Biogeographic processes underlying global patterns of plant diversity
Summary
The uneven global distribution of plant diversity remains a fundamental question in biogeography. Using dated phylogenies of >300,000 plant species and ancestral biogeographical stochastic mapping, we show that in situ speciation is the predominant process underlying extant plant diversity and accounts for 78% of biogeographic events across realms. The Neotropic contributed 37% of in situ speciation, likely owing to its role as a center of species diversification. Dispersal between realms
Content
# Biogeographic processes underlying global patterns of plant diversity
*Published: 2026 May 21*
The uneven global distribution of plant diversity remains a fundamental question
in biogeography. Using dated phylogenies of >300,000 plant species and ancestral
biogeographical stochastic mapping, we show that in situ speciation is the
predominant process underlying extant plant diversity and accounts for 78% of
biogeographic events across realms. The Neotropic contributed 37% of in situ
speciation, likely owing to its role as a center of species diversification.
Dispersal between realms was less frequent (16% of events) but facilitated
floristic exchanges, especially in the Eastern Hemisphere. Extinction was least
frequent but more pronounced in East Asia. These findings support the tropical
conservatism hypothesis in which many clades originated in the tropics and only
recently expanded into temperate zones, where limited time and biome
conservatism have restricted speciation and diversity.
DOI: 10.1126/science.adv6172