Litcius/Paper detail

Is Evolution in Response to Extreme Events Good for Population Persistence?

Kelsey Lyberger, Matthew M. Osmond, Sebastian J. Schreiber

2021The American Naturalist15 citationsDOI

Abstract

AbstractClimate change is predicted to increase the severity of environmental perturbations, including storms and droughts, which act as strong selective agents. These extreme events are often of finite duration (pulse disturbances). Hence, while evolution during an extreme event may be adaptive, the resulting phenotypic changes may become maladaptive when the event ends. Using individual-based models and analytic approximations that fuse quantitative genetics and demography, we explore how heritability and phenotypic variance affect population size and extinction risk in finite populations under an extreme event of fixed duration. Since more evolution leads to greater maladaptation and slower population recovery following an extreme event, greater heritability can increase extinction risk when the extreme event is short. Alternatively, when an extreme event is sufficiently long, heritability often helps a population persist. We also find that when events are severe, the buffering effect of phenotypic variance can outweigh the increased load it causes.

Topics & Concepts

MaladaptationHeritabilityPopulationQuantitative geneticsExtinction (optical mineralogy)Event (particle physics)BiologyDemographyEvolutionary biologyGenetic variationGeneticsPaleontologySociologyPhysicsQuantum mechanicsEvolution and Genetic DynamicsSpecies Distribution and Climate ChangeAnimal Behavior and Reproduction