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Genetic slippage after sex maintains diversity for parasite resistance in a natural host population

Camille Ameline, Felix Voegtli, Jason Andras, Eric Dexter, Jan Engelstädter, Dieter Ebert

2022Science Advances18 citationsDOIOpen Access PDF

Abstract

Although parasite-mediated selection is a major driver of host evolution, its influence on genetic variation for parasite resistance is not yet well understood. We monitored resistance in a large population of the planktonic crustacean Daphnia magna over 8 years, as it underwent yearly epidemics of the bacterial pathogen Pasteuria ramosa . We observed cyclic dynamics of resistance: Resistance increased throughout the epidemics, but susceptibility was restored each spring when hosts hatched from sexual resting stages. Host resting stages collected across the year showed that largely resistant host populations can produce susceptible sexual offspring. A genetic model of resistance developed for this host-parasite system, based on multiple loci and strong epistasis, is in partial agreement with our findings. Our results reveal that, despite strong selection for resistance in a natural host population, genetic slippage after sexual reproduction can be a strong factor for the maintenance of genetic diversity of host resistance.

Topics & Concepts

BiologyHost (biology)Genetic diversityPopulationResistance (ecology)Genetic variationZoologyDaphnia magnaNatural selectionParasite hostingGenetic variabilitySexual reproductionEcologyEvolutionary biologyGeneticsGenotypeGeneDemographyOrganic chemistryChemistryComputer scienceToxicitySociologyWorld Wide WebEvolution and Genetic DynamicsMathematical and Theoretical Epidemiology and Ecology ModelsEvolutionary Game Theory and Cooperation
Genetic slippage after sex maintains diversity for parasite resistance in a natural host population | Litcius