| Protection and guidance of downstream moving fish with horizontal bar rack bypass systems
Meister, J., Selz, O. M., Beck, C., Peter, A., Albayrak, I., & Boes, R. M. (2022). Protection and guidance of downstream moving fish with horizontal bar rack bypass systems. Ecological Engineering, 178, 106584 (15 pp.). https://doi.org/10.1016/j.ecoleng.2022.106584 |
| Development of low-voltage electrified fish guidance racks for safe downstream fish migration
Moldenhauer-Roth, A., Selz, O. M., Albayrak, I., Unterberger, F., & Boes, R. M. (2022). Development of low-voltage electrified fish guidance racks for safe downstream fish migration. In M. Ortega-Sánchez (Ed.), IAHR world congress: Vol. 2022. Proceedings of the 39th IAHR world congress (pp. 1256-1265). https://doi.org/10.3850/IAHR-39WC25217119202292 |
| Besserer Biodiversitätsschutz in Blau-Grünen Ökosystemen. Des écosystèmes bleus-verts pour mieux protéger la biodiversité
Moor, H., Gossner, M. M., Graham, C., Hobi, M. L., Logar, I., Narwani, A., … Altermatt, F. (2022). Besserer Biodiversitätsschutz in Blau-Grünen Ökosystemen. Des écosystèmes bleus-verts pour mieux protéger la biodiversité. Nature et Paysage. Natur und Landschaft: Inside (1), 25-29. |
| The mitochondrial genome of the red icefish (<em>Channichthys rugosus</em>) casts doubt on its species status
Muschick, M., Nikolaeva, E., Rüber, L., & Matschiner, M. (2022). The mitochondrial genome of the red icefish (Channichthys rugosus) casts doubt on its species status. Polar Biology, 45, 1541-1552. https://doi.org/10.1007/s00300-022-03083-8 |
| Auswirkungen der Zirkulationsunterstützung (Beurteilung see-interner Massnahmen zur beschleunigten Sanierung des Zugersees)
Müller, B., Wüest, A., Schmid, M., Janssen, D., & Sperlich, N. (2022). Auswirkungen der Zirkulationsunterstützung (Beurteilung see-interner Massnahmen zur beschleunigten Sanierung des Zugersees). Eawag. |
| Fatty acid composition differs between emergent aquatic and terrestrial insects - a detailed single system approach
Parmar, T. P., Kindinger, A. L., Mathieu-Resuge, M., Twining, C. W., Shipley, J. R., Kainz, M. J., & Martin-Creuzburg, D. (2022). Fatty acid composition differs between emergent aquatic and terrestrial insects - a detailed single system approach. Frontiers in Ecology and Evolution, 10, 952292 (13 pp.). https://doi.org/10.3389/fevo.2022.952292 |
| Stability of drugs stored in helicopters for use by emergency medical services: a prospective observational study
Pietsch, U., Moeckel, J., Koppenberg, J., Josi, D., Jungwirth, A., Hautz, W. E., … Albrecht, R. (2022). Stability of drugs stored in helicopters for use by emergency medical services: a prospective observational study. Annals of emergency medicine, 80(4), 364-370. https://doi.org/10.1016/j.annemergmed.2022.05.038 |
| Avalanche survival depends on the time of day of the accident: a retrospective observational study
Rauch, S., Koppenberg, J., Josi, D., Meuli, L., Strapazzon, G., Pasquier, M., … Pietsch, U. (2022). Avalanche survival depends on the time of day of the accident: a retrospective observational study. Resuscitation, 174, 47-52. https://doi.org/10.1016/j.resuscitation.2022.03.023 |
| Patterns and drivers of <em>Nothobranchius </em>killifish diversity in lowland Tanzania
Reichard, M., Janáč, M., Blažek, R., Žák, J., Alila, O. D., & Polačik, M. (2022). Patterns and drivers of Nothobranchius killifish diversity in lowland Tanzania. Ecology and Evolution, 12(6), e8990 (12 pp.). https://doi.org/10.1002/ece3.8990 |
