Vertical Stratification of Dust and Anthropogenic Aerosols and Their Seasonal Impact on Radiative Forcing in Semi-Arid Northwest China

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Bibliografiset tiedot
Julkaisussa:	Atmosphere vol. 16, no. 6 (2025), p. 718
Päätekijä:	Gong Xin
Muut tekijät:	Zhang Ruizhao, Sun, Xiaoling, Delong, Xiu, Mao Jiandong, Hu, Zhao, Rao, Zhimin
Julkaistu:	MDPI AG
Aiheet:	China Taklamakan Desert Optical thickness Dust Aerosols Altitude Semiarid climates Human influences Stratification Radiation Climate change Radiative forcing Deserts Precipitation Cooling Optical properties Semiarid zones Carbon Regions Spring Arid regions Photometers Albedo Pollutants Arid climates Arid zones Anthropogenic factors Emissions Data processing Atmospheric aerosols Outdoor air quality Sun Spring (season) Climate Atmosphere Aerosol optical properties Optical analysis Atmospheric particulates Aerosol optical depth Vertical distribution Trajectory analysis Semi arid areas Coal
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Kuvaus
Abstrakti:	Aerosol optical properties and radiative forcing critically influence Earth’s climate, particularly in semi-arid regions. This study investigates these properties in Yinchuan, Northwest China, focusing on aerosol optical depth (AOD), single-scattering albedo (SSA), Ångström Index, and direct radiative forcing (DRF) using 2023 CE-318 sun photometer data, HYSPLIT trajectory analysis, and the SBDART model. Spring AOD peaks at 0.58 ± 0.15 (500 nm) due to desert dust, with coarse-mode particles dominating, while summer SSA reaches 0.94, driven by fine-mode aerosols. Internal mixing of dust and anthropogenic aerosols significantly alters DRF through enhanced absorption, with spring surface DRF at −101 ± 22W m−2 indicating strong cooling and internal mixing increasing atmospheric DRF to 52.25W m−2. These findings elucidate dust–anthropogenic interactions’ impact on optical properties and radiative forcing, offering critical observations for semi-arid climate research.
ISSN:	2073-4433
DOI:	10.3390/atmos16060718
Lähde:	Publicly Available Content Database