TY - JOUR
T1 - A review of the occurrence and causes for wildfires and their impacts on the geoenvironment
AU - Farid, Arvin
AU - Alam, Md Khorshed
AU - Goli, Venkata Siva Naga Sai
AU - Akin, Idil Deniz
AU - Akinleye, Taiwo
AU - Chen, Xiaohui
AU - Cheng, Qing
AU - Cleall, Peter
AU - Cuomo, Sabatino
AU - Foresta, Vito
AU - Ge, Shangqi
AU - Iervolino, Luca
AU - Iradukunda, Pierette
AU - Luce, Charles H.
AU - Koda, Eugeniusz
AU - Mickovski, Slobodan B.
AU - O'Kelly, Brendan C.
AU - Paleologos, Evan K.
AU - Peduto, Dario
AU - Ricketts, Evan John
AU - Sadegh, Mojtaba
AU - Sarris, Theo S.
AU - Singh, Devendra N.
AU - Singh, Prithvendra
AU - Tang, Chao-Sheng
AU - Tardio, Guillermo
AU - Vaverikova, Magdalena Daria
AU - Veneris, Max
AU - Winkler, Jan
PY - 2024/8
Y1 - 2024/8
N2 - Wildfires have short- and long-term impacts on the geoenvironment, including the changes to biogeochemical and mechanical properties of soils, landfill stability, surface- and groundwater, air pollution, and vegetation. Climate change has increased the extent and severity of wildfires across the world. Simultaneously, anthropogenic activities—through the expansion of urban areas into wildlands, abandonment of rural practices, and accidental or intentional fire-inception activities—are also responsible for a majority of fires. This paper provides an overall review and critical appraisal of existing knowledge about processes induced by wildfires and their impact on the geoenvironment. Burning of vegetation leads to loss of root reinforcement and changes in soil hydromechanical properties. Also, depending on the fire temperature, soil can be rendered hydrophobic or hydrophilic and compromise soil nutrition levels, hinder revegetation, and, in turn, increase post-fire erosion and the debris flow susceptibility of hillslopes. In addition to direct hazards, wildfires pollute air and soil with smoke and fire suppression agents releasing toxic, persistent, and relatively mobile contaminants into the geoenvironment. Nevertheless, the mitigation of wildfires’ geoenvironmental impacts does not fit within the scope of this paper. In the end, and in no exhaustive way, some of the areas requiring future research are highlighted.
AB - Wildfires have short- and long-term impacts on the geoenvironment, including the changes to biogeochemical and mechanical properties of soils, landfill stability, surface- and groundwater, air pollution, and vegetation. Climate change has increased the extent and severity of wildfires across the world. Simultaneously, anthropogenic activities—through the expansion of urban areas into wildlands, abandonment of rural practices, and accidental or intentional fire-inception activities—are also responsible for a majority of fires. This paper provides an overall review and critical appraisal of existing knowledge about processes induced by wildfires and their impact on the geoenvironment. Burning of vegetation leads to loss of root reinforcement and changes in soil hydromechanical properties. Also, depending on the fire temperature, soil can be rendered hydrophobic or hydrophilic and compromise soil nutrition levels, hinder revegetation, and, in turn, increase post-fire erosion and the debris flow susceptibility of hillslopes. In addition to direct hazards, wildfires pollute air and soil with smoke and fire suppression agents releasing toxic, persistent, and relatively mobile contaminants into the geoenvironment. Nevertheless, the mitigation of wildfires’ geoenvironmental impacts does not fit within the scope of this paper. In the end, and in no exhaustive way, some of the areas requiring future research are highlighted.
KW - wildfires
KW - geoenvironment
KW - climate change
KW - hazards
KW - soil and groundwater conditions
U2 - 10.3390/fire7080295
DO - 10.3390/fire7080295
M3 - Review article
SN - 2571-6255
VL - 7
JO - Fire
JF - Fire
IS - 8
M1 - 295
ER -