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The role of holiday styles in shaping the carbon footprint of leisure travel within the European Union
Laroche, P. C. S. J., Schulp, C. J. E., Kastner, T., & Verburg, P. H. (2023). The role of holiday styles in shaping the carbon footprint of leisure travel within the European Union. Tourism Management, 94, 104630 (14 pp.). https://doi.org/10.1016/j.tourman.2022.104630
Probabilistic prediction of rock avalanche runout using a numerical model
Aaron, J., McDougall, S., Kowalski, J., Mitchell, A., & Nolde, N. (2022). Probabilistic prediction of rock avalanche runout using a numerical model. Landslides. https://doi.org/10.1007/s10346-022-01939-y
Does habitat heterogeneity influence taxonomic richness and abundance? A case study from a terrestrial protected area in Abu Dhabi, United Arab Emirates
Ahmed, S., Soorae, P. S., Hammadi, E. A., Zaabi, R. A., Saji, A., Khan, S. B., … Dhaheri, S. A. (2022). Does habitat heterogeneity influence taxonomic richness and abundance? A case study from a terrestrial protected area in Abu Dhabi, United Arab Emirates. Saudi Journal of Biological Sciences, 29(3), 1737-1746. https://doi.org/10.1016/j.sjbs.2021.10.056
Non-native forest tree species in Europe: the question of seed origin in afforestation
Alizoti, P., Bastien, J. C., Chakraborty, D., Klisz, M. M., Kroon, J., Neophytou, C., … Tsvetkov, I. (2022). Non-native forest tree species in Europe: the question of seed origin in afforestation. Forests, 13(2), 273 (22 pp.). https://doi.org/10.3390/f13020273
Pionierbaumarten: zerstreut und zunehmend selten im Mittelland
Allgaier Leuch, B., & Cioldi, F. (2022). Pionierbaumarten: zerstreut und zunehmend selten im Mittelland. Zürcher Wald, 54(2), 16-18.
Negative relationship between woody species density and size of urban green spaces in seven European cities
Alós Ortí, M., Casanelles-Abella, J., Chiron, F., Deguines, N., Hallikma, T., Jaksi, P., … Laanisto, L. (2022). Negative relationship between woody species density and size of urban green spaces in seven European cities. Urban Forestry and Urban Greening, 74, 127650 (9 pp.). https://doi.org/10.1016/j.ufug.2022.127650
Growth and wood trait relationships of <em>Alnus glutinosa</em> in peatland forest stands with contrasting water regimes
Anadon-Rosell, A., Scharnweber, T., von Arx, G., Peters, R. L., Smiljanić, M., Weddell, S., & Wilmking, M. (2022). Growth and wood trait relationships of Alnus glutinosa in peatland forest stands with contrasting water regimes. Frontiers in Plant Science, 12, 788106 (14 pp.). https://doi.org/10.3389/fpls.2021.788106
Joint effects of climate, tree size, and year on annual tree growth derived from tree‐ring records of ten globally distributed forests
Anderson‐Teixeira, K. J., Herrmann, V., Rollinson, C. R., Gonzalez, B., Gonzalez‐Akre, E. B., Pederson, N., … Zuidema, P. A. (2022). Joint effects of climate, tree size, and year on annual tree growth derived from tree‐ring records of ten globally distributed forests. Global Change Biology, 28(1), 245-266. https://doi.org/10.1111/gcb.15934
Earthquakes: from Twitter detection to EO data processing
Andreadis, S., Gialampoukidis, I., Manconi, A., Cordeiro, D., Conde, V., Sagona, M., … Kompatsiaris, I. (2022). Earthquakes: from Twitter detection to EO data processing. IEEE Geoscience and Remote Sensing Letters, 19, 3511005 (5 pp.). https://doi.org/10.1109/LGRS.2022.3149541
Limits and strengths of tree-ring stable isotopes
Andreu-Hayles, L., Lévesque, M., Guerrieri, R., Siegwolf, R. T. W., & Körner, C. (2022). Limits and strengths of tree-ring stable isotopes. In R. T. W. Siegwolf, R. J. Brooks, J. Roden, & M. Saurer (Eds.), Tree physiology: Vol. 8. Stable isotopes in tree rings. Inferring physiological, climatic and environmental responses (pp. 399-428). https://doi.org/10.1007/978-3-030-92698-4_14
