Range-wide genetic structure and diversity of the endemic tree line species Polylepis australis (Rosaceae) in Argentina

Range-wide genetic structure and diversity of the endemic tree line species Polylepis australis (Rosaceae) in Argentina

Premise of the study: Knowledge on the range-wide distribution of genetic structure and diversity is required to facilitate the understanding of historical tree migration and for predicting responses to current climate change. With respect to post-glacial migration patterns known from the northern h...

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Bibliographic Details
Published in:American journal of botany Vol. 98; no. 11; pp. 1825 - 1833
Main Authors: Hensen, Isabell, Teich, Ingrid, Hirsch, Heidi, von Wehrden, Henrik, Renison, Daniel
Format: Journal Article
Language:English
Published: United States Botanical Society of America 01-11-2011
Botanical Society of America, Inc
Subjects:
AFLP
Argentina
Botany
Climate change
Ecological genetics
Gene Flow
Genetic diversity
Genetic Structures
Genetic Variation
Genetics, Population
Geographic regions
Geography
Heterozygote
high mountain forests
neotropics
Plant genetics
Plant populations
Plant reproduction
Population Biology
Population Dynamics
Population genetics
Population geography
Population structure
Rosaceae
Rosaceae - genetics
tree migration
Trees
Trees - genetics
Argentina
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Summary:Premise of the study: Knowledge on the range-wide distribution of genetic structure and diversity is required to facilitate the understanding of historical tree migration and for predicting responses to current climate change. With respect to post-glacial migration patterns known from the northern hemisphere, we tested the prediction that the southernmost populations of a subtropical tree line species have lower within-population genetic diversity and higher genetic differentiation than the central and northernmost populations. Methods: We used AFLP to assess the genetic structure of 18 populations of the wind-pollinated Polylepis australis (Rosaceae) sampled over its entire distributional range in three Argentinean high mountain regions. Genetic diversity was calculated as a percentage of polymorphic bands (P) and Nei's expected heterozygosity (He); genetic differentiation was assessed using AMOVA, Φ ST -statistics, and Bayesian cluster analysis. Key results: Contrary to our expectations, the northernmost Polylepis australis stands had lower within-population genetic diversity and higher genetic differentiation than the central and southernmost stands. Populations grouped into two major clusters, the first containing the southern populations and four central populations and the second containing the northern and one central population. Conclusions: Patterns of Polylepis australis genetic structure and diversity differ from historical migration scenarios observed for the northern hemisphere. The decline in genetic diversity toward the north may point to an equatorward migration following past climatic changes. Populations within the south and central part appear to be connected by effective long-distance pollination while gene flow in the northern part is probably hampered by geographic isolation.
Bibliography:The authors thank R. Suarez, C. García, J. Dominguez, M. Landi, P. Marcora, U. Quiroga, and G. Robledo for help with collection of leaf samples. We also thank the Argentine National Parks authorities and Yala Provincial Park for permits, G. Guzmán for help in obtaining permits in Jujuy, G. Guzmán and R. Grau for information about forest locations and access trails, and B. Mueller for help in the laboratory. The comments from Jeffrey Ross‐Ibarra and two anonymous referees greatly improved the manuscript. Financial support was generously provided by the Volkswagen Foundation.
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ISSN:0002-9122
1537-2197
DOI:10.3732/ajb.1000100