High-resolution inventory of mercury emissions from biomass burning in tropical continents during 2001–2017

Mercury emissions from biomass burning contribute significantly to the atmospheric mercury budget and the interannual variation of mercury concentrations in the troposphere. This study developed a high-resolution (0.1° × 0.1°) monthly inventory of mercury emissions from biomass burning across five l...

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Bibliographic Details
Published in:The Science of the total environment 2019-02, Vol.653, p.638-648
Main Authors: Shi, Yusheng, Zhao, Aimei, Matsunaga, Tsuneo, Yamaguchi, Yasushi, Zang, Shuying, Li, Zhengqiang, Yu, Tao, Gu, Xingfa
Format: Article
Language:English
Subjects:
Africa
Air Pollutants - analysis
Asia
Biomass burning
Central America
Environmental Monitoring - methods
Forest fires
Forests
Grassland
Mercury - analysis
Mercury emissions
Models, Theoretical
Seasons
South America
Spatiotemporal variations
Tropical Climate
Tropical continents
Wildfires - statistics & numerical data
Wood - chemistry
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Summary:Mercury emissions from biomass burning contribute significantly to the atmospheric mercury budget and the interannual variation of mercury concentrations in the troposphere. This study developed a high-resolution (0.1° × 0.1°) monthly inventory of mercury emissions from biomass burning across five land types in the tropical continents (Central and South America, Africa, and South and Southeast Asia) during 2001–2017. The inventory estimates of mercury emissions from biomass burning are based on the newly released MCD64A1 Version 6 Burned Area data product, satellite and observational data of biomass density, and spatial and temporal variable combustion factors. Results from the inventory demonstrated that during 2001–2017, the average annual mercury emissions from biomass burning in tropical continents was 497 Mg and ranged from 289 Mg to 681 Mg. Forest fires were the largest contributor, accounting for 61% (300 Mg) of the total mercury emissions from biomass burning, followed by fires in woody savanna/shrubland (30%, 151 Mg), savanna/grassland (7%, 35 Mg), peatland (1%, 6 Mg), and cropland (1%, 5 Mg). However, these proportions varied between the continents; in the Americas and Asia, the largest biomass burning emissions came from forest fires, and in Africa the largest emissions were from fires woody savanna/shrubland. Between the three continents, Africa released 41% of the mercury emissions from biomass burning (202 Mg year−1), Asia released 31% (154 Mg year−1), and the Americas released 28% (141 Mg year−1). The total mercury emissions from biomass burning in these tropical continents exhibited strong interannual variations from 2001 to 2017, with peak emissions in March and August to September, and forest fires were the primary land type controlling the interannual variations. [Display omitted] •A high-resolution mercury emission inventory from biomass burning was developed.•We estimated the mercury emissions from tropical continents during 2001–2017.•Annual biomass burning mercury emissions was 497 Mg with most from Africa.•Forest fires contributed 61% of the total mercury emissions among all fires.•Mercury emissions peaked in March and August to September annually.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2018.10.420