Evolutionary rescue during extreme drought

Daniel N. Anstett
Julia Anstett
Seema N. Sheth
Dylan R. Moxley
Mojtaba Jahani
Kaichi Huang
Marco Todesco
Rebecca Jordan
Jose Miguel Lazaro-Guevara
Loren H. Rieseberg
Amy L. Angert

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Abstract

Populations declining due to climate change may need to evolve to persist. While evolutionary rescue has been demonstrated in theory and the lab, its relevance to natural populations facing climate change remains unknown. Here we link rapid evolution and population dynamics in scarlet monkeyflower, Mimulus cardinalis , during an exceptional drought. We leverage whole-genome sequencing across 55 populations to identify climate-associated loci. Simultaneously we track demography and allele frequency change throughout the drought. We establish range-wide population decline during the drought, geographically variable rapid evolution, and variable population recovery that is predictable by both standing genetic variation and rapid evolution at climate-associated loci. These findings demonstrate evolutionary rescue in the wild, showing that genomic variability at adaptive, but not neutral loci, predicts population recovery.

Version published to 10.1101/2024.10.24.619808v1 on bioRxiv
Oct 24, 2024

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