Assessing the Roles of Terrestrial Stilling and Solar Dimming in Land Surface Drying/Wetting across China

Assessing the Roles of Terrestrial Stilling and Solar Dimming in Land Surface Drying/Wetting across China

Decreases in wind speed (i.e., terrestrial stilling) and radiation (i.e., solar dimming) have been identified as important causes of aridity change both globally and regionally. To understand how their roles have varied across different natural and socioeconomic circumstances in China, this study pr...

Full description

Saved in:
Bibliographic Details
Published in:Water (Basel) Vol. 12; no. 7; p. 1996
Main Authors: Duan, Kai, Guo, Jiali, Hu, Tiesong, Wang, Xianxun, Mei, Yadong
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-07-2020
Subjects:
Air pollution
Anthropogenic factors
aridity
Atmospheric temperature
attribution analysis
Basins
China
Climate change
Dimming
Drying
Environmental aspects
Environmental restoration
Evaporation
Human influences
Humidity
Land management
Precipitation
Regional development
Relative humidity
River basins
Rivers
Socioeconomic factors
solar dimming
Studies
Terrestrial environments
terrestrial stilling
Trends
Urbanization
Water pollution
Water shortages
Wetting
Wind
Wind speed
China
United States > US
Yangtze River
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Decreases in wind speed (i.e., terrestrial stilling) and radiation (i.e., solar dimming) have been identified as important causes of aridity change both globally and regionally. To understand how their roles have varied across different natural and socioeconomic circumstances in China, this study presents a nationwide attribution analysis of land surface drying/wetting across the ten first-level river basins. The results suggest that consistent warming and reductions in relative humidity have significantly enhanced atmospheric evaporative demand and driven the land surface to become drier over the past six decades. However, the widespread terrestrial stilling and solar dimming have largely offset such trends by suppressing evaporation. While spatially varying changes in precipitation were the most influential driver of aridity change over half of the 713 used climate sites, decreasing wind speed and radiation were identified as the dominant cause of wetting at 15% and 13% of the sites, respectively. The impacts of terrestrial stilling and solar dimming were generally more prominent in the north (e.g., the Liao River, Songhuajiang, Hai River, and Huai River basins) and south (e.g., the Southeast, Pearl River, and Yangtze River basins) respectively, which could be associated with the weakening monsoon and intensified anthropogenic disturbances such as ecological restoration, urbanization, and air pollution. We conclude that more attention needs to be paid to the independent and combined climatological impacts of global- and regional-level human activities to develop proactive adaptation strategies of water and land management.
ISSN:2073-4441
2073-4441
DOI:10.3390/w12071996