Estimating F msy from an ensemble of data sources to account for density dependence in Northeast Atlantic fish stocks

A new approach for estimating the fishing mortality benchmark F msy (fishing pressure that corresponds to maximum sustainable yield) is proposed. The approach includes density-dependent factors. The analysis considers 53 data-rich fish stocks in the Northeast Atlantic. The new F msy values are estim...

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Bibliographic Details
Published in:ICES Journal of Marine Science
Main Authors: Sparholt, Henrik, Bogstad, Bjarte, Christensen, Villy, Collie, Jeremy, van Gemert, Rob, Hilborn, Ray, Horbowy, Jan, Howell, Daniel, Melnychuk, Michael C., Pedersen, Søren Anker, Sparrevohn, Claus Reedtz, Stefansson, Gunnar, Steingrund, Petur
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Density dependent
Ecosystem
Fmsy fisheries
Meta-analysis
Management
Northeast Atlantic
Online Access:https://orbit.dtu.dk/en/publications/41198a15-0b2b-4615-b837-3f221ab0fec4
https://doi.org/10.1093/icesjms/fsaa175
Description
Summary:A new approach for estimating the fishing mortality benchmark F msy (fishing pressure that corresponds to maximum sustainable yield) is proposed. The approach includes density-dependent factors. The analysis considers 53 data-rich fish stocks in the Northeast Atlantic. The new F msy values are estimated from an ensemble of data sources: (i) applying traditional surplus production models on time-series of historic stock sizes, fishing mortalities, and catches from the current annual assessments; (ii) dynamic pool model (e.g. age-structured models) estimation for stocks where data on density-dependent growth, maturity, and mortality are available; (iii) extracts from multispecies and ecosystem literature for stocks where well-tested estimates are available; (iv) the “Great Experiment” where fishing pressure on the demersal stocks in the Northeast Atlantic slowly increased for half a century; and (v) linking F msy to life history parameters. The new F msy values are substantially higher (average equal to 0.38 year −1 ) than the current F msy values (average equal to 0.26 year −1 ) estimated in stock assessments and used by management, similar to the fishing pressure in the 1960s, and about 30% lower than the fishing pressure in 1970–2000.

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