Add to ORKGUnderstanding the factors driving past fire regimes is crucial in the context of global change as a basis for predicting future changes. In this study, we aimed to identify the impact of climate and human activities on fire occurrence in the most fire-prone regions of Switzerland. We considered forest fires, land use and meteorological data over the period 1904–2008 in the neighboring mountain cantons (states) of Valais and Ticino, which are characterized by distinct climatic regimes. The presence/absence of fire ignitions was analyzed using the Nesterov ignition index (as a proxy for fire weather), road density (for ignition sources), livestock density (for biomass removal), and change in forest area (for fire-prone abandoned agricultural ...
Mountain forest ecosystems in central Europe are a product of millennia of land use and climate chan...
Understanding how the interactions between anthropogenic and biophysical factors control fire regime...
Changes in fire occurrence during the last decades in the southern Swiss Alps make knowledge on fire...
Understanding the factors driving past fire regimes is crucial in the context of global change as a ...
Forest fire regimes are sensitive to alterations of climate, fuel load, and ignition sources. We inv...
Forest fire regimes are likely to experience consid-erable changes in the European Alps due to cli-m...
International audienceThe Alpine area is particularly sensitive to climatic and environmental change...
New palaeoecological investigations (pollen, macrofossil, and charcoal analyses) provide important e...
Forest fires are expected to be more frequent and more intense with climate change, including in tem...
International audienceForest fire frequency in Mediterranean countries is expected to increase with ...
International audienceBackground: The present article questions the relative importance of local- an...
Mountain forest ecosystems in central Europe are a product of millennia of land use and climate chan...
Understanding how the interactions between anthropogenic and biophysical factors control fire regime...
Changes in fire occurrence during the last decades in the southern Swiss Alps make knowledge on fire...
Understanding the factors driving past fire regimes is crucial in the context of global change as a ...
Forest fire regimes are sensitive to alterations of climate, fuel load, and ignition sources. We inv...
Forest fire regimes are likely to experience consid-erable changes in the European Alps due to cli-m...
International audienceThe Alpine area is particularly sensitive to climatic and environmental change...
New palaeoecological investigations (pollen, macrofossil, and charcoal analyses) provide important e...
Forest fires are expected to be more frequent and more intense with climate change, including in tem...
International audienceForest fire frequency in Mediterranean countries is expected to increase with ...
International audienceBackground: The present article questions the relative importance of local- an...
Mountain forest ecosystems in central Europe are a product of millennia of land use and climate chan...
Understanding how the interactions between anthropogenic and biophysical factors control fire regime...
Changes in fire occurrence during the last decades in the southern Swiss Alps make knowledge on fire...