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Bonin, A., Bellemain, E., Bronken Eidesen, P., Pompanon, F., Brochmann, C., Taberlet, P. 2004. How to track and assess genotyping errors in population genenics studies Molecular Ecology (Invited Review) 13, 3261-3273.
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Bellemain, E., Swenson, J.E., Tallmom, D.A., Brunberg, S., Taberlet, P. 2005. Estimating population size of elusive animals using DNA from hunter-collected feces: comparing four methods for brown bears. Conservation Biology, 19(1), 150-161
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Bellemain, E., Zedrosser, A., Manel, S., Taberlet, P., Waits, L.P., Swenson, J.E. 2006. The dilemma of female mate selection in the brown bear, a species with sexually selected infanticide. Proceedings of the Royal Society of London, Series B 273, 283-291
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Solberg, H., Bellemain, E., Drageset, O.M., Taberlet, P., Swenson, J.E. 2006. An evaluation of field and genetic methods to estimate brown bear (Ursus arctos) population size. Biological conservation 128, 158-168.
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Bellemain, E., Nawaz, A., Valentini, A., Swenson, J.E, Taberlet, P. 2007. Genetic tracking of the brown bear in northern Pakistan and implications for conservation. Biological Conservation 134, 537-547.
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Manel, S., Berthoud, F., Bellemain, E. Gaudeul, M., Swenson, J.E., Luikart, G., Waits, L.P. Intrabiodiv consortium, Taberlet, P. 2007. A new individual-based geographic approach for identifying genetic discontinuities. Molecular Ecology 16(10): 2031-2043.
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Valentini, A., Miquel, C., Nawaz, M.A., Bellemain, E., Coissac, E., Pompanon, F., Nascetti, G. et al. 2008. New perspectives in diet analysis based on DNA barcoding and parallel pyrosequencing: the trnL approach. Molecular Ecology, 2009, 9, 51-60
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Pages, M., Maudet, C., Bellemain, E., Taberlet, P., Hugues, S., Hänni, C. 2009. Sex your Ursid free. Conservation Genetics. DOI 10.1007/s10592-008-9650-x
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Bellemain, E., Carlsen, T., Coissac, E., Taberlet, P., Brochmann, C., Kauserud, H. 2010. ITS as a DNA barcode in fungi: An in silico approach reveals potential PCR biases. BMC Microbiology. 10:189
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Swenson, J.E., Taberlet, P., Bellemain, E. Genetics and conservation of European brown bears. 2011. In press. Mammal Review.
1. We review the genetics research that has been conducted on the European brown bear Ursus arctos, one of the genetically best-studied mammalian species.
2. The first genetics studies on European brown bears were on phylogeography, as a basis for proposed population augmentations. Two major mitochondrial DNA lineages, western and eastern, and two clades within the western lineage were found. This led to a hypothesis that brown bears had contracted to southern refugia
during the last glacial maximum. More recent results suggest that gene flow among brown bears blurred this structure and they survived north of these putative refugia. Thus, today’s structure might be a result of population fragmentation caused by humans.
3. The nuclear diversity of European brown bears is similar in range to that in North American bears: low levels occur in the small populations and high levels in the large populations.
4. Many non-invasive genetic methods, developed during research on brown bears, have been used for individual identification, censusing populations, monitoring migration and gene flow, and testing methods that are easier to use in endangered populations and over large areas.
5. Genetics has been used to study many behavioural and population ecological questions that have relevance for the conservation and management of brown bears.
6. The European brown bear has served, and will continue to serve, as a model for the development of methods, analyses and hypotheses in conservation genetics.
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