Capture efficiency and size selectivity of hydraulic clam dredges used in fishing for ocean quahogs (Arctica islandica): simultaneous estimation in the SELECT model

Estimates of capture efficiency and size selectivity for commercial dredges are important in estimating stock biomass and setting catch limits for the ocean quahog off Iceland and the United States. Ocean quahogs are long-lived, slow-growing, and sensitive to overharvest resulting from poor estimate...

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Bibliographic Details
Published in:ICES Journal of Marine Science
Main Authors: Thorarinsdottir, Gudrun, Jacobson, Larry, Ragnarsson, Stefan, Gunnarsson, Karl, Guijarro-García, Elena
Format: Article in Journal/Newspaper
Language:English
Published: Oxford University Press 2009
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Online Access:http://hdl.handle.net/10508/9387
http://hdl.handle.net/10261/328299
https://doi.org/10.1093/icesjms/fsp236
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Summary:Estimates of capture efficiency and size selectivity for commercial dredges are important in estimating stock biomass and setting catch limits for the ocean quahog off Iceland and the United States. Ocean quahogs are long-lived, slow-growing, and sensitive to overharvest resulting from poor estimates of capture efficiency and stock biomass. Capture efficiency and size selectivity were estimated simultaneously in mixed-effect SELECT models using diver and commercial dredge experiment data from the shallow-water habitats off Iceland. Estimated capture efficiency for the commercial dredge E = 92% (CV = 8%) was high for large [107.5 mm shell length (SL)] ocean quahogs. Size selectivity followed an ascending logistic curve, with L50 = 70.5 mm SL (CV 4%), a selectivity range of 17.6 mm SL, and substantial variability among experimental dredge tows. Estimated capture efficiency was higher than that for ocean quahogs in US waters, possibly because of the deep habitats off the United States or uncertainty about dredge position during US depletion experiments. Scaling maximum selectivity from the SELECT model to one reduces correlations between size-selectivity and capture-efficiency parameters and may enhance the utility of selectivity estimates in stock assessment modelling. Our experimental and modelling approach may be useful for studies with other non-mobile benthic species. We thank Erlendur Bogason who conducted underwater sampling, Tryggvi Sveinsson, skipper of “Einar í Nesi” (EA-49), the crew of the commercial ocean quahog vessel Fossá (TF-ZT 2404), Fred Serchuk (Northeast Fisheries Science Center, Woods Hole, MA, USA), anonymous reviewers, and John Walter (Southeast Fisheries Science Center, Miami, FL, USA), who provided useful technical and editorial advice. Peer reviewed