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The origin and diversification of the hyperdiverse flora in the Chocó biogeographic region

  • Oscar Alejandro Pérez-Escobar
    ,
  • Eve Lucas
    ,
  • Carlos Jaramillo
    ,
  • Alexandre Monro
    ,
  • Sarah K. Morris
    ,
  • Diego Bogarín
  • University of Gothenburg
    ,
  • Royal Botanic Gardens, Kew
    ,
  • Smithsonian Institution
    ,
  • CNRS
    ,
  • University of Costa Rica
    ,
  • Ministerio de Vivienda, Ciudad y Territorio
Research Output: Contribution to journal Article Peer-review

Open access

Sustainable Development Goals

  • SDG 15 - Life on Land
    SDG 15 Life on Land

Abstract

Extremely high levels of plant diversity in the American tropics are derived from multiple interactions between biotic and abiotic factors. Previous studies have focused on macro-evolutionary dynamics of the Tropical Andes, Amazonia, and Brazil’s Cerrado and Atlantic forests during the last decade. Yet, other equally important Neotropical biodiversity hotspots have been severely neglected. This is particularly true for the Chocó region on the north-western coast of South and Central America. This geologically complex region is Earth’s ninth most biodiverse hotspot, hosting approximately 3% of all known plant species. Here, we test Gentry’s [1982a,b] hypothesis of a northern Andean-Central American Pleistocene origin of the Chocoan flora using phylogenetic reconstructions of representative plant lineages in the American tropics. We show that plant diversity in the Chocó is derived mostly from Andean immigrants. Contributions from more distant biogeographical areas also exist but are fewer. We also identify a strong floristic connection between the Chocó and Central America, revealed by multiple migrations into the Chocó during the last 5 Ma. The dated phylogenetic reconstructions suggest a Plio-Pleistocene onset of the extant Chocó flora. Taken together, these results support to a limited extend Gentry’s hypothesis of a Pleistocene origin and of a compound assembly of the Chocoan biodiversity hotspot. Strong Central American–Chocoan floristic affinity may be partly explained by the accretion of a land mass derived from the Caribbean plate to north-western South America. Additional densely sampled phylogenies of Chocoan lineages also well represented across the Neotropics could enlighten the role of land mass movements through time in the assembly of floras in Neotropical biodiversity hotspots.

Publication Information

Output type

Research Output: Contribution to journal Article Peer-review

Original language

English

Journal (Volume, Issue Number)

Frontiers in Plant Science

Publication milestones

  • Published - 06/12/2019

Publication status

Published - 06/12/2019

External Publication IDs

  • handle.net: 10547/623638
  • Scopus: 85076501223

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