Forest tree growth is linked to mycorrhizal fungal composition and function across Europe
Anthony, M. A., Crowther, T. W., van der Linde, S., Suz, L. M., Bidartondo, M. I., Cox, F., … Averill, C. (2022). Forest tree growth is linked to mycorrhizal fungal composition and function across Europe. ISME Journal, 16, 1327-1336. https://doi.org/10.1038/s41396-021-01159-7
Hydrological drivers of bedload transport in an Alpine watershed
Antoniazza, G., Nicollier, T., Boss, S., Mettra, F., Badoux, A., Schaefli, B., … Lane, S. N. (2022). Hydrological drivers of bedload transport in an Alpine watershed. Water Resources Research, 58(3), e2021WR030663 (27 pp.). https://doi.org/10.1029/2021WR030663
Socioeconomic outcomes of agricultural land use change in Southeast Asia
Appelt, J. L., Garcia Rojas, D. C., Verburg, P. H., & van Vliet, J. (2022). Socioeconomic outcomes of agricultural land use change in Southeast Asia. Ambio, 51, 1094-1109. https://doi.org/10.1007/s13280-022-01712-4
Divergent responses of functional diversity to an elevational gradient for vascular plants, bryophytes and lichens
Asplund, J., van Zuijlen, K., Roos, R. E., Birkemoe, T., Klanderud, K., Lang, S. I., & Wardle, D. A. (2022). Divergent responses of functional diversity to an elevational gradient for vascular plants, bryophytes and lichens. Journal of Vegetation Science, 33(1), e13105 (9 pp.). https://doi.org/10.1111/jvs.13105
A functional vulnerability framework for biodiversity conservation
Auber, A., Waldock, C., Maire, A., Goberville, E., Albouy, C., Algar, A. C., … Mouillot, D. (2022). A functional vulnerability framework for biodiversity conservation. Nature Communications, 13, 4774 (13 pp.). https://doi.org/10.1038/s41467-022-32331-y
<em>Kernoviae</em>-Buchensterben. <em>Phytophthora kernoviae</em> Brasier &amp; S.A. Kirk (Familie: Peronosporaceae)
Auf der Maur, B., Queloz, V., Prospero, S., & Gross, A. (2022). Kernoviae-Buchensterben. Phytophthora kernoviae Brasier & S.A. Kirk (Familie: Peronosporaceae). Factsheet Neomyceten. Birmensdorf: Eidg. Forschungsanstalt WSL.
Asiatischer Eschenmehltau. <em>Erysiphe salmonii</em> (Syd. &amp; P. Syd.) U. Braun &amp; S. Takam (Familie: Erysiphaceae)
Auf der Maur, B., Beenken, L., & Gross, A. (2022). Asiatischer Eschenmehltau. Erysiphe salmonii (Syd. & P. Syd.) U. Braun & S. Takam (Familie: Erysiphaceae). Factsheet Neomyceten. Birmensdorf: Eidg. Forschungsanstalt WSL.
Blattrost der Erle. <em>Melampsoridium hiratsukanum</em> S. Ito ex Hirats. f. (Familie: Pucciniastraceae)
Auf der Maur, B., Beenken, L., & Gross, A. (2022). Blattrost der Erle. Melampsoridium hiratsukanum S. Ito ex Hirats. f. (Familie: Pucciniastraceae). Factsheet Neomyceten. Birmensdorf: Eidg. Forschungsanstalt WSL.
Champignon à pores d'orange. <em>Favolaschia calocera</em> R. Heim (Famille: Mycenaceae)
Auf der Maur, B., Brännhage, J., Blaser, S., & Gross, A. (2022). Champignon à pores d'orange. Favolaschia calocera R. Heim (Famille: Mycenaceae). Fiche d’information Néomycètes. Birmensdorf: Institut fédéral de recherches WSL.
Chitridiomicosi di urodeli. <em>Batrachochytrium salamandrivorans A</em>. Martel, Blooi, Bossuyt &amp; Pasmans (famiglia: Incertae sedis)
Auf der Maur, B., Brännhage, J., Gross, A., & Schmidt, B. (2022). Chitridiomicosi di urodeli. Batrachochytrium salamandrivorans A. Martel, Blooi, Bossuyt & Pasmans (famiglia: Incertae sedis). Factsheet Neomyceten. Birmensdorf: Istituto federale di ricerca WSL.
 

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