Standing genetic variation and introgression shape the cryptic radiation of Aquilegia in the mountains of Southwest China

Standing genetic variation and introgression shape the cryptic radiation of Aquilegia in the mountains of Southwest China

Abstract Cryptic diversity in evolutionary radiation offers an excellent system for investigating the intricacies of evolutionary progress. Understanding the evolution of cryptic diversity is imperative for unraveling the hidden complexities of biodiversity. However, empirical evidence elucidating t...

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Bibliographic Details
Main Authors: Jun-Chu Peng, Ziwen He, Zhi-Qiang Zhang
Format: Article
Language:English
Published: Nature Portfolio 2025-04-01
Series:Communications Biology
Online Access:https://doi.org/10.1038/s42003-025-08120-w
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Summary:Abstract Cryptic diversity in evolutionary radiation offers an excellent system for investigating the intricacies of evolutionary progress. Understanding the evolution of cryptic diversity is imperative for unraveling the hidden complexities of biodiversity. However, empirical evidence elucidating the mechanisms behind cryptic radiation remains limited, particularly in plants. Here, we focus on a monophyletic group of Aquilegia species mainly distributed in the mountains of Southwest China, one of the world’s biodiversity hotspots. Using whole-genome resequencing of 158 individuals from 23 natural populations, we identify three to four paraphyletic lineages within each morphological species. Our findings reveal that 39 out of 43 detected instances of introgression occurred post-lineage formation. Identifying shared genomic regions indicates that the divergence of fixed singletons in lineages from morphological species A. kansuensis and A. rockii predates lineage formation, supporting a scenario where incomplete lineage sorting of standing variation contributes to morphological parallelism. Furthermore, strong positive correlations among genomic differentiation, divergence, and introgression suggest that standing variations and introgression from non-sister lineages contribute to the rapid genetic divergence. Our study illuminates the important roles of standing variations and introgression in plant cryptic radiation, advancing our understanding of the complex mechanisms behind the evolution of biodiversity in recent radiation events.
ISSN:2399-3642

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