Litcius/Paper detail

Evolutionary rescue can prevent rate-induced tipping

Anna Vanselow, Lukas Halekotte, Ulrike Feudel

2021Theoretical Ecology36 citationsDOIOpen Access PDF

Abstract

Abstract The transformation of ecosystems proceeds at unprecedented rates. Recent studies suggest that high rates of environmental change can cause rate-induced tipping . In ecological models, the associated rate-induced critical transition manifests during transient dynamics in which populations drop to dangerously low densities. In this work, we study how indirect evolutionary rescue —due to the rapid evolution of a predator’s trait—can save a prey population from the rate-induced collapse. Therefore, we explicitly include the time-dependent dynamics of environmental change and evolutionary adaptation in an eco-evolutionary system. We then examine how fast the evolutionary adaptation needs to be to counteract the response to environmental degradation and express this relationship by means of a critical rate. Based on this critical rate, we conclude that indirect evolutionary rescue is more probable if the predator population possesses a high genetic variation and, simultaneously, the environmental change is slow. Hence, our results strongly emphasize that the maintenance of biodiversity requires a deceleration of the anthropogenic degradation of natural habitats.

Topics & Concepts

Environmental changeEvolutionary dynamicsPopulationAdaptation (eye)TraitEcologyEvolutionary ecologyBiodiversityPredatorEcosystemHabitat destructionBiologyEnvironmental scienceClimate changePredationComputer scienceSociologyHost (biology)DemographyNeuroscienceProgramming languageEvolution and Genetic DynamicsEcosystem dynamics and resilienceEvolutionary Game Theory and Cooperation