Reproductive strategies and their consequences for divergence, gene flow, and genetic diversity in three taxa of Clarkia

Reproductive strategies and their consequences for divergence, gene flow, and genetic diversity in three taxa of Clarkia

Differences in reproductive strategies can have important implications for macro- and micro-evolutionary processes. We used a comparative approach through a population genetics lens to evaluate how three distinct reproductive strategies shape patterns of divergence among as well as gene flow and gen...

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Bibliographic Details
Published in:Heredity Vol. 131; no. 5-6; pp. 338 - 349
Main Authors: Diaz-Martin, Zoe, Cisternas-Fuentes, Anita, Kay, Kathleen M, Raguso, Robert A, Skogen, Krissa, Fant, Jeremie
Format: Journal Article
Language:English
Published: England Springer Nature B.V 01-12-2023
Subjects:
Biological Evolution
Breeding
Chromosomes
Clarkia
Clarkia - genetics
Divergence
Evolution
Gene Flow
Genetic diversity
Genetics
Genotyping
Geographical distribution
Heterozygosity
Pollinators
Polymorphism
Polymorphism, Genetic
Population genetics
Reproduction
Reproductive strategy
Taxa
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Summary:Differences in reproductive strategies can have important implications for macro- and micro-evolutionary processes. We used a comparative approach through a population genetics lens to evaluate how three distinct reproductive strategies shape patterns of divergence among as well as gene flow and genetic diversity within three closely related taxa in the genus Clarkia. One taxon is a predominantly autonomous self-fertilizer and the other two taxa are predominantly outcrossing but vary in the primary pollinator they attract. In genotyping populations using genotyping-by-sequencing and comparing loci shared across taxa, our results suggest that differences in reproductive strategies in part promote evolutionary divergence among these closely related taxa. Contrary to expectations, we found that the selfing taxon had the highest levels of heterozygosity but a low rate of polymorphism. The high levels of fixed heterozygosity for a subset of loci suggests this pattern is driven by the presence of structural rearrangements in chromosomes common in other Clarkia taxa. In evaluating patterns within taxa, we found a complex interplay between reproductive strategy and geographic distribution. Differences in the mobility of primary pollinators did not translate to a difference in rates of genetic diversity and gene flow within taxa - a pattern likely due to one taxon having a patchier distribution and a less temporally and spatially reliable pollinator. Taken together, this work advances our understanding of the factors that shape gene flow and the distribution of genetic diversity within and among closely related taxa.
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ISSN:0018-067X
1365-2540
1365-2540
DOI:10.1038/s41437-023-00649-y