Authors: A. Feurdean, B. Vannière, W. Finsinger, D. Warren, S. C. Connor, M. Forrest, J. Liakka, A. Panait, C. Werner, M. Andrič, P. Bobek, V. A. Carter, B. Davis, A.-C. Diaconu, E. Dietze, I. Feeser, G. Florescu, M. Gałka, T. Giesecke, S. Jahns, E. Jamrichová, K. Kajukało, J. Kaplan, M. Karpińska-Kołaczek, P. Kołaczek, P. Kuneš, D. Kupriyanov, M. Lamentowicz, C. Lemmen, E. K. Magyari, K. Marcisz, E. Marinova, A. Niamir, E. Novenko, M. Obremska, A. Pędziszewska, M. Pfeiffer, A. Poska, M. Rösch, M. Słowiński, M. Stančikaitė, M. Szal, J. Święta-Musznicka, I. Tanţău, M. Theuerkauf, S. Tonkov, O. Valkó, J. Vassiljev, S. Veski, I. Vincze, A. Wacnik, J. Wiethold, T. Hickler
Venue: Biogeosciences
Type: Publication
Abstract: Wildfire occurrence is influenced by climate, vegetation and human activities. A key challenge for understanding the risk of fires is quantifying the mediating effect of vegetation on fire regimes. Here, we explore the relative importance of Holocene land cover, land use, dominant functional forest type, and climate dynamics on biomass burning in temperate and boreo-nemoral regions of central and eastern Europe over the past 12 kyr. We used an extensive data set of Holocene pollen and sedimentary charcoal records, in combination with climate si...
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DOI:
10.5445/ir/1000118072
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