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Assessing changes in global fire regimes
Sayedi, S. S., Abbott, B. W., Vannière, B., Leys, B., Colombaroli, D., Romera, G. G., … Daniau, A. L. (2024). Assessing changes in global fire regimes. Fire Ecology, 20(1), 18 (22 pp.). https://doi.org/10.1186/s42408-023-00237-9
The history of fire, human and climate in black pine forests of western Anatolia: the Taurus mountains
Şahan, E. A., Gürçay, B., & Tuncay Güner, H. (2023). The history of fire, human and climate in black pine forests of western Anatolia: the Taurus mountains. Dendrochronologia, 82, 126149 (9 pp.). https://doi.org/10.1016/j.dendro.2023.126149
Fire in forest ecosystems: processes and management strategies
Kraus, D., Wohlgemuth, T., Castellnou, M., & Conedera, M. (2022). Fire in forest ecosystems: processes and management strategies. In T. Wohlgemuth, A. Jentsch, & R. Seidl (Eds.), Landscape series: Vol. 32. Disturbance ecology (pp. 143-171). https://doi.org/10.1007/978-3-030-98756-5_7
The North American tree‐ring fire‐scar network
Margolis, E. Q., Guiterman, C. H., Chavardès, R. D., Coop, J. D., Copes‐Gerbitz, K., Dawe, D. A., … Weisberg, P. J. (2022). The North American tree‐ring fire‐scar network. Ecosphere, 13(7), e4159 (36 pp.). https://doi.org/10.1002/ecs2.4159
Climate teleconnections synchronize<em> Picea glauca</em> masting and fire disturbance: evidence for a fire‐related form of environmental prediction
Ascoli, D., Hacket‐Pain, A., LaMontagne, J. M., Cardil, A., Conedera, M., Maringer, J., … Vacchiano, G. (2020). Climate teleconnections synchronize Picea glauca masting and fire disturbance: evidence for a fire‐related form of environmental prediction. Journal of Ecology, 108, 1186-1198. https://doi.org/10.1111/1365-2745.13308
Spatial distribution of mean fire size and occurrence in eastern Canada: influence of climate, physical environment and lightning strike density
Portier, J., Gauthier, S., & Bergeron, Y. (2019). Spatial distribution of mean fire size and occurrence in eastern Canada: influence of climate, physical environment and lightning strike density. International Journal of Wildland Fire, 28(12), 927-940. https://doi.org/10.1071/WF18220
The dynamics and drivers of fuel and fire in the Portuguese public forest
Fernandes, P. M., Loureiro, C., Guiomar, N., Pezzatti, G., Manso, F. T., & Lopes, L. (2014). The dynamics and drivers of fuel and fire in the Portuguese public forest. Journal of Environmental Management, 146, 373-382. https://doi.org/10.1016/j.jenvman.2014.07.049
Fire, humans and landscape in the European Alpine region during the Holocene
Valese, E., Conedera, M., Held, A. C., & Ascoli, D. (2014). Fire, humans and landscape in the European Alpine region during the Holocene. Anthropocene, 6, 63-74. https://doi.org/10.1016/j.ancene.2014.06.006
Human impacts on fire occurrence: a case study of hundred years of forest fires in a dry alpine valley in Switzerland
Zumbrunnen, T., Menéndez, P., Bugmann, H., Conedera, M., Gimmi, U., & Bürgi, M. (2012). Human impacts on fire occurrence: a case study of hundred years of forest fires in a dry alpine valley in Switzerland. Regional Environmental Change, 12(4), 935-949. https://doi.org/10.1007/s10113-012-0307-4
Using Monte Carlo simulations to estimate relative fire ignition danger in a low-to-medium fire-prone region
Conedera, M., Torriani, D., Neff, C., Ricotta, C., Bajocco, S., & Pezzatti, G. B. (2011). Using Monte Carlo simulations to estimate relative fire ignition danger in a low-to-medium fire-prone region. Forest Ecology and Management, 261(12), 2179-2187. https://doi.org/10.1016/j.foreco.2010.08.013
Le régime des incendies de forêt en Valais: influences climatiques et anthropiques
Zumbrunnen, T., Bürgi, M., & Bugmann, H. (2010). Le régime des incendies de forêt en Valais: influences climatiques et anthropiques. Schweizerische Zeitschrift für Forstwesen, 161(11), 442-449. https://doi.org/10.3188/szf.2010.0442
Biodiversity and resilience of arthropod communities after fire disturbance in temperate forests
Moretti, M., Duelli, P., & Obrist, M. K. (2006). Biodiversity and resilience of arthropod communities after fire disturbance in temperate forests. Oecologia, 149(2), 312-327. https://doi.org/10.1007/s00442-006-0450-z
Diversity and recover rates of invertebrate communities after forest fires
Moretti, M., Obrist, M. K., & Duelli, P. (2006). Diversity and recover rates of invertebrate communities after forest fires. In D. X. Viegas (Ed.), V international conference on forest fire research (p. (7 pp.). ADAI; CEIF.
Effects of winter fire on spiders
Moretti, M. (2002). Effects of winter fire on spiders. In S. Toft & N. Scharff (Eds.), European arachnology 2000. Proceedings of the 19th colloquium of arachnology, Århus 17-22 July 2000) (pp. 183-190). Aarhus University Press.
The effects of wildfire on ground-active spiders in deciduous forests on the Swiss southern slope of the Alps
Moretti, M., Conedera, M., Duelli, P., & Edwards, P. J. (2002). The effects of wildfire on ground-active spiders in deciduous forests on the Swiss southern slope of the Alps. Journal of Applied Ecology, 39(2), 321-336. https://doi.org/10.1046/j.1365-2664.2002.00701.x
The interaction between forest fires and human activity in southern Switzerland
Conedera, M., & Tinner, W. (2000). The interaction between forest fires and human activity in southern Switzerland. In J. L. Innes, M. Beniston, & M. M. Verstraete (Eds.), Advances in global change research: Vol. 3. Biomass burning and its inter-relationships with the climate system (pp. 247-261). https://doi.org/10.1007/0-306-47959-1_14