Search results for "TEMPORAL-CHANGES"

showing 2 items of 2 documents

Northern European Salmo trutta (L.) populations are genetically divergent across geographical regions and environmental gradients

2020

The salmonid fish Brown trout is iconic as a model for the application of conservation genetics to understand and manage local interspecific variation. However, there is still scant information about relationships between local and large-scale population structure, and to what extent geographical and environmental variables are associated with barriers to gene flow. We used information from 3,782 mapped SNPs developed for the present study and conducted outlier tests and gene–environment association (GEA) analyses in order to examine drivers of population structure. Analyses comprised >2,600 fish from 72 riverine populations spanning a central part of the species' distribution in norther…

0106 biological sciences0301 basic medicineConservation geneticsSELECTIONPopulationsalmonidCONSERVATIONlcsh:Evolutiongenotype‐environment association010603 evolutionary biology01 natural sciencesGene flow03 medical and health sciencesbrown troutLOCAL ADAPTATIONSampling designlcsh:QH359-425GeneticsGENOME SCANS14. Life underwaterSalmoeducationEcology Evolution Behavior and SystematicsLocal adaptationGenotype‐environment associationeducation.field_of_studyCLIMATE-CHANGEbiologyBROWN TROUTSTRUCTURED POPULATIONSR-PACKAGESampling (statistics)genotype-environment associationVDP::Matematikk og Naturvitenskap: 400biology.organism_classification030104 developmental biologyEvolutionary biologyoutlier testTEMPORAL-CHANGESOutlierGeneral Agricultural and Biological SciencesASCERTAINMENT BIASlocal adaptation
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Harvest‐induced evolution and effective population size

2016

Much has been written about fishery-induced evolution (FIE) in exploited species, but relatively little attention has been paid to the consequences for one of the most important parameters in evolutionary biology-effective population size (N-e). We use a combination of simulations of Atlantic cod populations experiencing harvest, artificial manipulation of cod life tables, and analytical methods to explore how adding harvest to natural mortality affects N-e, census size (N), and the ratio N-e/N. We show that harvest-mediated reductions in N-e are due entirely to reductions in recruitment, because increasing adult mortality actually increases the N-e/N ratio. This means that proportional red…

0106 biological sciencesLIFE-HISTORYlife history evolutionFISHERIES-INDUCED EVOLUTIONpopulation genetics - empiricalPopulationpopulation genetics – empirical010603 evolutionary biology01 natural sciencesOVERLAPPING GENERATIONSAGEAnimal scienceEffective population sizeAbundance (ecology)Geneticswildlife management14. Life underwaterGenetic variabilityLife historyeducationEcology Evolution Behavior and Systematicseducation.field_of_studyCONSEQUENCESbiologyEcology010604 marine biology & hydrobiologyPopulation sizeCOMPONENTSOriginal ArticlesGENETIC COMPENSATIONbiology.organism_classificationEXPLOITED FISH STOCKSOVEREXPLOITATIONfisheries managementTEMPORAL-CHANGES1181 Ecology evolutionary biologyOriginal ArticlePreharvestcontemporary evolutionGeneral Agricultural and Biological SciencesAtlantic codEvolutionary Applications
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