Brown Carbon From Biomass Burning Reinforces the Himalayas and Tibetan Plateau Warming.

Autor: Zhu, Chong‐Shu, Qu, Yao, Huang, Hong, Shi, Ju‐Lian, Dai, Wen‐Ting, Zhang, Ning‐Ning, Wang, Nan, Wang, Lu‐Yao, Ji, Sha‐Sha, Cao, Jun‐Ji
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Zdroj: Geophysical Research Letters; 5/16/2024, Vol. 51 Issue 9, p1-9, 9p
Abstrakt: The Himalayas and Tibetan Plateau (the HTP), referred to as "the third pole" with an excessive warming rate, exerts strong impacts on the global environment. As one of warming contributors, atmospheric brown carbon (BrC) remains limited scientific understanding in the HTP due to a scarcity of observations. In this study, we present a study of the light‐absorbing properties of methanol‐soluble brown carbon (MeS‐BrC) and water‐soluble brown carbon (WS‐BrC) during 2018–2021. Highly spatiotemporal variations of BrC light absorptions were observed. In the HTP marginal area, elevated BrC absorption coefficients at 365 nm (babs,365) and levoglucosan concentrations were obtained, and MeS‐BrC exhibits approximately 1.3–1.8 times higher absorption compared to WS‐BrC. We determined that BrC light absorptions was largely attributed to biomass burning (29%–35%). BrC can act as a potent warming agent in the HTP marginal area, with high direct solar absorption (25%–47% relative to black carbon). Plain Language Summary: Atmospheric brown carbon (BrC) remains low scientific understanding in the HTP due to a scarcity of observations. Here, we present a plateau‐scale study of the light‐absorbing properties of methanol‐soluble brown carbon (MeS‐BrC) and water‐soluble brown carbon (WS‐BrC) during the period of 2018–2021. This study highlights the contribution of BrC to the HTP warming. Higher BrC light absorption was observed in the HTP marginal area compared with the central HTP. Enhanced radiative absorption effect of WS‐BrC was obtained in the HTP, with an annual average of ∼25% compared with BC in Qinghai Lake and Ngari, and as high as 46.5% in Purang. The results confirmed the importance of BrC from biomass burning in contributing to light‐absorbing aerosols in this region. Key Points: Brown carbon (BrC) can be a strong warming agent in the marginal Himalayas and Tibetan PlateauHighly spatiotemporal variations of plateau‐scale BrC were observedBrC light absorptions was largely attributed to biomass burning [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index
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