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Springtime biomass burning impacts air quality and climate over the Tibetan Plateau
https://orcid.org/0000-0003-2115-9005
https://orcid.org/0000-0001-7138-0459
Abstract The Tibetan Plateau, referred as the last pure land on the earth, is frequently exposure to heavy air pollution during springtime. Here, we find South Asia biomass burning is crucial to cause the heavy springtime air pollution over the Tibetan Plateau, which explain the most (more than 60%) of aerosol components in the region, although its contribution to gaseous pollutants is not significant. South Asian biomass burning mainly affects primary PM2.5 components black carbon (65.3%) and organic carbon (79.5%) over the Tibetan Plateau, but has little influence (less than 5%) on second aerosol components (sulfate, nitrate, and ammonium). The trans-boundary transmissions of aerosols were regulated by a combination of large-scale westerly winds and regional mountain-valley winds in springtime. In addition to worsen air quality, aerosols from South Asian biomass burning lead to surface temperature decrease of 0.06 °C, and precipitation reduction of 3.9 mm over the Tibetan Plateau during springtime. These climate changes will threat the fragile ecosystem over the Tibetan Plateau, such as plant growth and flowering during springtime. Overall, our findings demonstrate a necessary and urgency to reduce biomass burning emissions over South Asia to protect the Tibetan Plateau environment.
Graphical abstract Display Omitted
Highlights Identification of major cross-border pollutants from biomass burning. Quantifying the contribution of biomass burning to cross-border aerosols. Assessment of the climate impact of cross-border aerosols from biomass burning.
Springtime biomass burning impacts air quality and climate over the Tibetan Plateau
https://orcid.org/0000-0003-2115-9005
https://orcid.org/0000-0001-7138-0459
Abstract The Tibetan Plateau, referred as the last pure land on the earth, is frequently exposure to heavy air pollution during springtime. Here, we find South Asia biomass burning is crucial to cause the heavy springtime air pollution over the Tibetan Plateau, which explain the most (more than 60%) of aerosol components in the region, although its contribution to gaseous pollutants is not significant. South Asian biomass burning mainly affects primary PM2.5 components black carbon (65.3%) and organic carbon (79.5%) over the Tibetan Plateau, but has little influence (less than 5%) on second aerosol components (sulfate, nitrate, and ammonium). The trans-boundary transmissions of aerosols were regulated by a combination of large-scale westerly winds and regional mountain-valley winds in springtime. In addition to worsen air quality, aerosols from South Asian biomass burning lead to surface temperature decrease of 0.06 °C, and precipitation reduction of 3.9 mm over the Tibetan Plateau during springtime. These climate changes will threat the fragile ecosystem over the Tibetan Plateau, such as plant growth and flowering during springtime. Overall, our findings demonstrate a necessary and urgency to reduce biomass burning emissions over South Asia to protect the Tibetan Plateau environment.
Graphical abstract Display Omitted
Highlights Identification of major cross-border pollutants from biomass burning. Quantifying the contribution of biomass burning to cross-border aerosols. Assessment of the climate impact of cross-border aerosols from biomass burning.
Springtime biomass burning impacts air quality and climate over the Tibetan Plateau
https://orcid.org/0000-0003-2115-9005
https://orcid.org/0000-0001-7138-0459
Abstract The Tibetan Plateau, referred as the last pure land on the earth, is frequently exposure to heavy air pollution during springtime. Here, we find South Asia biomass burning is crucial to cause the heavy springtime air pollution over the Tibetan Plateau, which explain the most (more than 60%) of aerosol components in the region, although its contribution to gaseous pollutants is not significant. South Asian biomass burning mainly affects primary PM2.5 components black carbon (65.3%) and organic carbon (79.5%) over the Tibetan Plateau, but has little influence (less than 5%) on second aerosol components (sulfate, nitrate, and ammonium). The trans-boundary transmissions of aerosols were regulated by a combination of large-scale westerly winds and regional mountain-valley winds in springtime. In addition to worsen air quality, aerosols from South Asian biomass burning lead to surface temperature decrease of 0.06 °C, and precipitation reduction of 3.9 mm over the Tibetan Plateau during springtime. These climate changes will threat the fragile ecosystem over the Tibetan Plateau, such as plant growth and flowering during springtime. Overall, our findings demonstrate a necessary and urgency to reduce biomass burning emissions over South Asia to protect the Tibetan Plateau environment.
Graphical abstract Display Omitted
Highlights Identification of major cross-border pollutants from biomass burning. Quantifying the contribution of biomass burning to cross-border aerosols. Assessment of the climate impact of cross-border aerosols from biomass burning.
Springtime biomass burning impacts air quality and climate over the Tibetan Plateau
Yang, Junhua (author) / Kang, Shichang (author) / Hu, Yuling (author) / Chen, Xintong (author) / Rai, Mukesh (author)
Atmospheric Environment ; 313
2023-09-03
Article (Journal)
Electronic Resource
English
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