Exploring the influence of heat waves on wildfire occurrence in Mediterranean countries of southern Europe

José Maria Costa-Saura; Valentina Bacciu; Donatella Spano; Pierpaolo Duce; Giovanni Sanesi; Mario Elia

doi:https://doi.org/10.5194/egusphere-egu23-15247

[Back] [Session NH7.1]

EGU23-15247, updated on 10 Apr 2024

https://doi.org/10.5194/egusphere-egu23-15247

EGU General Assembly 2023

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Exploring the influence of heat waves on wildfire occurrence in Mediterranean countries of southern Europe

José Maria Costa-Saura^1,2, Valentina Bacciu^3,2, Donatella Spano^2,1, Pierpaolo Duce³, Giovanni Sanesi⁴, and Mario Elia⁴

José Maria Costa-Saura et al.

¹CMCC Foundation, Impacts on Agriculture, Forests and Natural Ecosystems division (CMCC-IAFES), Sassari ,Italy
²University of Sassari, Department of Agricultural Sciences, Sassari, Italy
³National Research Council, Institute of BioEconomy (CNR-IBE), Sassari ,Italy
⁴University of Bari, Department of Agricultural and Environmental Sciences, Bari, Italy

Heat waves (HWs) and wildfires are potentially considered highly correlated hazards with dramatic impacts on ecosystems and society. However, previous studies focused only on one single hazard leaving out potential compounding and cascading effects. The aim of this work is thus to investigate spatio-temporal patterns for both hazards in Mediterranean Europe and assess the potential influence of HWs on fire regime.

The historical wildfire dataset was derived from the Global Wildfire Information System (GWIS). This dataset corresponds to georeferenced polygons detected between 2000 and 2021 by MODIS. To understand the relationship between fires and HWs, we extracted several fire regime metrics accounting for density, seasonality and severity. All the metrics were computed at the scale of 12 km square grid.

Then, we characterised the HWs in terms of frequency, duration, seasonality and intensity for the same period based on a high resolution meteorological dataset (ERA5-land from Copernicus Climate Data Store). A HW was defined as a period of at least 6 days with temperatures greater than the 90^th percentile whereas intensity was calculated as the total amount of degrees exceeding that percentile during the HW. Finally, we compared HWs occurrence with information about fire events. Compound and cascading events were analysed through hazard maps to identify simultaneous occurrences of the two hazards and look at different combinations of hazard sequences. Finally, multiple linear regression models were applied to explore the complex influence of HWs characteristics on fire metrics.

The results highlighted the hotspot areas in Mediterranean countries where the common hazard occurrences were identified, and the role of HWs in the compound and cascading fire hazard events. The findings of this study could support the assessment of hazard patterns and, in turn, prevention and monitoring activities to support disaster risk reduction.

How to cite: Costa-Saura, J. M., Bacciu, V., Spano, D., Duce, P., Sanesi, G., and Elia, M.: Exploring the influence of heat waves on wildfire occurrence in Mediterranean countries of southern Europe, EGU General Assembly 2023, Vienna, Austria, 23–28 Apr 2023, EGU23-15247, https://doi.org/10.5194/egusphere-egu23-15247, 2023.