Litcius/Paper detail

Evolutionary rescue on genotypic fitness landscapes

Lindi M. Wahl, Paulo R. A. Campos

2023Journal of The Royal Society Interface10 citationsDOIOpen Access PDF

Abstract

Populations facing adverse environments, novel pathogens or invasive competitors may be destined to extinction if they are unable to adapt rapidly. Quantitative predictions of the probability of survival through adaptation, evolutionary rescue, have been previously developed for one of the most natural and well-studied mappings from an organism's traits to its fitness, Fisher's geometric model (FGM). While FGM assumes that all possible trait values are accessible via mutation, in many applications only a finite set of rescue mutations will be available, such as mutations conferring resistance to a parasite, predator or toxin. We predict the probability of evolutionary rescue, via de novo mutation, when this underlying genetic structure is included. We find that rescue probability is always reduced when its genetic basis is taken into account. Unlike other known features of the genotypic FGM, however, the probability of rescue increases monotonically with the number of available mutations and approaches the behaviour of the classical FGM as the number of available mutations approaches infinity.

Topics & Concepts

BiologyMutationAdaptation (eye)TraitMutation rateGenetic FitnessEvolutionary biologyEvolutionary dynamicsSelection (genetic algorithm)Fitness landscapeEvolvabilityNatural selectionExtinction (optical mineralogy)GeneticsGenePopulationComputer scienceArtificial intelligenceNeuroscienceDemographyPaleontologySociologyProgramming languageEvolution and Genetic DynamicsEvolutionary Game Theory and CooperationMathematical and Theoretical Epidemiology and Ecology Models