore crab Carcinus maenas.
Author: Almeida, M.J.; González-Gordillo, J.I.; Flores, A.V.V.; Queiroga, H.
Departments: Biología
xmlui.dri2xhtml.METS-1.0.item-source: Journal of Experimental Marine Biology and Ecology 410 (2011) 72–79
Abstract: Previous studies on intra-specific interactions among green shore crabs have been undertaken in very large populations, in which individuals concentrate at high densities in physically complex substrates. Under such conditions, cannibalism and interference competition often override initial density patterns delivered by larval supply. In this study, we focused on a Carcinus maenas population receiving a low supply of settlers. We reported crab abundance in habitats of different physical structure, and measured cannibalistic interactions, in different substrates, at a prey density expected only after a major recruitment event. Different predator and prey sizes were used to verify if juveniles froma critical range attain a size refugewhen coexistingwith subadults, which are still commonly found in the nursery habitat. Virtually no juvenile shore crabs were found on sandy habitats, and differences between sparsely and densely vegetated cover were only detected shortly after a settlement pulse, indicating that nursery habitats are under their carrying capacity most of the time. Even under extreme high densities, cannibalism on juveniles of 10 mm carapace width (CW) remained undetected, and predation on crabs half this sizewas only significant in lowand mediumZostera cover,when larger predators (20–25 mmCW)were included in experimental plots. The allometricmodel predicted the non-linear decrease of predation rate as a function of relative prey size, with a nearly asymptotic value of one prey consumed each 5 d by one predator in a square metre, when relative prey size attains 0.6. Such a relationship is expected for ‘cruising’ predators which rely on encounter rate. Growth estimates obtained using time series of the catch of distinct juvenile stages in artificial collectors indicated that crabs surviving 50 d after settlement have attained a size refuge from predation by larger conspecifics
Subject: Habitat structure ; Juvenile growth ; Nursery habitat ; Predation ; Relative prey size ; Shore crab.
Handle: http://hdl.handle.net/10498/16692
Date: 2011-01-01

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