Abstract
Biomass burning has important impacts on atmospheric chemistry and climate. Fires in tropical forests and savannas release large quantities of trace gases and particulate matter. Combustion of biofuels for cooking and heating constitutes a less spectacular but similarly widespread biomass burning activity. To provide the groundwork for a quantification of this source, we determined in rural Zimbabwe the emissions of CO2, CO, and NO from more than 100 domestic fires fueled by wood, agricultural residues, and dung. The results indicate that, compared to open savanna fires, emissions from domestic fires are shifted towards products of incomplete combustion. A tentative global analysis shows that the source strength of domestic biomass burning is on the order of 1500 Tg CO2–C yr−1, 140 Tg CO–C yr−1, and 2.5 Tg NO–N yr−1. This represents contributions of about 7 to 20% to the global budget of these gases.
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Ludwig, J., Marufu, L.T., Huber, B. et al. Domestic Combustion of Biomass Fuels in Developing Countries: A Major Source of Atmospheric Pollutants. Journal of Atmospheric Chemistry 44, 23–37 (2003). https://doi.org/10.1023/A:1022159910667
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DOI: https://doi.org/10.1023/A:1022159910667