Active Filters

  • (-) … = eawag-units:25
  • (-) Organizational Unit ≠ Environmental Social Sciences ESS
  • (-) Eawag Authors ≠ Maan, Martine E.
  • (-) Journal ≠ Journal of Evolutionary Biology
  • (-) Full Text ≠ Open Access
Search Results 1 - 20 of 217

Pages

  • CSV Spreadsheet
  • Excel Spreadsheet
  • RSS Feed
Select Page
Comparison of abundance and diversity of small mammals between the Wooded Grassland and Primary Forest in Pande Game Reserve, Tanzania
Alila, D. O. (2020). Comparison of abundance and diversity of small mammals between the Wooded Grassland and Primary Forest in Pande Game Reserve, Tanzania. Tanzania Journal of Science and Technology, 3(1), 17-28.
A meeting framework for inclusive and sustainable science
Blackman, R. C., Bruder, A., Burdon, F. J., Convey, P., Funk, W. C., Jähnig, S. C., Kishe, M. A., Moretti, M. S., Natugonza, V., Pawlowski, J., Stubbington, R., Zhang, X., Seehausen, O., & Altermatt, F. (2020). A meeting framework for inclusive and sustainable science. Nature Ecology & Evolution, 4, 668-671. https://doi.org/10.1038/s41559-020-1190-x
Positive associations among rare species and their persistence in ecological assemblages
Calatayud, J., Andivia, E., Escudero, A., Melián, C. J., Bernardo-Madrid, R., Stoffel, M., Aponte, C., Medina, N. G., Molina-Venegas, R., Arnan, X., Rosvall, M., Neuman, M., Noriega, J. A., Alves-Martins, F., Draper, I., Luzuriaga, A., Ballesteros-Cánovas, J. A., Morales-Molino, C., Ferrandis, P., … Madrigal-González, J. (2020). Positive associations among rare species and their persistence in ecological assemblages. Nature Ecology & Evolution, 4(1), 40-45. https://doi.org/10.1038/s41559-019-1053-5
Seeing the rainbow: mechanisms underlying spectral sensitivity in teleost fishes
Carleton, K. L., Escobar-Camacho, D., Stieb, S. M., Cortesi, F., & Marshall, N. J. (2020). Seeing the rainbow: mechanisms underlying spectral sensitivity in teleost fishes. Journal of Experimental Biology, 223(8), jeb193334 (17 pp.). https://doi.org/10.1242/jeb.193334
Comparing adaptive radiations across space, time, and taxa
Gillespie, R. G., Bennett, G. M., De Meester, L., Feder, J. L., Fleischer, R. C., Harmon, L. J., Hendry, A. P., Knope, M. L., Mallet, J., Martin, C., Parent, C. E., Patton, A. H., Pfennig, K. S., Rubinoff, D., Schluter, D., Seehausen, O., Shaw, K. L., Stacy, E., Stervander, M., … Wogan, G. O. U. (2020). Comparing adaptive radiations across space, time, and taxa. Journal of Heredity, 111(1), 1-20. https://doi.org/10.1093/jhered/esz064
Ecological consequences of animal migration: prey partial migration affects predator ecology and prey communities
Hansen, J. H., Skov, C., Baktoft, H., Brönmark, C., Chapman, B. B., Hulthén, K., Hansson, L. A., Nilsson, P. A., & Brodersen, J. (2020). Ecological consequences of animal migration: prey partial migration affects predator ecology and prey communities. Ecosystems, 23, 292-306. https://doi.org/10.1007/s10021-019-00402-9
Structural genomic variation leads to genetic differentiation in Lake Tanganyika's sardines
Junker, J., Rick, J. A., McIntyre, P. B., Kimirei, I., Sweke, E. A., Mosille, J. B., Wehrli, B., Dinkel, C., Mwaiko, S., Seehausen, O., & Wagner, C. E. (2020). Structural genomic variation leads to genetic differentiation in Lake Tanganyika's sardines. Molecular Ecology (22 pp.). https://doi.org/10.1111/mec.15559
The ecological and genomic basis of explosive adaptive radiation
McGee, M. D., Borstein, S. R., Meier, J. I., Marques, D. A., Mwaiko, S., Taabu, A., Kishe, M. A., O'Meara, B., Bruggmann, R., Excoffier, L., & Seehausen, O. (2020). The ecological and genomic basis of explosive adaptive radiation. Nature. https://doi.org/10.1038/s41586-020-2652-7
Adaptive zones shape the magnitude of premating reproductive isolation in <em>Timema </em>stick insects
