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(American Journal of Botany. 2008;95:1006-1014.) doi: 10.3732/ajb.2007196 © 2008 Botanical Society of America, Inc. |
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Systematics and Phytogeography |
2 National Centre for Biosystematics, Natural History Museum, University of Oslo, P.O. Box 1172 Blindern, NO-0318 Oslo, Norway 3 Department of Biogeography and Botanical Garden, Faculty Centre Botany, University of Vienna, A-1030 Vienna, Austria
ABSTRACT
Paradoxically, several of the ecologically most important plant groups in the Arctic are little understood in terms of taxonomy and biogeographic history. The circumpolar Carex bigelowii s. l. (Cyperaceae) is abundant in the Arctic and is one of the most complicated arctic plant groups. While its ecology and population genetics have been extensively studied, its taxonomy is largely unexplored. We analyzed the large-scale geographical structuring of amplified fragment length polymorphisms (AFLPs) covering most of the distribution range. We detected high levels of genetic variation, most (66%) within populations, and a fairly weak genetic structure. Only the Central Asian populations, referred to as C. orbicularis, were strongly divergent. For the remaining populations, Bayesian clustering separated three distinct clusters (one European, one amphi-Atlantic, and one broadly amphi-Beringian), probably reflecting different major glacial refugia and recent transoceanic dispersal. The isolated central European populations were most closely related to those from a larger distribution area in northern Europe. Differences in genetic diversity suggest that the Alpine and Tatra populations have experienced strong bottlenecks, whereas the Krkono
e population may have been part of a continuous distribution area during the cold stages of the Pleistocene. Finally, we discuss the relevance of our results for a uniform, range-wide taxonomic concept.
Key Words: AFLP • arctic-alpine flora • Bayesian clustering • Carex bigelowii • Cyperaceae • plant migration • taxonomy
Received for publication 18 June 2007. Accepted for publication 8 April 2008.
FOOTNOTES
1 The authors thank the Austrian Science Fund (Erwin-Schrödinger-Stipend J2311-B03) for financing P. Schönswetter as a postdoctoral fellow at the National Centre for Biosystematics, University of Oslo. Laboratory running costs were covered by the Strategic University Program grant 146515/420 from the Research Council of Norway to C. Brochmann (botany subprogram Migration and evolution of arctic plants in response to Quaternary climate changes). They are most grateful to I. G. Alsos, A. Brysting, P. B. Eidesen, A. K. Brysting, G. Bugge, T. Carlsen, O. Gilg, A. Granberg, G. H. Jacobsen, S. Kjølner, P. Larson, C. L. Parker, M. Ronikier, L. Schratt-Ehrendorfer, I. Skrede, H. Solstad, A. Tribsch, and K. Winka for plant samples. A collecting permit for the Austrian province of Steiermark was issued by the Amt der Steiermärkischen Landesregierung, Fachabteilung 13C (FA13C – 53 S 7/27 – 2003) and permission to collect in the Tatrza
ski Park Narodowy (Tatra National Park) was granted to M. Ronikier (permission no. Bot 203). Four anonymous reviewers and C. Fenster provided excellent comments on a previous draft of the manuscript, and C. Dixon improved the English.
4 Author for correspondence (e-mail: peter.schoenswetter{at}univie.ac.at)
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