| Species richness is more important for ecosystem functioning than species turnover along an elevational gradient
Albrecht, J., Peters, M. K., Becker, J. N., Behler, C., Classen, A., Ensslin, A., … Schleuning, M. (2021). Species richness is more important for ecosystem functioning than species turnover along an elevational gradient. Nature Ecology & Evolution, 5, 1582-1593. https://doi.org/10.1038/s41559-021-01550-9 |
| Population genetics and biogeography of the lungwort lichen in North America support distinct Eastern and Western gene pools
Allen, J. L., McMullin, R. T., Wiersma, Y. F., & Scheidegger, C. (2021). Population genetics and biogeography of the lungwort lichen in North America support distinct Eastern and Western gene pools. American Journal of Botany, 108(12), 2416-2424. https://doi.org/10.1002/ajb2.1774 |
| Functional diversity in ferns is driven by species richness rather than by environmental constraints
Aros-Mualin, D., Noben, S., Karger, D. N., Carvajal-Hernández, C. I., Salazar, L., Hernández-Rojas, A., … Kessler, M. (2021). Functional diversity in ferns is driven by species richness rather than by environmental constraints. Frontiers in Plant Science, 11, 615723 (11 pp.). https://doi.org/10.3389/fpls.2020.615723 |
| Habitat specialization controls ectomycorrhizal fungi above the treeline in the European Alps
Arraiano-Castilho, R., Bidartondo, M. I., Niskanen, T., Clarkson, J. J., Brunner, I., Zimmermann, S., … Suz, L. M. (2021). Habitat specialization controls ectomycorrhizal fungi above the treeline in the European Alps. New Phytologist, 229(5), 2901-2916. https://doi.org/10.1111/nph.17033 |
| Asiatischer Haselmehltau. <em>Erysiphe corylacearum</em> (U. Braun & S. Takam) (Familie: Erysiphaceae)
Auf der Maur, B., Beenken, L., & Gross, A. (2021). Asiatischer Haselmehltau. Erysiphe corylacearum (U. Braun & S. Takam) (Familie: Erysiphaceae). Factsheet Neomyceten. Birmensdorf: Eidg. Forschungsanstalt WSL. |
| Chytridiomycose des urodèles. <em>Batrachochytrium salamandrivorans A.</em> Martel, Blooi, Bossuyt &amp; Pasmans (famille: Incertae sedis)
Auf der Maur, B., Brännhage, J., Schmidt, B., & Gross, A. (2021). Chytridiomycose des urodèles. Batrachochytrium salamandrivorans A. Martel, Blooi, Bossuyt & Pasmans (famille: Incertae sedis). Factsheet néomycètes. Birmensdorf: Institut fédéral de recherches WSL. |
| Dépérissement de l’aulne. <em>Phytophthora ×alni </em>(Brasier & S.A. Kirk) Husson, Ioos & Marçais (Famille: Peronosporaceae).<br /><em>Phytophthora ×multiformis</em> (Brasier & S.A. Kirk) Husson, Ioos & Frey (Famille: Peronosporaceae). <e
Auf der Maur, B., Brännhage, J., Gross, A., & Prospero, S. (2021). Dépérissement de l’aulne. Phytophthora ×alni (Brasier & S.A. Kirk) Husson, Ioos & Marçais (Famille: Peronosporaceae). Phytophthora ×multiformis (Brasier & S.A. Kirk) Husson, Ioos & Frey (Famille: Peronosporaceae). Phytophthora uniformis (Brasier & S.A. Kirk) Husson, Ioos & Aguayo (Famille: Peronosporaceae). Factsheet néomycètes. Birmensdorf: Institut fédéral de recherches WSL. |
| Orangeroter Porenhelmling.<em> Favolaschia calocera</em> R. Heim (Familie: Mycenaceae)
Auf der Maur, B., Brännhage, J., Blaser, S., & Gross, A. (2021). Orangeroter Porenhelmling. Favolaschia calocera R. Heim (Familie: Mycenaceae). Factsheet Neomyceten. Birmensdorf: Eidg. Forschungsanstalt WSL. |
| Parfümierter Trichterling. <em>Paralepistopsis amoenolens</em> (Malençon) Vizzini (Familie: Tricholomataceae)
Auf der Maur, B., Brännhage, J., Gross, A., & Schenk-Jäger, K. (2021). Parfümierter Trichterling. Paralepistopsis amoenolens (Malençon) Vizzini (Familie: Tricholomataceae). Factsheet Neomyceten. Birmensdorf: Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL. |
| Plötzlicher Eichentod. <em>Phytophthora ramorum</em> Werres, De Cock & Man in 't Veld (Familie: Peronosporaceae)
Auf der Maur, B., Brännhage, J., Prospero, S., & Gross, A. (2021). Plötzlicher Eichentod. Phytophthora ramorum Werres, De Cock & Man in 't Veld (Familie: Peronosporaceae). Factsheet Neomyceten. Birmensdorf: Eidg. Forschungsanstalt WSL. |
