Comparison of ground-based measurements of solar UV radiation at four sites on the Tibetan Plateau

高原(数学) 高度(三角形) 环境科学 大气科学 纬度 辐射传输 地平面 云量 臭氧 气象学 地质学 物理 数学 光学 云计算 计算机科学 操作系统 工程类 数学分析 建筑工程 大地测量学 一楼 几何学
作者
Norsang Gelsor,Yi‐Chun Chen,Nima Pingcuo,Arne Dahlback,Øyvind Frette,Berit Kjeldstad,Børge Hamre,Knut Stamnes,Jakob J. Stamnes
出处
期刊:Applied Optics [Optica Publishing Group]
卷期号:53 (4): 736-736 被引量:22
标识
DOI:10.1364/ao.53.000736
摘要

We compare results for the UV index (UVI), the total ozone column (TOC), and the radiation modification factor (RMF, being 1 in the absence of clouds and aerosols) at four sites on the Tibetan Plateau. The results were obtained by analyzing ground measurements by multichannel moderate-bandwidth filter instruments for the period July 2008-September 2010, and radiative transfer modeling was used to aid the interpretation of the results. The highest UVI of 20.6 was measured in Tingri (28.7°N; 4335 m). For July, monthly mean UVI values were 14.5 and 12.9 in Tingri and Lhasa (29.7°N; 3683 m), respectively. Generally, the UVI levels in Tingri and Lhasa were higher than in Nagchu (31.5°N; 4510 m) and Linzhi (29.7°N; 2995 m), due to less cloud cover at the former two sites. In 2009, the annual mean UVI and RMF values were 6.8 and 0.7 for Linzhi, 8.8 and 0.92 for Lhasa, 10.5 and 0.92 for Tingri, and 6.7 and 0.7 for Nagchu. Radiative transfer simulations indicate that the latitude difference would correspond to an increase in the UVI of about 0.3 from Nagchu to Tingri; whereas, the altitude difference would correspond to a reduction of about 1.5%, implying that the observed difference is due to the difference in cloud cover. The annual mean TOC values were found to be 260-264 Dobson units (DU) in Lhasa, Linzhi, and Nagchu, and 252 DU in Tingri. TOC values in Lhasa were found to agree within 3% with those derived from Ozone Monitoring Instrument (OMI) measurements.
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