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  • (-) Keywords ≠ amplified fragment length polymorphisms
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No distinct barrier effects of highways and a wide river on the genetic structure of the Alpine newt (<i>Ichthyosaura alpestris</i>) in densely settled landscapes
Luqman, H., Muller, R., Vaupel, A., Brodbeck, S., Bolliger, J., & Gugerli, F. (2018). No distinct barrier effects of highways and a wide river on the genetic structure of the Alpine newt (Ichthyosaura alpestris) in densely settled landscapes. Conservation Genetics, 19(3), 673-685. https://doi.org/10.1007/s10592-018-1046-y
Evaluating the functionality of expert-assessed wildlife corridors with genetic data from roe deer
Burkart, S., Gugerli, F., Senn, J., Kuehn, R., & Bolliger, J. (2016). Evaluating the functionality of expert-assessed wildlife corridors with genetic data from roe deer. Basic and Applied Ecology, 17(1), 52-60. https://doi.org/10.1016/j.baae.2015.09.001
Combining landscape genetics, radio-tracking and long-term monitoring to derive management implications for Natterjack toads (<I>Epidalea calamita</I>) in agricultural landscapes
Frei, M., Csencsics, D., Brodbeck, S., Schweizer, E., Bühler, C., Gugerli, F., & Bolliger, J. (2016). Combining landscape genetics, radio-tracking and long-term monitoring to derive management implications for Natterjack toads (Epidalea calamita) in agricultural landscapes. Journal for Nature Conservation, 32, 22-34. https://doi.org/10.1016/j.jnc.2016.04.002
Parsimony-based pedigree analysis and individual-based landscape genetics suggest topography to restrict dispersal and connectivity in the endangered capercaillie
Kormann, U., Gugerli, F., Ray, N., Excoffier, L., & Bollmann, K. (2012). Parsimony-based pedigree analysis and individual-based landscape genetics suggest topography to restrict dispersal and connectivity in the endangered capercaillie. Biological Conservation, 152, 241-252. https://doi.org/10.1016/j.biocon.2012.04.011
Broad-scale adaptive genetic variation in alpine plants is driven by temperature and precipitation
Manel, S., Gugerli, F., Thuiller, W., Alvarez, N., Legendre, P., Holderegger, R., … IntraBioDiv Consortium,. (2012). Broad-scale adaptive genetic variation in alpine plants is driven by temperature and precipitation. Molecular Ecology, 21(15), 3729-3738. https://doi.org/10.1111/j.1365-294X.2012.05656.x
Open areas in a landscape enhance pollen-mediated gene flow of a tree species: evidence from northern Switzerland
Kamm, U., Gugerli, F., Rotach, P., Edwards, P., & Holderegger, R. (2010). Open areas in a landscape enhance pollen-mediated gene flow of a tree species: evidence from northern Switzerland. Landscape Ecology, 25(6), 903-911. https://doi.org/10.1007/s10980-010-9468-z
Common factors drive adaptive genetic variation at different spatial sclaes in <i>Arabis alpina</i>
Manel, S., Poncet, B. N., Legendre, P., Gugerli, F., & Holderegger, R. (2010). Common factors drive adaptive genetic variation at different spatial sclaes in Arabis alpina. Molecular Ecology, 19(17), 3824-3835. https://doi.org/10.1111/j.1365-294X.2010.04716.x
Frequent long-distance gene flow in a rare temperate forest tree (<i>Sorbus domestica</i>) at the landscape scale
Kamm, U., Rotach, P., Gugerli, F., Siroky, M., Edwards, P., & Holderegger, R. (2009). Frequent long-distance gene flow in a rare temperate forest tree (Sorbus domestica) at the landscape scale. Heredity, 103(6), 476-482. https://doi.org/10.1038/hdy.2009.70
Adaptive vs. neutral genetic diversity: implications for landscape genetics
Holderegger, R., Kamm, U., & Gugerli, F. (2006). Adaptive vs. neutral genetic diversity: implications for landscape genetics. Landscape Ecology, 21(6), 797-807. https://doi.org/10.1007/s10980-005-5245-9