Forest fires have become more frequent and larger, with some areas like the western USA and eastern Spain experiencing fire events that have doubled or tripled in size in recent decades. Larger forest fires typically result in greater loss of vegetation, but the effects of this increase of exposed land on the climate have not yet been established.
Decade of satellite data
A team of researchers, featuring Chao Yue (Northwest A&F University Xianyang) and Sebastiaan Luyssaert (VU Amsterdam), analysed satellite data of wildfire events from 2003 to 2016 in northern temperate and boreal forests (40° N–70° N). They found a widespread warming effect one year after fire events—which is consistent with previous research—but, through a mathematical model, calculated that fire size amplified surface warming in North America and eastern boreal Asia.
The analysis revealed that evapotranspiration and surface reflectivity decreased one year following a fire event—with greater decreases following larger fires—meaning that the surface was warming by releasing less water and absorbing more incoming radiation than previous years.
Broadleaf trees as a solution
Meanwhile, the amplified surface warming effect was not observed in western, central, and southeastern Siberia, and eastern Europe, which contain mixed forests and forests primarily composed of deciduous broadleaf trees.
The authors note that these trees may help moderate fire vulnerability and that future fire mitigation strategies could involve increasing the number of broadleaf trees in forests to weaken post-fire surface warming. However, further research is needed to assess how broadleaf trees may help suppress surface warming in Eurasian forests.
The article, 'Forest fire size amplifies postfire land surface warming' is available to read in Nature.