Affiliation:
1. Departamento de Biología de la Conservación Centro de Investigación Científica y de Educación Superior de Ensenada (CICESE) Ensenada Baja California México
2. Environmental and Life Sciences Graduate Program Trent University Peterborough Ontario Canada
3. Instituto de Ecología Universidad Nacional Autónoma de México (UNAM) Ciudad de México México
4. Facultad de Ciencias Universidad Autónoma de Baja California (UABC) Ensenada Baja California Mexico
Abstract
AbstractPremiseGlobally, barriers triggered by climatic changes have caused habitat fragmentation and population allopatric divergence. Across North America, oscillations during the Quaternary have played important roles in the distribution of wildlife. Notably, diverse plant species from the Baja California Peninsula in western North America, isolated during the Pleistocene glacial–interglacial cycles, exhibit strong genetic structure and highly concordant divergent lineages across their ranges. A representative plant genus of the peninsula is Yucca, with Y. valida having the widest range. Although a dominant species, it has an extensive distribution discontinuity between 26° N and 27° N, suggesting restricted gene flow. Moreover, historical distribution models indicate the absence of an area with suitable conditions for the species during the Last Interglacial, making it an interesting model for studying genetic divergence.MethodsWe assembled 4411 SNPs from 147 plants of Y. valida throughout its range to examine its phylogeography to identify the number of genetic lineages, quantify their genetic differentiation, reconstruct their demographic history and estimate the age of the species.ResultsThree allopatric lineages were identified based on the SNPs. Our analyses support that genetic drift is the driver of genetic differentiation among these lineages. We estimated an age of less than 1 million years for the common ancestor of Y. valida and its sister species.ConclusionsHabitat fragmentation caused by climatic changes, low dispersal, and an extensive geographical range gap acted as cumulative mechanisms leading to allopatric divergence in Y. valida.
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