AI Article Synopsis
- Black Carbon (BC) impacts air quality and climate, but its emission sources in Southeast Asia are not well understood; this study analyzes BC in Malaysia to determine the contributions from biomass and fossil fuels over one year.
- The findings indicate a roughly equal contribution from biomass burning and fossil fuels overall, with seasonal variations revealing up to 70% of BC from biomass burning during the dry spring season.
- The study highlights the need to address and reduce vegetation fires during the dry season in SE Asia to improve air quality and mitigate climate change effects.
Article Abstract
Black Carbon (BC) deteriorates air quality and contributes to climate warming, yet its regionally- and seasonally-varying emission sources are poorly constrained. Here we employ natural abundance radiocarbon (C) measurements of BC intercepted at a northern Malaysia regional receptor site, Bachok, to quantify the relative biomass vs. fossil source contributions of atmospheric BC, in a first year-round study for SE Asia (December 2015-December 2016). The annual average C signature suggests as large contributions from biomass burning as from fossil fuel combustion. This is similar to findings from analogous measurements at S Asian receptors sites (~50% biomass burning), while E Asia sites are dominated by fossil emission (~20% biomass burning). The C-based source fingerprinting of BC in the dry spring season in SE Asia signals an even more elevated biomass burning contribution (~70% or even higher), presumably from forest, shrub and agricultural fires. This is consistent with this period showing also elevated ratio of organic carbon to BC (up from ~5 to 30) and estimates of BC emissions from satellite fire data. Hence, the present study emphasizes the importance of mitigating dry season vegetation fires in SE Asia.
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| http://dx.doi.org/10.1016/j.scitotenv.2020.140359 | DOI Listing |
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