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Dispersal syndromes can impact ecosystem functioning in spatially structured freshwater populations
Little, C. J., Fronhofer, E. A., & Altermatt, F. (2019). Dispersal syndromes can impact ecosystem functioning in spatially structured freshwater populations. Biology Letters, 15(3), 20180865 (6 pp.). https://doi.org/10.1098/rsbl.2018.0865
Assessing different components of diversity across a river network using eDNA
Mächler, E., Little, C. J., Wüthrich, R., Alther, R., Fronhofer, E. A., Gounand, I., … Altermatt, F. (2019). Assessing different components of diversity across a river network using eDNA. Environmental DNA, 1(3), 290-301. https://doi.org/10.1002/edn3.33
Dispersal in dendritic networks: ecological consequences on the spatial distribution of population densities
Altermatt, F., & Fronhofer, E. A. (2018). Dispersal in dendritic networks: ecological consequences on the spatial distribution of population densities. Freshwater Biology, 63(1), 22-32. https://doi.org/10.1111/fwb.12951
Bottom-up and top-down control of dispersal across major organismal groups
Fronhofer, E. A., Legrand, D., Altermatt, F., Ansart, A., Blanchet, S., Bonte, D., … Cote, J. (2018). Bottom-up and top-down control of dispersal across major organismal groups. Nature Ecology & Evolution, 2(12), 1859-1863. https://doi.org/10.1038/s41559-018-0686-0
Eusociality outcompetes egalitarian and solitary strategies when resources are limited and reproduction is costly
Fronhofer, E. A., Liebig, J., Mitesser, O., & Poethke, H. J. (2018). Eusociality outcompetes egalitarian and solitary strategies when resources are limited and reproduction is costly. Ecology and Evolution, 8(24), 12953-12964. https://doi.org/10.1002/ece3.4737
Disturbance reverses classic biodiversity predictions in river-like landscapes
Harvey, E., Gounand, I., Fronhofer, E. A., & Altermatt, F. (2018). Disturbance reverses classic biodiversity predictions in river-like landscapes. Proceedings of the Royal Society B: Biological Sciences, 285(1893), 20182441 (9 pp.). https://doi.org/10.1098/rspb.2018.2441
Biodiversity increases and decreases ecosystem stability
Pennekamp, F., Pontarp, M., Tabi, A., Altermatt, F., Alther, R., Choffat, Y., … Petchey, O. L. (2018). Biodiversity increases and decreases ecosystem stability. Nature, 563(7729), 109-112. https://doi.org/10.1038/s41586-018-0627-8
Genetics of dispersal
Saastamoinen, M., Bocedi, G., Cote, J., Legrand, D., Guillaume, F., Wheat, C. W., … del Mar Delgado, M. (2018). Genetics of dispersal. Biological Reviews, 93(1), 574-599. https://doi.org/10.1111/brv.12356
Kin competition accelerates experimental range expansion in an arthropod herbivore
Van Petegem, K., Moerman, F., Dahirel, M., Fronhofer, E. A., Vandegehuchte, M. L., Van Leeuwen, T., … Bonte, D. (2018). Kin competition accelerates experimental range expansion in an arthropod herbivore. Ecology Letters, 21(2), 225-234. https://doi.org/10.1111/ele.12887
Classical metapopulation dynamics and eco-evolutionary feedbacks in dendritic networks
Fronhofer, E. A., & Altermatt, F. (2017). Classical metapopulation dynamics and eco-evolutionary feedbacks in dendritic networks. Ecography, 40(12), 1455-1466. https://doi.org/10.1111/ecog.02761
Evolution of density-dependent movement during experimental range expansions
Fronhofer, E. A., Gut, S., & Altermatt, F. (2017). Evolution of density-dependent movement during experimental range expansions. Journal of Evolutionary Biology, 30(12), 2165-2176. https://doi.org/10.1111/jeb.13182
Information use shapes the dynamics of range expansions into environmental gradients
Fronhofer, E. A., Nitsche, N., & Altermatt, F. (2017). Information use shapes the dynamics of range expansions into environmental gradients. Global Ecology and Biogeography, 26(4), 400-411. https://doi.org/10.1111/geb.12547
Upstream trophic structure modulates downstream community dynamics via resource subsidies
Harvey, E., Gounand, I., Little, C. J., Fronhofer, E. A., & Altermatt, F. (2017). Upstream trophic structure modulates downstream community dynamics via resource subsidies. Ecology and Evolution, 7, 5724-5731. https://doi.org/10.1002/ece3.3144
Eco-evolutionary dynamics in fragmented landscapes
Legrand, D., Cote, J., Fronhofer, E. A., Holt, R. D., Ronce, O., Schtickzelle, N., … Clobert, J. (2017). Eco-evolutionary dynamics in fragmented landscapes. Ecography, 40(1), 9-25. https://doi.org/10.1111/ecog.02537
Dynamic species classification of microorganisms across time, abiotic and biotic environments - a sliding window approach
Pennekamp, F., Griffiths, J. I., Fronhofer, E. A., Garnier, A., Seymour, M., Altermatt, F., & Petchey, O. L. (2017). Dynamic species classification of microorganisms across time, abiotic and biotic environments - a sliding window approach. PLoS One, 12(5), e0176682 (22 pp.). https://doi.org/10.1371/journal.pone.0176682
Environmental DNA reveals that rivers are conveyer belts of biodiversity information
Deiner, K., Fronhofer, E. A., Mächler, E., Walser, J. C., & Altermatt, F. (2016). Environmental DNA reveals that rivers are conveyer belts of biodiversity information. Nature Communications, 7, 12544 (9 pp.). https://doi.org/10.1038/ncomms12544
The downward spiral: eco-evolutionary feedback loops lead to the emergence of 'elastic' ranges
Kubisch, A., Winter, A. M., & Fronhofer, E. A. (2016). The downward spiral: eco-evolutionary feedback loops lead to the emergence of 'elastic' ranges. Ecography, 39(3), 261-269. https://doi.org/10.1111/ecog.01701
Big answers from small worlds: a user's guide for protist microcosms as a model system in ecology and evolution
Altermatt, F., Fronhofer, E. A., Garnier, A., Giometto, A., Hammes, F., Klecka, J., … Petchey, O. L. (2015). Big answers from small worlds: a user's guide for protist microcosms as a model system in ecology and evolution. Methods in Ecology and Evolution, 6(2), 218-231. https://doi.org/10.1111/2041-210X.12312
Landscape configuration is a major determinant of home range size variation
Bevanda, M., Fronhofer, E. A., Heurich, M., Müller, J., & Reineking, B. (2015). Landscape configuration is a major determinant of home range size variation. Ecosphere, 6(10), 1-12. https://doi.org/10.1890/ES15-00154.1
Condition-dependent movement and dispersal in experimental metacommunities
Fronhofer, E. A., Klecka, J., Melián, C. J., & Altermatt, F. (2015). Condition-dependent movement and dispersal in experimental metacommunities. Ecology Letters, 18(9), 954-963. https://doi.org/10.1111/ele.12475