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Selectivity matters: Rules of thumb for management of plate‐sized,sex‐changing fish in the live reef food fish trade
Authors:Holly K Kindsvater  John D Reynolds  Yvonne Sadovy de Mitcheson  Marc Mangel
Affiliation:1. Department of Ecology, Evolution, and Natural Resources, Rutgers University, New Brunswick, NJ, USA;2. Earth to Ocean Research Group, Department of Biological Sciences, Simon Fraser University, Burnaby, BC, Canada;3. Swire Institute of Marine Science and School of Biological Sciences, University of Hong Kong, Hong Kong, Hong Kong;4. Science and Conservation of Fish Aggregations (SCRFA), Fallbrook, CA, USA;5. Center for Stock Assessment Research, University of California Santa Cruz, Santa Cruz, CA, USA;6. Theoretical Ecology Group, Department of Biology, University of Bergen, Bergen, Norway
Abstract:Effective management of fisheries depends on the selectivity of different fishing methods, control of fishing effort and the life history and mating system of the target species. For sex‐changing species, it is unclear how the truncation of age‐structure or selection of specific size or age classes (by fishing for specific markets) affects population dynamics. We specifically address the consequences of plate‐sized selectivity, whereby submature, “plate‐sized” fish are preferred in the live reef food fish trade. We use an age‐structured model to investigate the decline and recovery of populations fished with three different selectivity scenarios (asymptotic, dome‐shaped and plate‐sized) applied to two sexual systems (female‐first hermaphroditism and gonochorism). We parameterized our model with life‐history data from Brown‐marbled grouper (Epinephelus fuscoguttatus) and Napoleon fish (Cheilinus undulatus). “Plate‐sized” selectivity had the greatest negative effect on population trajectories, assuming accumulated fishing effort across ages was equal, while the relative effect of fishing on biomass was greatest with low natural mortality. Fishing such sex‐changing species before maturation decreased egg production (and the spawning potential ratio) in two ways: average individual size decreased and, assuming plasticity, females became males at a smaller size. Somatic growth rate affected biomass if selectivity was based on size at age because in slow growers, a smaller proportion of total biomass was vulnerable to fishing. We recommend fisheries avoid taking individuals near their maturation age, regardless of mating system, unless catch is tightly controlled. We also discuss the implications of fishing post‐settlement individuals on population dynamics and offer practical management recommendations.
Keywords:capture‐based aquaculture  egg limitation  fishery selectivity  live reef food fish  protogynous hermaphrodite  spawning potential ratio
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