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Megafires in Chile 2017: Monitoring multiscale environmental impacts of burned ecosystems

Este artículo del investigador CEDEUS, Francisco de la Barrera y otros autores, aborda el impacto de los megaincendios forestales que arrasaron miles de hectáreas en el verano de 2017 en la zona central de Chile.

Posteado por Por Johanna Ortiz Fecha 15 de junio, 2018


Megafires in Chile 2017: Monitoring multiscale environmental impacts of burned ecosystems

Publication Type

 Journal article

Year of Publication



 Barrera F., Barraza F., Favir P., Ruiz V., Quense J.

Journal Title

 Science of The Total Environment


Impact of wildfires, Air pollution, Socio-natural hazards, Risk assessment, Ecosystem services, Ecosystems


During the summer of 2017, several megafires in South-Central Chile burned down forest plantations, native forests, shrublands and human settlements. National authorities identified the relevant effects of the wildfires on infrastructure and ecosystems. However, other indirect effects such as the risk of flooding or, increased air pollution were not assessed. The present study assesses: i) the geographic characterization of wildfires, ii) amount of damage to ecosystems and the severity of wildfires, iii) the effects of megafires on air quality in nearby and distant urban areas, and iv) identification of cities potentially exposed to landslides and flooding. We ran remote sensing analyses based on the Normalized Burn Ratio taken from Landsatimagery, “active fires” from MODIS, and ASTER GDEM. The particulate matter (PM10and PM2.5) levels measured on 34 Chilean’s municipalities were correlated with the burning area/distance ratio by Spearman correlation. Socionatural hazards were evaluated using multi-criteria analyses combining proximity to burned areas, severity, potential flow of water and sediments as indicated by the Digital Elevation Modeldrainage networks and the location of human settlements. 91 burned areas were identified, covering 529,794 ha. The most affected ecosystems were forest plantations and native shrublands. We found significant correlations between burned area/distance ratios and PM2.5 and PM10 levels, leading to increased levels over the Chilean air quality standard in the most populated cities. 37 human settlements were at increased risk of landslides and flooding hazards after fires and eleven could now be characterized as dangerously exposed. The 2017 wildfires in Chile have had an impact at both a small and large scale, with far-reaching air pollutants dispersing and affecting >74% of the Chilean population. The impact of the wildfires was also extended over time, creating future potential for landslides and flooding, with the risk increasing in rainy seasons.



Corresponding Author

  Francisco de la Barrera/ fdelabarrera@gmail.com

Line (s) ofaccess and mobility

Dinámicas socioespaciales


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