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LUCC-induced dust aerosol change increase surface and reduce atmospheric direct radiative forcing in Northern China. | LitMetric

LUCC-induced dust aerosol change increase surface and reduce atmospheric direct radiative forcing in Northern China.

J Environ Manage

Laboratory of Geospatial Technology for the Middle and Lower Yellow River Regions (Henan University), Ministry of Education, Kaifeng, 475004, China; College of Geography and Environmental Science, Henan University, Kaifeng, 475004, China.

Published: September 2024

AI Article Synopsis

  • * LUCC primarily impacts shortwave radiative forcing more than longwave forcing, with significant seasonal variations and an overall increase in net direct radiative forcing at the surface and a decrease in the atmosphere.
  • * Transforming sparse vegetation to barren land has the most dramatic impact, causing surface radiative intensity to decrease while increasing it in the atmosphere, while changing barren land back to sparse vegetation results in cooling at the surface and warming in the atmosphere.

Article Abstract

Land use and land cover change (LUCC) can alter surface properties, such as albedo, roughness, and vegetation coverage, directly affecting dust emissions and aerosol concentrations, leading to variations in direct radiative forcing (DRF) of dust aerosols and consequently impacting the climate. This study utilized the Weather Research and Forecasting model with Chemistry (WRF-Chem) to quantify the impact of LUCC in northern China from 2000 to 2020 on dust aerosol DRF. Results indicated that LUCC's influence on shortwave radiative forcing of dust was significantly greater than its influence on longwave radiative forcing and exhibited obvious seasonal variations. Overall, LUCC can cause net direct radiative forcing to increase by 5.3 W m at the surface and decrease by 7.8 W m in the atmosphere. Different types of LUCC transformation showed distinct impacts on dust aerosol DRF, with the conversion from sparse vegetation to barren land had the most significant effect on net radiative intensity, resulting in a decrease of 8.1 W m at the surface, an increase of 12.2 W m in the atmosphere, and an increase of 4.1 W m at the top of the atmosphere. Conversely, the conversion from barren land to sparse vegetation led to surface cooling and atmospheric warming. These findings are of great significance for enhancing our knowledge of the effects of LUCC on the radiative balance of dust aerosols.

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Source
http://dx.doi.org/10.1016/j.jenvman.2024.122185DOI Listing

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