December 21, 2020 – Tropical deforestation exacerbates recurrent peatland fire events in this region. These release globally significant greenhouse gas emissions and produce toxic haze events across South East Asia.
An area of tropical forest and peatland larger than the Netherlands has burned in Indonesia in the past five years, according to Greenpeace.
Yet the study shows that contiguous tracts of undisturbed forests are not susceptible to burning even under current drought conditions.
Dr Tadas Nikonovas of Swansea University, lead author of the research, explained:
“Undisturbed tropical rainforests are naturally resistant to fire due to the humid and cool micro-climate they maintain, effectively acting as a fire barrier. Contrary to the widely-held perception that worsening droughts are threatening the remaining rainforests, tropical forests in Indonesia become susceptible to fire only after human disturbance.”
However, the study also reveals that currently only a small fraction (~10%) of the remaining total tropical forest cover remains fire-resistant. The rest (~90%) has been severely fragmented or degraded and therefore is no longer able to maintain a fire-resistant microclimate.
Importantly, fire-resistant forests now cover only 3% of the region’s peatlands, leaving large amounts of climate-critical carbon vulnerable to burning.
The authors emphasize that the preventative role tropical forests play against fire is yet another important reason for the preservation and regeneration of the few remaining contiguous tracts of forests.
Dr Allan Spessa of Swansea University, the project leader, added:
“Protecting tropical forest is critical not only for biodiversity and carbon storage but also for preventing future catastrophic fire episodes. This is true for Indonesia, as well as for tropical forest in Africa and South America”.
The research was published in a Nature Group journal, Communications Earth and Environment
This study is part of the Towards Fire Early Warning System for Indonesia(ToFEWSI) project, based at Swansea University.
Journal article: https://www.nature.com/commsenv/