Changes in European fire weather extremes and related atmospheric drivers

•Fire weather extremes in Europe have become more frequent in recent decades.•They affect increasingly larger areas and occur earlier/later in the fire season.•Increases in fire weather extremes are associated with significant change-points.•Atmospheric blocking and ridging drive fire weather extrem...

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Bibliographic Details
Published in:Agricultural and forest meteorology 2023-11, Vol.342, p.109749, Article 109749
Main Authors: Giannaros, Theodore M., Papavasileiou, Georgios
Format: Article
Language:English
Subjects:
change-points
climate change
domain
Europe
fire danger
fire season
fire suppression
fire weather
fire weather extremes
forests
latitude
meteorology
Southern European region
time series analysis
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Summary:•Fire weather extremes in Europe have become more frequent in recent decades.•They affect increasingly larger areas and occur earlier/later in the fire season.•Increases in fire weather extremes are associated with significant change-points.•Atmospheric blocking and ridging drive fire weather extremes in Europe.•Increases in fire weather extremes challenge adaptation limits. Recent destructive fire seasons around the world have increased concern that climate change is escalating the frequency, intensity, and extent of wildfires. While the contributions of individual factors can be debated, the scientific literature concludes that fire weather is one prominent driver of fire activity. Our analysis of the relationship between fire weather extremes and burned area in Europe revealed that the number of extreme fire weather days per year correlates positively with the annual burned area over most of the study domain. The evidence presented in our study strongly suggests that fire weather extremes in Europe have become more frequent in recent decades while affecting increasingly larger areas and occurring earlier and later in the fire season. Increases in fire weather extremes occurred abruptly in several parts of Europe, as evidenced by the detection of statistically significant change-points in the time series of the annual extreme fire weather days. Our analysis revealed that, at the regional scale, significant change-points occurred around the late 1990s and mid-2000s in the Mediterranean, marking an abrupt rise in the median of extreme fire weather days per year. We found that high-latitude blocking and sub-tropical ridging drive fire weather extremes in northern and southern Europe, respectively. The results of our study suggest that fire weather extremes are today more likely to occur than in the past, and the increasing occurrence of extreme fire weather could lead to rapidly reaching adaptation limits, thereby reversing currently stagnating or even declining trends reported for fire activity in Europe. Corresponding with extreme fire weather years reported here, recent destructive fire seasons exemplify the limits of fire suppression and the need to adapt to the reality of more frequent extreme fire weather.
ISSN:0168-1923
DOI:10.1016/j.agrformet.2023.109749