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Development of a stock-recruit model for simulating stock dynamics for uncertain situations: the example of northeast atlantic mackerel (scomber scombrus)

Simmonds, E. J.
Campbell, A.
Skagen, D.
Roel, B. A.
Kelly, C.
Identifiers
http://hdl.handle.net/10379/13916
 https://doi.org/10.13025/28049
Publication Date
2011-04-12
Keywords
fisheries management, model probability, stock-recruit relationship, population-dynamics, fish recruitment, climate-change, regime shifts, management, ecosystem, fisheries, sea, strategy, proposal
Type
Article
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Citation
Simmonds, E. J. Campbell, A.; Skagen, D.; Roel, B. A.; Kelly, C. (2011). Development of a stock-recruit model for simulating stock dynamics for uncertain situations: the example of northeast atlantic mackerel (scomber scombrus). ICES Journal of Marine Science 68 (5), 848-859
Abstract
The assumption of a relationship between recruitment and a spawning stock is the cornerstone of the precautionary approach and may constrain the use of a maximum sustainable yield (MSY) target for fisheries management, because the failure to include such a relationship suggests that providing a measure of stock protection is unnecessary. The implications of fitting different functional forms and stochastic distributions to stock-and-recruit data are investigated. The importance of these considerations is shown by taking a practical example from management: the management plan for Northeast Atlantic mackerel (Scomber scombrus), a fish stock with an average annual catch of 600 000 t. The historical range of spawning-stock biomass is narrow, and historical data from a stock assessment explain only a small proportion of the recruitment variability. We investigate how best to reflect the uncertainty in the stock-recruit relationship. Selecting a single model based on simple statistical criteria can have major consequences for advice and is problematic. Selecting a distribution of models with derived probabilities gives a more complete perception of uncertainty in dynamics. Differences in functional form, distribution of deviations, and variability of coefficients are allowed. The approach appropriately incorporates uncertainty in the stock-recruit relationship for F-MSY estimation.
Funder
Publisher
Oxford University Press (OUP)
Publisher DOI
Rights
Attribution-NonCommercial-NoDerivs 3.0 Ireland
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Externally hosted open access publications with University of Galway authors (2)