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Karyotypic diversity: a neglected trait to explain angiosperm diversification?

Angelino Carta, Marcial Escudero

2023Evolution17 citationsDOIOpen Access PDF

Abstract

Evolutionary changes in karyotype provide genetic support to organisms' differentiation and adaptation; however, the association between karyotype diversity and species diversification in flowering plants (angiosperms) remains to be fully elucidated. We sought evidence for this association within a phylogenetic framework using a dataset comprising > 413,000 worldwide chromosome counts of 66,000 angiosperms species. Karyotypic diversity (e.g., number of distinct chromosome numbers) explains species richness and diversification rates at both family and genus levels highlighting that chromosome evolution has probably played, at least, an important role in reinforcing speciation that was already initiated or completed by other geographical or ecological drivers. Thus, research programs investigating chromosome variation as a direct or indirect driver of diversification should be encouraged.

Topics & Concepts

BiologyDiversification (marketing strategy)Evolutionary biologyKaryotypePhylogenetic treeTraitGenetic diversityChromosomeSpecies richnessTaxonGenetic algorithmPhylogeneticsAdaptation (eye)EcologyGeneticsGeneDemographyPopulationMarketingNeuroscienceProgramming languageBusinessSociologyComputer scienceGenetic diversity and population structurePlant Diversity and EvolutionChromosomal and Genetic Variations