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Conservation genetics as a management tool: The five best-supported paradigms to assist the management of threatened species

Yvonne Willi, Torsten Nygaard Kristensen, Carla M. Sgrò, Andrew R. Weeks, Michael Ørsted, Ary A. Hoffmann

2021Proceedings of the National Academy of Sciences286 citationsDOIOpen Access PDF

Abstract

About 50 y ago, Crow and Kimura [ An Introduction to Population Genetics Theory (1970)] and Ohta and Kimura [ Genet. Res. 22, 201–204 (1973)] laid the foundations of conservation genetics by predicting the relationship between population size and genetic marker diversity. This work sparked an enormous research effort investigating the importance of population dynamics, in particular small population size, for population mean performance, population viability, and evolutionary potential. In light of a recent perspective [J. C. Teixeira, C. D. Huber, Proc. Natl. Acad. Sci. U.S.A. 118, 10 (2021)] that challenges some fundamental assumptions in conservation genetics, it is timely to summarize what the field has achieved, what robust patterns have emerged, and worthwhile future research directions. We consider theory and methodological breakthroughs that have helped management, and we outline some fundamental and applied challenges for conservation genetics.

Topics & Concepts

Threatened speciesConservation geneticsConservation-dependent speciesEvolutionary biologyBiologyEnvironmental ethicsGeneticsEcologyNear-threatened speciesMicrosatellitePhilosophyAlleleGeneHabitatGenetic diversity and population structureWildlife Ecology and ConservationConservation, Biodiversity, and Resource Management
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