Atmosphere, Journal Year: 2025, Volume and Issue: 16(4), P. 423 - 423

Published: April 4, 2025

Fires drive global ecosystem change, impacting carbon dynamics, atmospheric composition, biodiversity, and human well-being. Biomass burning, a major outcome of fires, significantly contributes to greenhouse gas aerosol emissions. Among these, fine particulate matter (PM2.5) is particularly concerning due its adverse effects on air quality health, substantial yet uncertain role in Earth’s energy balance. Variability emission factors (EFs) remains key source uncertainty estimates. This study evaluates PM2.5 sensitivity EFs variability Brazil’s Amazon Cerrado biomes over 2002–2023 using the 3BEM_FRP model implemented PREP-CHEM-SRC tool. We updated with values ranges from Andreae (2019), which reflect more comprehensive literature review than earlier datasets. The results reveal that annual average emissions varied by up 162% (1213 Gg yr−1 3172 yr−1) 184% (601 1709 yr−1). Average peak at grid-cell level reached 5688 Mg “Arc Deforestation” region under High-end EF scenario. Notably, forest areas increased time despite shrinking cover, indicating Amazonian forests are becoming vulnerable fire. In Cerrado, savannas primary land cover contributing total emissions, accounting for 64% 80%. These findings underscore importance accurate, region-specific improving models reducing uncertainties.

Language: Английский