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African burned area and fire carbon emissions are strongly impacted by small fires undetected by coarse resolution satellite data

Rubén Ramo, Ekhi Roteta, Ioannis Bistinas, Dave van Wees, Aitor Bastarrika, Emilio Chuvieco, Guido R. van der Werf

2021Proceedings of the National Academy of Sciences372 citationsDOIOpen Access PDF

Abstract

Significance Fires burn an area comparable to Europe each year, emitting greenhouse gases and aerosols. We compared burned area (BA) based on 20-m resolution images with a BA derived from 500-m data. It represents an 80% increase in BA in sub-Saharan Africa, responsible for about 70% of global BA. This difference is predominately (87%) attributed to small fires (<100 ha), which account for 41% of total BA but only for 5% in coarse-resolution products. We found that African fires were responsible for emissions of 1.44 PgC, 31–101% higher than previous estimates and representing 14% of global CO 2 emissions from fossil fuel burning. We conclude that small fires are critically important in characterizing the most important disturbance agent on a global scale.

Topics & Concepts

Moderate-resolution imaging spectroradiometerEnvironmental scienceSatelliteGreenhouse gasVegetation (pathology)SpectroradiometerImage resolutionRemote sensingAtmospheric sciencesMultispectral imageLand coverMeteorologyClimatologyLand useGeographyReflectivityGeologyPathologyEngineeringArtificial intelligenceCivil engineeringOceanographyComputer scienceMedicinePhysicsOpticsAerospace engineeringFire effects on ecosystemsFire Detection and Safety SystemsFire dynamics and safety research
African burned area and fire carbon emissions are strongly impacted by small fires undetected by coarse resolution satellite data | Litcius