| Russrindenkrankheit. <em>Cryptostroma corticale</em> (Ellis & Everh.) P.H. Greg. & S. Waller (Familie: Incertae sedis)
Auf der Maur, B., Brännhage, J., Queloz, V., & Gross, A. (2021). Russrindenkrankheit. Cryptostroma corticale (Ellis & Everh.) P.H. Greg. & S. Waller (Familie: Incertae sedis). Factsheet Neomyceten. Birmensdorf: Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL. |
| Wurzelhalsfäule der Erle. <em>Phytophthora ×alni</em> (Brasier &amp; S.A. Kirk) Husson, Ioos &amp; Marçais (Familie: Peronosporaceae). <em>Phytophthora ×multiformis</em> (Brasier &amp; S.A. Kirk) Husson, Ioos &amp;
Auf der Maur, B., Brännhage, J., Gross, A., & Prospero, S. (2021). Wurzelhalsfäule der Erle. Phytophthora ×alni (Brasier & S.A. Kirk) Husson, Ioos & Marçais (Familie: Peronosporaceae). Phytophthora ×multiformis (Brasier & S.A. Kirk) Husson, Ioos & Frey (Familie: Peronosporaceae). Phytophthora uniformis (Brasier & S.A. Kirk) Husson, Ioos & Aguayo (Familie: Peronosporaceae). Factsheet Neomyceten. Birmensdorf: Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL. |
| Neophyte invasions in European grasslands
Axmanová, I., Kalusová, V., Danihelka, J., Dengler, J., Pergl, J., Pyšek, P., … Chytrý, M. (2021). Neophyte invasions in European grasslands. Journal of Vegetation Science, 32(2), e12994 (17 pp.). https://doi.org/10.1111/jvs.12994 |
| Dispersal ability, trophic position and body size mediate species turnover processes: insights from a multi-taxa and multi-scale approach
Bae, S., Heidrich, L., Levick, S. R., Gossner, M. M., Seibold, S., Weisser, W. W., … Müller, J. (2021). Dispersal ability, trophic position and body size mediate species turnover processes: insights from a multi-taxa and multi-scale approach. Diversity and Distributions, 27, 439-453. https://doi.org/10.1111/ddi.13204 |
| Area, isolation and climate explain the diversity of mammals on islands worldwide
Barreto, E., Rangel, T. F., Pellissier, L., & Graham, C. H. (2021). Area, isolation and climate explain the diversity of mammals on islands worldwide. Proceedings of the Royal Society B: Biological Sciences, 288(1965), 20211879 (10 pp.). https://doi.org/10.1098/rspb.2021.1879 |
| Spatial variation in direct and indirect effects of climate and productivity on species richness of terrestrial tetrapods
Barreto, E., Rangel, T. F., Coelho, M. T. P., Cassemiro, F. A. S., Zimmermann, N. E., & Graham, C. H. (2021). Spatial variation in direct and indirect effects of climate and productivity on species richness of terrestrial tetrapods. Global Ecology and Biogeography, 30(9), 1899-1908. https://doi.org/10.1111/geb.13357 |
| Environmental niche and functional role similarity between invasive and native palms in the Atlantic Forest
Bello, C., Cintra, A. L. P., Barreto, E., Vancine, M. H., Sobral-Souza, T., Graham, C. H., & Galetti, M. (2021). Environmental niche and functional role similarity between invasive and native palms in the Atlantic Forest. Biological Invasions, 23, 741-754. https://doi.org/10.1007/s10530-020-02400-8 |
| The footprint of evolution in seed dispersal interactions. The evolutionary stability of fruit-eating birds is linked to their role in dispersing seeds
Bello, C., & Barreto, E. (2021). The footprint of evolution in seed dispersal interactions. The evolutionary stability of fruit-eating birds is linked to their role in dispersing seeds. Science, 372(6543), 682-683. https://doi.org/10.1126/science.abi8160 |
| Valuing the economic impacts of seed dispersal loss on voluntary carbon markets
Bello, C., Culot, L., Ruiz Agudelo, C. A., & Galetti, M. (2021). Valuing the economic impacts of seed dispersal loss on voluntary carbon markets. Ecosystem Services, 52, 101362 (8 pp.). https://doi.org/10.1016/j.ecoser.2021.101362 |
| The GenTree leaf collection: inter‐ and intraspecific leaf variation in seven forest tree species in Europe
Benavides, R., Carvalho, B., Bastias, C. C., López‐Quiroga, D., Mas, A., Cavers, S., … Valladares, F. (2021). The GenTree leaf collection: inter‐ and intraspecific leaf variation in seven forest tree species in Europe. Global Ecology and Biogeography, 30(3), 590-597. https://doi.org/10.1111/geb.13239 |