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Leistungen und Werte des Waldes
Olschewski, R. (2022). Leistungen und Werte des Waldes. In C. Ferrer, T. Hildebrand, & C. Martinez-Cañavate (Eds.), Touchwood. Material, Architektur, Zukunft (pp. 48-53). Lars Müller Publishers.
Calculation of optimal length for skyline
Rudko, I., Bakay, B., Bont, L. G., Romasevych, Y., & Horzov, S. (2022). Calculation of optimal length for skyline. Bulletin of the Transilvania University of Braşov. Series II: Forestry • Wood Industry • Agricultural Food Engineering, 15(64), 1-12. https://doi.org/10.31926/but.fwiafe.2022.15.64.1.6
Die Grenzen des Wachstums werden konkret
Seidl, I., & Zahrnt, A. (2022). Die Grenzen des Wachstums werden konkret. Ökologisches Wirtschaften, 37(2), 18-19. https://doi.org/10.14512/OEW370218
SEILAPLAN, a QGIS plugin for cable road layout design
Bont, L. G., Moll, P. E., Ramstein, L., Frutig, F., Heinimann, H. R., & Schweier, J. (2022). SEILAPLAN, a QGIS plugin for cable road layout design. Croatian Journal of Forest Engineering, 43(2), 241-255. https://doi.org/10.5552/crojfe.2022.1824
«Bio muss aufpassen, nicht vom Wachstum abhängig zu werden»
Seidl, I. (2022). «Bio muss aufpassen, nicht vom Wachstum abhängig zu werden». Bio aktuell: das Magazin der Biobewegung (4), 22-23.
Impact of the "Flavescence Dorée" phytoplasma on xylem growth and anatomical characteristics in trunks of 'Chardonnay' Grapevines (<em>Vitis vinifera</em>)
Rizzoli, A., Jelmini, L., Pezzatti, G. B., Jermini, M., Schumpp, O., Debonneville, C., … Conedera, M. (2022). Impact of the "Flavescence Dorée" phytoplasma on xylem growth and anatomical characteristics in trunks of 'Chardonnay' Grapevines (Vitis vinifera). Biology, 11(7), 978 (14 pp.). https://doi.org/10.3390/biology11070978
Climate signals in stable isotope tree-ring records
Gagen, M., Battipaglia, G., Daux, V., Duffy, J., Dorado-Liñán, I., Andreu Hayles, L., … Treydte, K. (2021). Climate signals in stable isotope tree-ring records. In R. T. W. Siegwolf, J. R. Brooks, J. Roden, & M. Saurer (Eds.), Tree Physiology: Vol. 8. Stable isotopes in tree rings. Inferring physiological, climatic and environmental responses (pp. 537-579). https://doi.org/10.1007/978-3-030-92698-4_19
Carbon storage and sequestration rates of trees inside and outside forests in Great Britain
Zellweger, F., Flack-Prain, S., Footring, J., Wilebore, B., & Willis, K. J. (2022). Carbon storage and sequestration rates of trees inside and outside forests in Great Britain. Environmental Research Letters, 17(7), 074004 (12 pp.). https://doi.org/10.1088/1748-9326/ac74d5
Schweizerische Bibliographie zur Kastanienwaldforschung 1950-1966
Strub, W. (1968). Schweizerische Bibliographie zur Kastanienwaldforschung 1950-1966. Vierteljahrsschrift der Naturforschenden Gesellschaft in Zürich, 113(1), 23-27.
Tree migration in the dynamic, global vegetation model LPJ-GM 1.1: efficient uncertainty assessment and improved dispersal kernels of European trees
Zani, D., Lehsten, V., & Lischke, H. (2022). Tree migration in the dynamic, global vegetation model LPJ-GM 1.1: efficient uncertainty assessment and improved dispersal kernels of European trees. Geoscientific Model Development, 15(12), 4913-4940. https://doi.org/10.5194/gmd-15-4913-2022
Vom „Durben-Mandat“ zum Meliorationsprogramm. Torfnutzung in der Schweiz, 1700–19451
Stuber, M., & Bürgi, M. (2022). Vom „Durben-Mandat“ zum Meliorationsprogramm. Torfnutzung in der Schweiz, 1700–19451. In W. Konold, W. Werner, & R. J. Regnath (Eds.), Veröffentlichung des Alemannischen Instituts Freiburg i. Br.: Vol. 89. Kohle – Öl – Torf. Zur Geschichte der Nutzung fossiler Energieträger (pp. 265-283). Jan Thorbecke Verlag.
Estimating forest above-ground biomass with terrestrial laser scanning: current status and future directions
Demol, M., Verbeeck, H., Gielen, B., Armston, J., Burt, A., Disney, M., … Calders, K. (2022). Estimating forest above-ground biomass with terrestrial laser scanning: current status and future directions. Methods in Ecology and Evolution. https://doi.org/10.1111/2041-210X.13906
Resprouting in European beech confers resilience to high-frequency fire
Moris, J. V., Berretti, R., Bono, A., Sino, R., Minotta, G., Garbarino, M., … Ascoli, D. (2022). Resprouting in European beech confers resilience to high-frequency fire. Forestry. https://doi.org/10.1093/forestry/cpac018
Increasing water-use efficiency mediates effects of atmospheric carbon, sulfur, and nitrogen on growth variability of central European conifers
Treml, V., Tumajer, J., Jandová, K., Oulehle, F., Rydval, M., Čada, V., … Svoboda, M. (2022). Increasing water-use efficiency mediates effects of atmospheric carbon, sulfur, and nitrogen on growth variability of central European conifers. Science of the Total Environment, 838, 156483 (11 pp.). https://doi.org/10.1016/j.scitotenv.2022.156483
Considering snow depositions and transport mechanisms in meteorological analysis of predicting snow loads on buildings
Zhang, B., Zhang, Q., Mo, H., Fan, F., & Lehning, M. (2022). Considering snow depositions and transport mechanisms in meteorological analysis of predicting snow loads on buildings. Cold Regions Science and Technology, 201, 103614 (14 pp.). https://doi.org/10.1016/j.coldregions.2022.103614
Pitfalls to avoid in nonlinear perturbation analysis of structured population models
McElderry, R. M., & Gaoue, O. G. (2022). Pitfalls to avoid in nonlinear perturbation analysis of structured population models. Population Ecology. https://doi.org/10.1002/1438-390X.12132
Biotic responses to climate extremes in terrestrial ecosystems
Thakur, M. P., Risch, A. C., & van der Putten, W. H. (2022). Biotic responses to climate extremes in terrestrial ecosystems. iScience, 25(7), 104559 (22 pp.). https://doi.org/10.1016/j.isci.2022.104559
Strategy and implementation plan 2016-2020 for the Global Terrestrial Network for Permafrost (GTN-P)
Streletskiy, D., Biskaborn, B., Smith, S., Noetzli, J., Viera, G., & Schoeneich, P. (2017). Strategy and implementation plan 2016-2020 for the Global Terrestrial Network for Permafrost (GTN-P). The George Washington University.
Swiss Permafrost Bulletin 2018/2019
Pellet, C., & Noetzli, J. (2020). Swiss Permafrost Bulletin 2018/2019. Swiss Permafrost Monitoring Network (PERMOS). https://doi.org/10.13093/permos-bull-2020
Swiss Permafrost bulletin 2019/2020
Noetzli, J., & Pellet, C. (2021). Swiss Permafrost bulletin 2019/2020. Swiss Permafrost Monitoring Network (PERMOS). https://doi.org/10.13093/permos-bull-2021
 

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