Polygenic adaptation from standing genetic variation allows rapid ecotype formation

Author:

Fuhrmann Nico1,Prakash Celine1,Kaiser Tobias S1ORCID

Affiliation:

1. Max Planck Institute for Evolutionary Biology

Abstract

Adaptive ecotype formation can be the first step to speciation, but the genetic underpinnings of this process are poorly understood. Marine midges of the genus Clunio (Diptera) have recolonized Northern European shore areas after the last glaciation. In response to local tide conditions they have formed different ecotypes with respect to timing of adult emergence, oviposition behavior and larval habitat. Genomic analysis confirms the recent establishment of these ecotypes, reflected in massive haplotype sharing between ecotypes, irrespective of whether there is ongoing gene flow or geographic isolation. QTL mapping and genome screens reveal patterns of polygenic adaptation from standing genetic variation. Ecotype-associated loci prominently include circadian clock genes, as well as genes affecting sensory perception and nervous system development, hinting to a central role of these processes in ecotype formation. Our data show that adaptive ecotype formation can occur rapidly, with ongoing gene flow and largely based on a re-assortment of existing alleles.

Funder

European Research Council

Max-Planck-Gesellschaft

Publisher

eLife Sciences Publications, Ltd

Subject

General Immunology and Microbiology,General Biochemistry, Genetics and Molecular Biology,General Medicine,General Neuroscience

Reference100 articles.

1. TopGO: enrichment analysis for gene ontology;Alexa,2010

2. Enhancements to the admixture algorithm for individual ancestry estimation;Alexander;BMC Bioinformatics,2011

3. The still dark side of the moon: molecular mechanisms of lunar-controlled rhythms and clocks;Andreatta;Journal of Molecular Biology,2020

4. A genomic view of introgression and hybrid speciation;Baack;Current Opinion in Genetics & Development,2007

5. Median-joining networks for inferring intraspecific phylogenies;Bandelt;Molecular Biology and Evolution,1999

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