An Evidence of Aerosol Indirect Effect on Stratus Clouds from the Integrated Ground-Based Measurements at the ARM Shouxian Site

An Evidence of Aerosol Indirect Effect on Stratus Clouds from the Integrated Ground-Based Measurements at the ARM Shouxian Site

The aerosol effect on clouds was explored using remote sensing of aerosol and cloud data at Shouxian, China. Non-precipitation, ice-free, and overcast clouds were firstly chosen by a combination of sky im- ages from the Total Sky Imager (TSI), cloud base heights from the Ceilometer, and vertical tem...

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Veröffentlicht in:Atmospheric and oceanic science letters = Daqi-he-haiyang-kexue-kuaibao 2011, Vol.4 (2), p.65-69
1. Verfasser: TANG Jin-Ping WANG Pu-Cai DUAN Min-Zheng CHEN Hong-Bin XIA Xiang-Ao LIAO Hong
Format: Artikel
Sprache:eng
Schlagworte:
aerosol
Aerosols
ARM
Autumn
Balloons
Clouds
Correlation coefficient
effective radius
Hydrologic data
Ice
Light scattering
liquid water path
Optical analysis
optical depth
Profiles
Remote sensing
Scattering coefficient
Summer
Temperature
Temperature profile
warm cloud
Water depth
化学需氧量
地面测量
寿县
气溶胶
网站
证据
间接效应
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Zusammenfassung:The aerosol effect on clouds was explored using remote sensing of aerosol and cloud data at Shouxian, China. Non-precipitation, ice-free, and overcast clouds were firstly chosen by a combination of sky im- ages from the Total Sky Imager (TSI), cloud base heights from the Ceilometer, and vertical temperature profiles from the Balloon-Borne Sounding System (BBSS). Six cases were chosen in summer, and seven in autumn. The averaged cloud effective radii (re), cloud optical depth (COD), aerosol total light scattering coefficient (a), and liquid water path (LWP) are, respectivey, 6.47 μm, 35.4, 595.9 mm-1, 0.19 mm in summer, and 6.07 μm, 96.0, 471.7 mm-1, 0.37 mm in autumn. The correlation coefficient between re and tc was found to change from negative to positive value as LWP increases.
ISSN:1674-2834
2376-6123
DOI:10.1080/16742834.2011.11446905