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Climate drives among‐year variation in natural selection on flowering time

Johan Ehrlén, Alicia Valdés

2020Ecology Letters43 citationsDOIOpen Access PDF

Abstract

To predict long-term responses to climate change, we need to understand how changes in temperature and precipitation elicit both immediate phenotypic responses and changes in natural selection. We used 22 years of data for the perennial herb Lathyrus vernus to examine how climate influences flowering phenology and phenotypic selection on phenology. Plants flowered earlier in springs with higher temperatures and higher precipitation. Early flowering was associated with a higher fitness in nearly all years, but selection for early flowering was significantly stronger in springs with higher temperatures and lower precipitation. Climate influenced selection through trait distributions, mean fitness and trait-fitness relationships, the latter accounting for most of the among-year variation in selection. Our results show that climate both induces phenotypic responses and alters natural selection, and that the change in the optimal phenotype might be either weaker, as for spring temperature, or stronger, as for precipitation, than the optimal response.

Topics & Concepts

PhenologyNatural selectionBiologyTraitSelection (genetic algorithm)PrecipitationClimate changeEcologyPerennial plantGeographyComputer scienceProgramming languageMeteorologyArtificial intelligencePlant and animal studiesSpecies Distribution and Climate ChangeEcology and Vegetation Dynamics Studies
Climate drives among‐year variation in natural selection on flowering time | Litcius