30 citations as recorded by crossref.

1. Predicting burnt areas during the summer season in Portugal by combining wildfire susceptibility and spring meteorological conditions R. Bergonse et al.
2. Global variation in ecoregion flammability thresholds T. Ellis et al.
3. THE INFLUENCE OF CLIMATIC CONDITIONS ON THE OCCURRENCE OF LARGE FOREST FIRES: A CASE STUDY OF STARA PLANINA NATURE PARK IN 2007 AND 2019 S. ZIVANOVIC & M. GOCIC
4. The 2017 Split wildfire in Croatia: evolution and the role of meteorological conditions I. Čavlina Tomašević et al.
5. Statistical modelling of wildfire size and intensity: a step toward meteorological forecasting of summer extreme fire risk C. Hernandez et al.
6. Persistence of a wind-driven fire regime in Mediterranean France over the past 8200 years revealed by a marine paleoecological record M. Genet et al.
7. Contrasting large fire activity in the French Mediterranean A. Ganteaume & R. Barbero
8. Impact of wildfires on particulate matter in the Euro-Mediterranean in 2007: sensitivity to some parameterizations of emissions in air quality models M. Majdi et al.
9. What does it take to survive? An expert elicitation approach to understanding the drivers of fire Refugia occurrence and persistence T. Penman et al.
10. Object based burned area mapping with random forest algorithm R. ÇÖMERT et al.
11. Importance of climate uncertainty for projections of forest ecosystem services R. Snell et al.
12. Recent evolution of spatial and temporal patterns of burnt areas and fire weather risk in the Iberian Peninsula T. Calheiros et al.
13. A multivariate approach to assess the structural determinants of large wildfires: evidence from a Mediterranean country D. Sousa et al.
14. What controls fire size in the South American Gran Chaco? Exploring atmospheric and landscape drivers through Remote Sensing R. San Martín et al.
15. Investigation of synoptic patterns of fire occurrence in the forests of the western Alborz Mountains G. Keikhosravi & A. Dizaj
16. Evaluating spectral indices for estimating burned areas in the case of Izmir / Turkey B. KESGİN ATAK & E. ERSOY TONYALOĞLU
17. Objective identification of multiple large fire climatologies: an application to a Mediterranean ecosystem J. Ruffault et al.
18. Droughts and heatwaves in the Western Mediterranean: impact on vegetation and wildfires using the coupled WRF-ORCHIDEE regional model (RegIPSL) A. Guion et al.
19. Daily synoptic conditions associated with large fire occurrence in Mediterranean France: evidence for a wind-driven fire regime J. Ruffault et al.
20. Assessing the role of drought events on wildfires in the Iberian Peninsula A. Russo et al.
21. Assessing impacts of future climate change on extreme fire weather and pyro-regions in Iberian Peninsula T. Calheiros et al.
22. Attributing Increases in Fire Weather to Anthropogenic Climate Change Over France R. Barbero et al.
23. Integrated wildfire danger models and factors: A review I. Zacharakis & V. Tsihrintzis
24. Megafires in Mediterranean Europe: the compound role of fire weather and drought F. Ghasemiazma et al.
25. Saharan Hot and Dry Sirocco Winds Drive Extreme Fire Events in Mediterranean Tunisia (North Africa) C. Belhadj-Khedher et al.
26. Spatiotemporal dependence of compound drought–heatwave and fire activity in China Z. Shi et al.
27. Simulating the effects of weather and climate on large wildfires in France R. Barbero et al.
28. Aerosol trace element solubility and deposition fluxes over the Mediterranean Sea and Black Sea basins R. Shelley et al.
29. Recent change of burned area associated with summer heat extremes over Iberia V. Bento et al.
30. Improved fire severity prediction using pre-fire remote sensing and meteorological time series: Application to the French Mediterranean area V. Penot et al.