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Linking evolutionary potential to extinction risk: applications and future directions

Brenna R. Forester, Erik A. Beever, Catherine R. Darst, Jennifer Szymanski, W. Chris Funk

2022Frontiers in Ecology and the Environment119 citationsDOIOpen Access PDF

Abstract

Extinction‐risk assessments play a major role in prioritizing conservation action at national and international levels. However, quantifying extinction risk is challenging, especially when including the full suite of adaptive responses to environmental change. In particular, evolutionary potential (EP) – the capacity to evolve genetically based changes that increase fitness under changing conditions – has proven difficult to evaluate, limiting its inclusion in risk assessments. Theory, experiments, simulations, and field studies all highlight the importance of EP in characterizing and mitigating extinction risk. Disregarding EP can therefore result in ineffective allocation of resources and inadequate recovery planning. Fortunately, proxies for EP can be estimated from environmental, phenotypic, and genetic data. Some proxies can be incorporated into quantitative extinction‐risk assessments, whereas others better inform basic conservation actions that maximize resilience to future change. Integration of EP into conservation decision making is challenging but essential and remains an important issue for innovation in applied conservation science. Front Ecol Environ 2022;

Topics & Concepts

Extinction (optical mineralogy)LimitingRisk analysis (engineering)Environmental resource managementPsychological resilienceComputer scienceEnvironmental planningEnvironmental scienceBiologyBusinessEngineeringPsychologyMechanical engineeringPsychotherapistPaleontologySpecies Distribution and Climate ChangeEvolution and Genetic DynamicsAnimal and Plant Science Education
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