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Klimat & miljö 5.1

Fish Reveal How Species Rapidly Evolve to Survive Climate Change

Scientists mapped the genome of European cisco fish and discovered distinct genetic signatures for adapting to saltwater and changing spawning seasons. The findings show how fish populations can genetically restructure within generations—crucial evidence for predicting which species will survive warming oceans and shifting ecosystems.

Originaltitel: Genetic Adaptation to Brackish Water and Spawning Season in European Cisco

Abstrakt

<p>How species adapt to diverse environmental conditions is essential for understanding evolution and the maintenance of biodiversity. The European cisco (<em>Coregonus albula</em>) is a salmonid that occurs in both fresh and brackish water, and this together with the presence of sympatric spring- and autumn-spawning lacustrine populations provides an opportunity for studying the genetics of adaptation in relation to salinity and timing of reproduction. Here, we present a high-quality reference genome of the European cisco based on PacBio HiFi long read sequencing and HiC-directed scaffolding. We generated low-coverage whole-genome sequencing data from 336 individuals across 12 population samples to explore population structure and genetics of ecological adaptation. We found a major subdivision between two groups of populations most likely reflecting colonisation from different glacial refugia. Within the two major groups, we detected further genetic differentiation between spring- and autumn-spawning populations and between populations from freshwater lakes, rivers and brackish water (Bothnian Bay). A genome-wide screen for genetic differentiation among populations identified a set of outlier SNPs strongly correlated with spawning timing and salinity. Several of the genes associated with spawning time, including <em>BHLHE40</em>, <em>TIMELESS</em> and <em>CPT1A</em>, have previously been shown to have a role in circadian rhythm biology. As many as 17 loci were associated with genetic differentiation between populations reproducing in fresh and brackish water. This study provides insights into the genomic basis of ecological adaptation in European cisco with implications for sustainable fishery management.</p>

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