0000000000989163

AUTHOR

Paco Melià

0000-0002-7763-9836

showing 2 related works from this author

Fishery-induced selection for slow somatic growth in European eel

2012

International audience; Both theoretical and experimental studies have shown that fishing mortality can induce adaptive responses in body growth rates of fishes in the opposite direction of natural selection. We compared body growth rates in European eel (Anguilla anguilla) from three Mediterranean stocks subject to different fishing pressure. Results are consistent with the hypotheses that i) fast-growing individuals are more likely to survive until sexual maturity than slow-growing ones under natural conditions (no fishing) and ii) fishing can select for slow-growing individuals by removing fast-growing ones. Although the possibility of human-induced evolution seems remote for a panmictic…

0106 biological sciencesMale[SDV]Life Sciences [q-bio]lcsh:MedicineMarine and Aquatic Sciences01 natural sciencesKeyWords Plus:FRESH-WATER ENVIRONMENTS; ANGUILLA-ANGUILLA L; SEX-DIFFERENTIATION; MORTALITY; LAGOONS; POPULATION; MATURATION; JUVENILE; BRACKISH; TRAITSCritically endangeredAUTMorphogenesisNatural SelectionSexual maturityBody SizeScopus Indexed keywords EMTREE medical terms: Anguilla (fish)article body growth controlled study eel endangered species experimental study fishery fishing growth rate mortality natural selection nonhuman theoretical study Anguilla (fish)animal body size female food industry growth development and aging male physiology reproduction Species Index: Anguilla anguilla Pisces MeSH: Anguilla Animals Body Size Female Fisheries Male Reproductionlcsh:ScienceJUVENILEPOPULATIONmedia_commonFreshwater EcologyPanmixiaMultidisciplinaryNatural selectionEcologyEcologyReproduction[SDE]Environmental SciencesFish <Actinopterygii>FemaleReproductionCoastal EcologyTRAITSResearch ArticleKeyWords Plus:FRESH-WATER ENVIRONMENTSEvolutionary ProcessesFRESH-WATER ENVIRONMENTSSettore BIO/07media_common.quotation_subjectFishingFisheriesMarine BiologyLAGOONSBiology010603 evolutionary biologyMATURATIONBRACKISHANGUILLA-ANGUILLA LAnimals14. Life underwaterBiologySelection (genetic algorithm)Growth ControlEvolutionary BiologySEX-DIFFERENTIATION010604 marine biology & hydrobiologyMORTALITYlcsh:RFisheries ScienceAnguillaFisheryEvolutionary EcologyEarth SciencesFRESH-WATER ENVIRONMENTS;ANGUILLA-ANGUILLA L;SEX-DIFFERENTIATION;MORTALITY;LAGOONS;POPULATION;MATURATION;JUVENILE;BRACKISH;TRAITSlcsh:QZoologyDevelopmental Biology
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Extending full protection inside existing marine protected areas, or reducing fishing effort outside, can reconcile conservation and fisheries goals

2020

Most fish stocks world-wide are fished at maximum sustainable yield (MSY) or overfished, as many fisheries management strategies have failed to achieve sustainable fishing. Identifying effective fisheries management strategies has now become urgent. Here, we developed a spatially explicit metapopulation model accounting for population connectivity in the north-western Mediterranean Sea, and parameterized it for three ecologically and economically important coastal fish species: the white seabream Diplodus sargus, the two-banded seabream Diplodus vulgaris and the dusky grouper Epinephelus marginatus. We used the model to assess how stock biomass and catches respond to changes in fishing mort…

0106 biological sciencesMarine conservationStock assessmentEcology010604 marine biology & hydrobiologyFishingCoastal fish010603 evolutionary biology01 natural sciencesFisheryMediterranean seaGeographyAUTMarine protected area14. Life underwaterFisheries management[SDE.BE]Environmental Sciences/Biodiversity and Ecologycoastal fish fisheries management fishing effort regulation marine conservation marine protected areas Mediterranean Sea metapopulation models
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