Muschick, M., Soria-Carrasco, V., Feder, J. L., Gompert, Z., & Nosil, P. (2020). Adaptive zones shape the magnitude of premating reproductive isolation in Timema stick insects. Philosophical Transactions of the Royal Society B: Biological Sciences, 375(1806), 20190541 (10 pp.). https://doi.org/10.1098/rstb.2019.0541
A field evaluation of long-term effects of PIT tagging
Skov, C., Hansen, J. H., Baktoft, H., Brönmark, C., Brodersen, J., Chapman, B. B., Hansson, L. A., Hulthén, K., & Nilsson, P. A. (2020). A field evaluation of long-term effects of PIT tagging. Journal of Fish Biology, 96, 1055-1059. https://doi.org/10.1111/jfb.14292
Enhanced recruitment of larger predators in the presence of large prey
Takatsu, K., & Kishida, O. (2020). Enhanced recruitment of larger predators in the presence of large prey. Journal of Animal Ecology, 89(7), 1615-1627. https://doi.org/10.1111/1365-2656.13210
Large-scale mutation in the evolution of a gene complex for cryptic coloration
Villoutreix, R., de Carvalho, C. F., Soria-Carrasco, V., Lindtke, D., De-la-Mora, M., Muschick, M., Feder, J. L., Parchman, T. L., Gompert, Z., & Nosil, P. (2020). Large-scale mutation in the evolution of a gene complex for cryptic coloration. Science, 369(6502), 460-466.
Partial nomadism in large‐bodied bream (<em>Abramis brama</em>)
Brodersen, J., Hansen, J. H., & Skov, C. (2019). Partial nomadism in large‐bodied bream (Abramis brama). Ecology of Freshwater Fish, 28(4), 650-660. https://doi.org/10.1111/eff.12483
Signatures of microevolutionary processes in phylogenetic patterns
Costa, C. L. N., Lemos-Costa, P., Marquitti, F. M. D., Fernandes, L. D., Ramos, M. F., Schneider, D. M., Martins, A. B., & de Aguiar, M. A. M. (2019). Signatures of microevolutionary processes in phylogenetic patterns. Systematic Biology, 68(1), 131-144. https://doi.org/10.1093/sysbio/syy049
Molecular phylogeny of <em>Oreochromis </em>(Cichlidae: Oreochromini) reveals mito-nuclear discordance and multiple colonisation of adverse aquatic environments
Day, J. J., Ford, A. G. P., Bullen, T. R., Pang, L., Genner, M. J., Bills, R., Flouri, T., Ngatunga, B. P., Rüber, L., Schliewen, U. K., Seehausen, O., Shechonge, A., Stiassny, M. L. J., & Turner, G. F. (2019). Molecular phylogeny of Oreochromis (Cichlidae: Oreochromini) reveals mito-nuclear discordance and multiple colonisation of adverse aquatic environments. Molecular Phylogenetics and Evolution, 136, 215-226. https://doi.org/10.1016/j.ympev.2019.04.008
Heritable morphological differentiation in salmonids from two distinct stream types
Dermond, P., Sperlich, N., & Brodersen, J. (2019). Heritable morphological differentiation in salmonids from two distinct stream types. Journal of Fish Biology, 95(5), 1215-1222. https://doi.org/10.1111/jfb.14121
Kleine Fliessgewässer. Ökologische Funktion und Bedeutung für Fische
Dermond, P., & Schmid, C. (2019). Kleine Fliessgewässer. Ökologische Funktion und Bedeutung für Fische. Kastanienbaum: Schweizerische Fischereiberatungsstelle FIBER.
Petits cours d'eau. Rôle écologique et importance pour les poissons
Dermond, P., & Schmid, C. (2019). Petits cours d'eau. Rôle écologique et importance pour les poissons. Kastanienbaum: Bureau suisse de conseil pour la pêche FIBER.
Todesurteil oder neue Chance? Vom Haken zurück ins Wasser
Dermond, P., & Schmid, C. (2019). Todesurteil oder neue Chance? Vom Haken zurück ins Wasser. Petri-Heil (3), 34-37.
Species integrity and origin of <i>Oreochromis hunteri</i> (Pisces: Cichlidae), endemic to crater Lake Chala (Kenya–Tanzania)
Dieleman, J., Muschick, M., Nyingi, W. D., & Verschuren, D. (2019). Species integrity and origin of Oreochromis hunteri (Pisces: Cichlidae), endemic to crater Lake Chala (Kenya–Tanzania). Hydrobiologia, 832(1), 269-282. https://doi.org/10.1007/s10750-018-3570-7
 

Pages