Niche shifts and range expansions along cordilleras drove diversification in a high-elevation endemic plant genus in the tropical Andes
Language English Country Great Britain, England Media print-electronic
Document type Journal Article
PubMed
27482945
DOI
10.1111/mec.13788
Knihovny.cz E-resources
- Keywords
- Loricaria, biodiversity hot spot, phylogeography, species diversification, tropical Andes,
- MeSH
- Amplified Fragment Length Polymorphism Analysis MeSH
- Asteraceae classification MeSH
- Biodiversity * MeSH
- Biological Evolution * MeSH
- DNA, Chloroplast genetics MeSH
- Phylogeny * MeSH
- Altitude MeSH
- Tropical Climate MeSH
- Publication type
- Journal Article MeSH
- Geographicals
- Ecuador MeSH
- Colombia MeSH
- Names of Substances
- DNA, Chloroplast MeSH
The tropical Andes represent one of the world's biodiversity hot spots, but the evolutionary drivers generating their striking species diversity still remain poorly understood. In the treeless high-elevation Andean environments, Pleistocene glacial oscillations and niche differentiation are frequently hypothesized diversification mechanisms; however, sufficiently densely sampled population genetic data supporting this are still lacking. Here, we reconstruct the evolutionary history of Loricaria (Asteraceae), a plant genus endemic to the Andean treeless alpine zone, based on comprehensive population-level sampling of 289 individuals from 67 populations across the entire distribution ranges of its northern Andean species. Partly incongruent AFLP and plastid DNA markers reveal that the distinct genetic structure was shaped by a complex interplay of biogeography (spread along and across the cordilleras), history (Pleistocene glacial oscillations) and local ecological conditions. While plastid variation documents an early split or colonization of the northern Andes by at least two lineages, one of which further diversified, a major split in the AFLP data correlate with altitudinal ecological differentiation. This suggests that niche shifts may be important drivers of Andean diversification not only in forest-alpine transitions, but also within the treeless alpine zone itself. The patterns of genetic differentiation at the intraspecific level reject the hypothesized separation in spatially isolated cordilleras and instead suggest extensive gene flow among populations from distinct mountain chains. Our study highlights that leveraging highly variable markers against extensive population-level sampling is a promising approach to address mechanisms of rapid species diversifications.
Department of Botany Faculty of Science Charles University Prague Prague CZ 128 01 Czech Republic
Institute of Botany The Czech Academy of Sciences Průhonice CZ 252 43 Czech Republic
Natural History Museum University of Oslo P O Box 1172 Blindern Oslo NO 0318 Norway
References provided by Crossref.org
Growth form evolution and hybridization in Senecio (Asteraceae) from the high equatorial Andes
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