4.5 Article

Fewer chromosomes, more co-occurring species within plant lineages: A likely effect of local survival and colonization

Journal

AMERICAN JOURNAL OF BOTANY
Volume 110, Issue 4, Pages -

Publisher

WILEY
DOI: 10.1002/ajb2.16139

Keywords

chromosome number; coexistence; ecological genetics and ecogenomics; genome size; life-history traits; locally species-rich families; polyploidy; species communities; species richness of lineages

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Plant lineages differ in species richness globally, regionally, and locally. Whole-genome characteristics (WGCs) such as chromosome number and ploidy level may explain these differences through speciation or extinction. This study investigates the relationships between WGCs and species richness in a regional flora and local plant communities.
PremisePlant lineages differ markedly in species richness globally, regionally, and locally. Differences in whole-genome characteristics (WGCs) such as monoploid chromosome number, genome size, and ploidy level may explain differences in global species richness through speciation or global extinction. However, it is unknown whether WGCs drive species richness within lineages also in a recent, postglacial regional flora or in local plant communities through local extinction or colonization and regional species turnover. MethodsWe tested for relationships between WGCs and richness of angiosperm families across the Netherlands/Germany/Czechia as a region, and within 193,449 local vegetation plots. ResultsFamilies that are species-rich across the region have lower ploidy levels and small monoploid chromosomes numbers or both (interaction terms), but the relationships disappear after accounting for continental and local richness of families. Families that are species-rich within occupied localities have small numbers of polyploidy and monoploid chromosome numbers or both, independent of their own regional richness and the local richness of all other locally co-occurring species in the plots. Relationships between WGCs and family species-richness persisted after accounting for niche characteristics and life histories. ConclusionsFamilies that have few chromosomes, either monoploid or holoploid, succeed in maintaining many species in local communities and across a continent and, as indirect consequence of both, across a region. We suggest evolutionary mechanisms to explain how small chromosome numbers and ploidy levels might decrease rates of local extinction and increase rates of colonization. The genome of a macroevolutionary lineage may ultimately control whether its species can ecologically coexist.

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