Genetic structuring in a Neotropical palm analyzed through an Andean orogenesis‐scenario

Sebastián Escobar; Jean‐Christophe Pintaud; Henrik Balslev; Rodrigo Bernal; Mónica Moraes Ramírez; Betty Millán; Rommel Montúfar

doi:10.1002/ece3.4216

Ecology and Evolution (Aug 2018)

Genetic structuring in a Neotropical palm analyzed through an Andean orogenesis‐scenario

Sebastián Escobar,
Jean‐Christophe Pintaud,
Henrik Balslev,
Rodrigo Bernal,
Mónica Moraes Ramírez,
Betty Millán,
Rommel Montúfar

Affiliations

Sebastián Escobar: Facultad de Ciencias Exactas y Naturales Pontificia Universidad Católica del Ecuador Quito Ecuador
Jean‐Christophe Pintaud: DYNADIV UMR DIADE Institut de Recherche pour le Développement Montpellier France
Henrik Balslev: Department of Bioscience, Ecoinformatics and Biodiversity Group Aarhus University Aarhus Denmark
Rodrigo Bernal: Instituto de Ciencias Naturales Universidad Nacional de Colombia Bogotá Colombia
Mónica Moraes Ramírez: Instituto de Ecología Universidad Mayor de San Andrés La Paz Bolivia
Betty Millán: Museo de Historia Natural Universidad Nacional Mayor de San Marcos (UNMSM) Lima Perú
Rommel Montúfar: Facultad de Ciencias Exactas y Naturales Pontificia Universidad Católica del Ecuador Quito Ecuador

DOI: https://doi.org/10.1002/ece3.4216
Journal volume & issue: Vol. 8, no. 16
pp. 8030 – 8042

Abstract

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Abstract Andean orogenesis has driven the development of very high plant diversity in the Neotropics through its impact on landscape evolution and climate. The analysis of the intraspecific patterns of genetic structure in plants would permit inferring the effects of Andean uplift on the evolution and diversification of Neotropical flora. In this study, using microsatellite markers and Bayesian clustering analyses, we report the presence of four genetic clusters for the palm Oenocarpus bataua var. bataua which are located within four biogeographic regions in northwestern South America: (a) Chocó rain forest, (b) Amotape‐Huancabamba Zone, (c) northwestern Amazonian rain forest, and (d) southwestern Amazonian rain forest. We hypothesize that these clusters developed following three genetic diversification events mainly promoted by Andean orogenic events. Additionally, the distinct current climate dynamics among northwestern and southwestern Amazonia may maintain the genetic diversification detected in the western Amazon basin. Genetic exchange was identified between the clusters, including across the Andes region, discarding the possibility of any cluster to diversify as a distinct intraspecific variety. We identified a hot spot of genetic diversity in the northern Peruvian Amazon around the locality of Iquitos. We also detected a decrease in diversity with distance from this area in westward and southward direction within the Amazon basin and the eastern Andean foothills. Additionally, we confirmed the existence and divergence of O. bataua var. bataua from var. oligocarpus in northern South America, possibly expanding the distributional range of the latter variety beyond eastern Venezuela, to the central and eastern Andean cordilleras of Colombia. Based on our results, we suggest that Andean orogenesis is the main driver of genetic structuring and diversification in O. bataua within northwestern South America.

Published in Ecology and Evolution

ISSN: 2045-7758 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General): Ecology
Website: https://onlinelibrary.wiley.com/journal/20457758

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