Reproductive resilience: a paradigm shift in understanding spawner-recruit systems in exploited marine fish

dc.contributor.authorLowerre Barbieri, Susan
dc.contributor.authorDeCelles, Greg
dc.contributor.authorPepin, Pierre
dc.contributor.authorCatalan, Ignacio A.
dc.contributor.authorMuhling, Barbara
dc.contributor.authorErisman, Brad
dc.contributor.authorCadrin, Steven X.
dc.contributor.authorAlos, Josep
dc.contributor.authorOspina Alvarez, Andres
dc.contributor.authorStachura, Megan M.
dc.contributor.authorTringali, Michael D.
dc.contributor.authorBurnsed, Sarah Walters
dc.contributor.authorParis, Claire B.
dc.date.accessioned2024-01-10T12:08:10Z
dc.date.available2024-01-10T12:08:10Z
dc.date.issued2017
dc.description.abstractA close relationship between adult abundance and stock productivity may not exist for many marine fish stocks, resulting in concern that the management goal of maximum sustainable yield is either inefficient or risky. Although reproductive success is tightly coupled with adult abundance and fecundity in many terrestrial animals, in exploited marine fish where and when fish spawn and consequent dispersal dynamics may have a greater impact. Here, we propose an eco-evolutionary perspective, reproductive resilience, to understand connectivity and productivity in marine fish. Reproductive resilience is the capacity of a population to maintain the reproductive success needed to result in long-term population stability despite disturbances. A stock's reproductive resilience is driven by the underlying traits in its spawner-recruit system, selected for over evolutionary timescales, and the ecological context within which it is operating. Spawner-recruit systems are species specific, have both density-dependent and fitness feedback loops and are made up of fixed, behavioural and ecologically variable traits. They operate over multiple temporal, spatial and biological scales, with trait diversity affecting reproductive resilience at both the population and individual (i.e. portfolio) scales. Models of spawner-recruit systems fall within three categories: (i) two-dimensional models (i.e. spawner and recruit); (ii) process-based biophysical dispersal models which integrate physical and environmental processes into understanding recruitment; and (iii) complex spatially explicit integrated life cycle models. We review these models and their underlying assumptions about reproductive success vs. our emerging mechanistic understanding. We conclude with practical guidelines for integrating reproductive resilience into assessments of population connectivity and stock productivity.
dc.description.funderPEW
dc.description.funderSCRFA
dc.description.funderICES
dc.description.funderinternational AFS section
dc.fechaingreso.objetodigital2024-05-07
dc.format.extent28 páginas
dc.fuente.origenWOS
dc.identifier.doi10.1111/faf.12180
dc.identifier.eissn1467-2979
dc.identifier.issn1467-2960
dc.identifier.urihttps://doi.org/10.1111/faf.12180
dc.identifier.urihttps://repositorio.uc.cl/handle/11534/76365
dc.identifier.wosidWOS:000397295600007
dc.information.autorucCiencias Biológicas;Ospina-Alvarez A;S/I;1013271
dc.issue.numero2
dc.language.isoen
dc.nota.accesocontenido parcial
dc.pagina.final312
dc.pagina.inicio285
dc.publisherWILEY
dc.revistaFISH AND FISHERIES
dc.rightsacceso restringido
dc.subjectDispersal
dc.subjectfisheries management
dc.subjectproductivity
dc.subjectreproductive potential
dc.subjectresilience
dc.subjectspawner-recruit
dc.subjectPRODUCTIVITY REGIME SHIFTS
dc.subjectINDIVIDUAL-BASED MODEL
dc.subjectCLIMATE-CHANGE
dc.subjectLARVAL DISPERSAL
dc.subjectSTOCK ASSESSMENT
dc.subjectFISHERIES MANAGEMENT
dc.subjectPOPULATION-DYNAMICS
dc.subjectEGG-PRODUCTION
dc.subjectINTERANNUAL VARIABILITY
dc.subjectSPATIAL-ANALYSIS
dc.subject.ods14 Life Below Water
dc.subject.ods15 Life on Land
dc.subject.odspa14 Vida submarina
dc.subject.odspa15 Vida de ecosistemas terrestres
dc.titleReproductive resilience: a paradigm shift in understanding spawner-recruit systems in exploited marine fish
dc.typeartículo
dc.volumen18
sipa.codpersvinculados1013271
sipa.indexWOS
sipa.indexScopus
sipa.trazabilidadCarga SIPA;09-01-2024
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