Active Filters

  • (-) Keywords = landscape genetics
Search Results 1 - 20 of 31
Select Page
Landscape heterogeneity and ecological niche isolation shape the distribution of spatial genetic variation in Iranian brown bears, <i>Ursus arctos</i> (Carnivora: Ursidae)
Ashrafzadeh, M. R., Khosravi, R., Ahmadi, M., & Kaboli, M. (2018). Landscape heterogeneity and ecological niche isolation shape the distribution of spatial genetic variation in Iranian brown bears, Ursus arctos (Carnivora: Ursidae). Mammalian Biology, 93, 64-75. https://doi.org/10.1016/j.mambio.2018.08.007
Contemporary pollen flow as a multiscale process: evidence from the insect‐pollinated herb, <i>Pulsatilla vulgaris</i>
DiLeo, M. F., Holderegger, R., & Wagner, H. H. (2018). Contemporary pollen flow as a multiscale process: evidence from the insect‐pollinated herb, Pulsatilla vulgaris. Journal of Ecology, 106(6), 2242-2255. https://doi.org/10.1111/1365-2745.12992
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
Combining Bayesian genetic clustering and ecological niche modeling: insights into wolf intraspecific genetic structure
Milanesi, P., Caniglia, R., Fabbri, E., Puopolo, F., Galaverni, M., & Holderegger, R. (2018). Combining Bayesian genetic clustering and ecological niche modeling: insights into wolf intraspecific genetic structure. Ecology and Evolution, 8(22), 11224-11234. https://doi.org/10.1002/ece3.4594
Bedeutung der Naturschutzgenetik für den Bund
Cordillot, F. (2017). Bedeutung der Naturschutzgenetik für den Bund. In D. Csencsics & F. Gugerli (Eds.), WSL Berichte. Naturschutzgenetik (pp. 63-69). Birmensdorf: Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL.
Der Boden – eine wertvolle Ressource für die genetische Vielfalt
Hartmann, M., & Sperisen, C. (2017). Der Boden – eine wertvolle Ressource für die genetische Vielfalt. In D. Csencsics & F. Gugerli (Eds.), WSL Berichte. Naturschutzgenetik (pp. 39-47). Birmensdorf: Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL.
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
Loss of connectivity among island-dwelling Peary caribou following sea ice decline
Jenkins, D. A., Lecomte, N., Schaefer, J. A., Olsen, S. M., Swingedouw, D., Côté, S. D., … Yannic, G. (2016). Loss of connectivity among island-dwelling Peary caribou following sea ice decline. Biology Letters, 12(9), 20160235 (5 pp.). https://doi.org/10.1098/rsbl.2016.0235
The structural and functional connectivity of the grassland plant <i>Lychnis flos-cuculi</i>
Aavik, T., Holderegger, R., & Bolliger, J. (2014). The structural and functional connectivity of the grassland plant Lychnis flos-cuculi. Heredity, 112(5), 471-478. https://doi.org/10.1038/hdy.2013.120
Directed dispersal by rotational shepherding supports landscape genetic connectivity in a calcareous grassland plant
Rico, Y., Holderegger, R., Boehmer, H. J., & Wagner, H. H. (2014). Directed dispersal by rotational shepherding supports landscape genetic connectivity in a calcareous grassland plant. Molecular Ecology, 23(4), 832-842. https://doi.org/10.1111/mec.12639
Identifying genetic signatures of selection in a non-model species, alpine gentian (<i>Gentiana nivalis</i> L.), using a landscape genetic approach
Bothwell, H., Bisbing, S., Therkildsen, N. O., Crawford, L., Alvarez, N., Holderegger, R., & Manel, S. (2013). Identifying genetic signatures of selection in a non-model species, alpine gentian (Gentiana nivalis L.), using a landscape genetic approach. Conservation Genetics, 14(2), 467-481. https://doi.org/10.1007/s10592-012-0411-5
Damselflies use different movement strategies for short- and long-distance dispersal
Keller, D., & Holderegger, R. (2013). Damselflies use different movement strategies for short- and long-distance dispersal. Insect Conservation and Diversity, 6(5), 590-597. https://doi.org/10.1111/icad.12016
Is functional connectivity in common grasshopper species affected by fragmentation in an agricultural landscape?
Keller, D., van Strien, M. J., Herrmann, M., Bolliger, J., Edwards, P. J., Ghazoul, J., & Holderegger, R. (2013). Is functional connectivity in common grasshopper species affected by fragmentation in an agricultural landscape? Agriculture, Ecosystems and Environment, 175, 39-46. https://doi.org/10.1016/j.agee.2013.05.006
Semi-natural river system maintains functional connectivity and gene flow of the critically endangered gravel grasshopper (<i>Chorthippus pullus</i>)
Maag, N., Karpati, T., & Bollmann, K. (2013). Semi-natural river system maintains functional connectivity and gene flow of the critically endangered gravel grasshopper (Chorthippus pullus). Biological Conservation, 158, 88-97. https://doi.org/10.1016/j.biocon.2012.08.015
Connectivity in a pond system influences migration and genetic structure in threespine stickleback
Seymour, M., Räsänen, K., Holderegger, R., & Kristjánsson, B. K. (2013). Connectivity in a pond system influences migration and genetic structure in threespine stickleback. Ecology and Evolution, 3(3), 492-502. https://doi.org/10.1002/ece3.476
Forecasting changes in population genetic structure of alpine plants in response to global warming
Jay, F., Manel, S., Alvarez, N., Durand, E. Y., Thuiller, W., Holderegger, R., … François, O. (2012). Forecasting changes in population genetic structure of alpine plants in response to global warming. Molecular Ecology, 21(10), 2354-2368. https://doi.org/10.1111/j.1365-294X.2012.05541.x
Do landscape barriers affect functional connectivity of populations of an endangered damselfly?
Keller, D., van Strien, M. J., & Holderegger, R. (2012). Do landscape barriers affect functional connectivity of populations of an endangered damselfly? Freshwater Biology, 57(7), 1373-1384. https://doi.org/10.1111/j.1365-2427.2012.02797.x
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