| Strong selection and high mutation supply characterize experimental<em> Chlorovirus </em>evolution
Retel, C., Kowallik, V., Becks, L., & Feulner, P. G. D. (2022). Strong selection and high mutation supply characterize experimental Chlorovirus evolution. Virus Evolution, 8(1), veac003 (14 pp.). https://doi.org/10.1093/ve/veac003 |
| The genetic population structure of Lake Tanganyika's Lates species flock, an endemic radiation of pelagic top predators
Rick, J. A., Junker, J., Kimirei, I. A., Sweke, E. A., Mosille, J. B., Dinkel, C., … Wagner, C. E. (2022). The genetic population structure of Lake Tanganyika's Lates species flock, an endemic radiation of pelagic top predators. Journal of Heredity, 113(2), 145-159. https://doi.org/10.1093/jhered/esab072 |
| Towards a system-level causative knowledge of pollinator communities
Saavedra, S., Bartomeus, I., Godoy, O., Rohr, R. P., & Zu, P. (2022). Towards a system-level causative knowledge of pollinator communities. Philosophical Transactions of the Royal Society B: Biological Sciences, 377(1853), 20210159 (7 pp.). https://doi.org/10.1098/rstb.2021.0159 |
| Umwelteinflüsse auf häufige Fischgattungen. Auswertung von Fisch-Monitoring-Programmen
Schuwirth, N., Brodersen, J., Caradima, B., & Scheidegger, A. (2022). Umwelteinflüsse auf häufige Fischgattungen. Auswertung von Fisch-Monitoring-Programmen. Aqua & Gas, 102(6), 66-71. |
| Einfluss von Umwelt-Faktoren auf Fischartengemeinschaften. Projet Lac
Seehausen, O., Alexander, T., Vonlanthen, P., & Egloff, N. (2022). Einfluss von Umwelt-Faktoren auf Fischartengemeinschaften. Projet Lac. Aqua & Gas, 102(7-8), 72-79. |
| Unerwartete Artenvielfalt in Seen des Alpenraums. Project Lac
Seehausen, O., Alexander, T., Egloff, N., & Vonlanthen, P. (2022). Unerwartete Artenvielfalt in Seen des Alpenraums. Project Lac. Aqua & Gas, 102(7-8), 64-71. |
| Selection counteracts developmental plasticity in body-size responses to climate change
Shipley, J. R., Twining, C. W., Taff, C. C., Vitousek, M. N., & Winkler, D. W. (2022). Selection counteracts developmental plasticity in body-size responses to climate change. Nature Climate Change, 12, 863-868. https://doi.org/10.1038/s41558-022-01457-8 |
| The importance of alternative splicing in adaptive evolution
Singh, P., & Pashay Ahi, E. (2022). The importance of alternative splicing in adaptive evolution. Molecular Ecology, 31(7), 1928-1938. https://doi.org/10.1111/mec.16377 |
| Predator cannibalism can shift prey community composition toward dominance by small prey species
Takatsu, K. (2022). Predator cannibalism can shift prey community composition toward dominance by small prey species. Ecology and Evolution, 12(5), e8894 (11 pp.). https://doi.org/10.1002/ece3.8894 |
| Temperature regime during embryogenesis alters subsequent behavioural phenotypes of juvenile brown trout
Takatsu, K., Selz, O. M., & Brodersen, J. (2022). Temperature regime during embryogenesis alters subsequent behavioural phenotypes of juvenile brown trout. Biology Letters, 18(11), 20220369 (7 pp.). https://doi.org/10.1098/rsbl.2022.0369 |
| Using motifs in ecological networks to identify the role of plants in crop margins for multiple agriculture functions
Tavella, J., Windsor, F. M., Rother, D. C., Evans, D. M., Guimarães, P. R., Palacios, T. P., … Devoto, M. (2022). Using motifs in ecological networks to identify the role of plants in crop margins for multiple agriculture functions. Agriculture, Ecosystems and Environment, 331, 107912 (4 pp.). https://doi.org/10.1016/j.agee.2022.107912 |