Abstract
Fine-scale differences in behaviour and habitat use have important ecological impli- cations, but have rarely been examined in marine gastropods. We used tri-axial accelerometer loggers to estimate activity levels and movement patterns of the juvenile queen conch Lobatus gigas (n = 11) in 2 habitat types in Eleuthera, The Bahamas. In 2 manipulations in nearshore areas, queen conchs were equipped with accelerometers and released in adjacent coral rubble or sea- grass habitats. Queen conchs were located approximately every 6 h during daylight by snorkel- ing, to measure individual differences in linear distance moved, and after 24 h they were relocated to an alternate habitat (24 h in each habitat). We found significant inter-individual variability in activity levels, but more consistent levels of activity between the 2 habitat types within individual queen conchs. Four (36%) of the individuals placed in seagrass moved back to the adjacent coral rubble habitat, suggesting selectivity for coral rubble. Individuals showed variable behavioural responses when relocated to the less preferable seagrass habitat, which may be related to differ- ing stress-coping styles. Our results suggest that behavioural variability between individuals may be an important factor driving movement and habitat use in queen conch and, potentially, their susceptibility to human stressors. This study provides evidence of diverse behavioural (activity) patterns and habitat selectivity in a marine gastropod and highlights the utility of accelero meter biologgers for continuously monitoring animal behaviour in the wild.
Highlights
Animal movement is a central mechanism driving habitat selection, population, and community dynamics (Nathan et al 2008)
Endang Species Res 27: 181–188, 2015 for understanding population dynamics, spatial ecology, and how populations will respond to anthropogenic stressors and environmental changes (Wolf & Weissing 2012)
The queen conch Lobatus gigas is a large gastropod found throughout the tropical western Atlantic and Caribbean Seas
Summary
Animal movement is a central mechanism driving habitat selection, population, and community dynamics (Nathan et al 2008) It is the result of internal and external stimuli and is commonly aimed at improving foraging opportunities, environmental conditions, avoiding predation, or finding a mate. Popular for human consumption and ornamental purposes, it is a socially and economically valuable fisheries resource (Appeldoorn 1994) It is currently listed in Appendix II of the Convention on International Trade in Endangered Species (CITES), and concerns are growing that it will be threatened with extinction due to continued exploitation rates throughout its range (Stoner 2003), though it has not yet been formally evaluated for Red List status by the International Union for the Conservation of Nature. Queen conch movement is facilitated by a strong foot used to ‘crawl’ or ‘leap’ across the substrate (Berg 1975)
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