AI Article Synopsis
- A field study on Rishiri Island, Japan, analyzed sources of atmospheric black carbon and related components, including eBC mass and gases like CO and CH.
- The research identified 16 significant eBC events, linked to both human activities and biomass burning from Siberia and China, particularly noting spikes in late July 2014 due to Siberian forest fires.
- Additionally, the study revealed that pollution in northern Japan can also come from crop residue burning in Northeast China, enhancing understanding of the impact of biomass burning in East Asia on atmospheric conditions.
Article Abstract
A field study was conducted to clarify sources of atmospheric black carbon and related carbonaceous components at Rishiri Island, Japan. We quantified equivalent black carbon (eBC) particle mass and the absorption Ångström exponent (AAE), atmospheric CO and CH, in addition to levoglucosan in total suspended particles, a typical tracer of biomass burning. Sixteen high eBC events were identified attributable to either anthropogenic sources or biomass burning in Siberia/China. These events were often accompanied by increases of co-emitted gases such as CH and CO. Specifically, we observed pollution events with elevated eBC, AAE, levoglucosan, and CHCO slope in late July 2014, which were attributed to forest fires in Siberia by reference to the FLEXPART model footprint and fire hotspots. In autumn, drastic increases of eBC, AAE, and levoglucosan were observed, accompanied by an eBC-CO slope of >15 ng m/ppb, resulting from long-range transport of emissions from extensive burning of crop residue on the Northeast China Plain. Other than the sources of fossil fuel combustion in China and forest fires in Siberia, we report for the first time that pollution events in northern Japan are caused by crop residue burning in China. This study elucidated valuable information that will improve understanding of the effects of biomass burning in East Asia on atmospheric carbonaceous components.
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| http://dx.doi.org/10.1016/j.envpol.2019.01.003 | DOI Listing |
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