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Genomic, morphological and physiological data support fast ecotypic differentiation and incipient speciation in an alpine diving beetle. | LitMetric

AI Article Synopsis

  • This study examines how evolutionary and demographic factors shape genetic and phenotypic diversity in alpine beetles, particularly the Agabus bipustulatus group, and highlights challenges in species identification and conservation.
  • By using genomic data and thermal experiments, researchers found three distinct genetic lineages linked to Pleistocene climate changes, including an alpine ecotype A. nevadensis endemic to Sierra Nevada.
  • Results indicate that unique environmental adaptations, population isolation, and genetic mixing have led to rapid differentiation and potential speciation in these beetles, emphasizing the significant role of climatic shifts in generating biodiversity in alpine ecosystems.

Article Abstract

An intricate interplay between evolutionary and demographic processes has frequently resulted in complex patterns of genetic and phenotypic diversity in alpine lineages, posing serious challenges to species delimitation and biodiversity conservation planning. Here we integrate genomic data, geometric morphometric analyses and thermal tolerance experiments to explore the role of Pleistocene climatic changes and adaptation to alpine environments on patterns of genomic and phenotypic variation in diving beetles from the taxonomically complex Agabus bipustulatus species group. Genetic structure and phylogenomic analyses revealed the presence of three geographically cohesive lineages, two representing trans-Palearctic and Iberian populations of the elevation-generalist A. bipustulatus and another corresponding to the strictly-alpine A. nevadensis, a narrow-range endemic taxon from the Sierra Nevada mountain range in southeastern Iberia. The best-supported model of lineage divergence, along with the existence of pervasive genetic introgression and admixture in secondary contact zones, is consistent with a scenario of population isolation and connectivity linked to Quaternary climatic oscillations. Our results suggest that A. nevadensis is an alpine ecotype of A. bipustulatus, whose genotypic, morphological and physiological differentiation likely resulted from an interplay between population isolation and local altitudinal adaptation. Remarkably, within the Iberian Peninsula, such ecotypic differentiation is unique to Sierra Nevada populations and has not been replicated in other alpine populations of A. bipustulatus. Collectively, our study supports fast ecotypic differentiation and incipient speciation processes within the study complex and points to Pleistocene glaciations and local adaptation along elevational gradients as key drivers of biodiversity generation in alpine environments.

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Source
http://dx.doi.org/10.1111/mec.17487DOI Listing

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