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我国380nm波长气溶胶光学厚度分布特征和演变趋势
引用本文:胡婷,孙照渤,张海东. 我国380nm波长气溶胶光学厚度分布特征和演变趋势[J]. 应用气象学报, 2008, 19(5): 513-521
作者姓名:胡婷  孙照渤  张海东
作者单位:1.南京信息工程大学江苏省气象灾害重点实验室, 南京 210044
摘    要:利用1980—2001年TOMS/ NASA逐月气溶胶光学厚度 (AOD) 资料, 通过EOF, Morlet小波分析、趋势分析和突变检验等方法, 研究了我国大气气溶胶380nm光学厚度的时空分布特征和变化趋势。结果表明:全国全年存在两个范围较大、持续时间较长的AOD高值区:南疆盆地和四川盆地; 绝大部分地区春季AOD值最大, 最小值出现的季节则有所不同; 季节差异随纬度增加而减小; AOD变化具有明显的季节性和年际振荡特征; 年平均AOD呈明显增加趋势, 20世纪80年代末90年代初增加趋势有所减弱。

关 键 词:TOMS   380nm气溶胶光学厚度   时空分布
收稿时间:2007-10-10
修稿时间:2008-01-02

Spatial/Temporal Variations and Trends of Aerosol Optical Depth at 380 nm Wavelength in China During 1980-2001
Hu Ting,Sun Zhaobo and Zhang Haidong. Spatial/Temporal Variations and Trends of Aerosol Optical Depth at 380 nm Wavelength in China During 1980-2001[J]. Journal of Applied Meteorological Science, 2008, 19(5): 513-521
Authors:Hu Ting  Sun Zhaobo  Zhang Haidong
Affiliation:1.Jiangsu Key Laboratory of Meteorological Disaster, Nanjing University of Information Science & Technology, Nanjing 2100442.Department of Atmospheric Science, Nanjing University of Information Science & Technology, Nanjing 2100443.National Climate Center, Beijing 100081
Abstract:Study is undertaken of the spatial and temporal distributions and long-term trends of 380 nm Aerosol optical depth (AOD) over China of 1980—2001 TOMS/NASA monthly data which are then treated with techniques such as EOF (empirical orthogonal function), Morlet wavelet transform, Fourier power spectrum, linear trend, Mann-Kendall test (M-K test) and moving t-test. The conclusions as follows are drawn. AOD differs greatly in its meridional distribution all over China. On an annual-mean basis there are two AOD high-value regions covering wide areas and active throughout the whole year, which are the basins in South Xinjiang and Sichuan Basin, together with a short-term high-valued area in South China as well as low AOD covering Northeast China and the Tibetan Plateau. In spring, the northern values are higher in comparison with the southern ones except the high value zone in South China. In summer the southern values are slightly bigger than the northern ones and the reversal happens in winter. AOD in autumn is higher in the north than in the south to the west of 110°N and v.v. to the east. During the research period, the AOD at wavelength of 380 nm varies remarkably with time, thickest during spring in most part of China except the Tibetan Plateau and thinnest in different seasons for regions all over China. Furthermore, variations in seasonal AOD are dominated by significant geographic characteristics, which are of two patterns. The one for summer is a type with the south/west AOD opposite to north/east AOD and the other is a type with no difference in the general tendency throughout the whole country for the other three seasons. Eleven areas (Zone A—K) are selected for regional research of the spatial and temporal variations based on the annual distribution and seasonal EOF analysis of the AOD characteristics. There are five kinds of annual cycles for the AOD in the selected eleven regions. The differences among seasons are decreasing with the latitude and significant in lower latitudes. AOD in target areas and the national means show pronounced intra-seasonal/annual oscillations, as well as significant 1-, 2- and 4-yearly periods. The AOD anomaly of China and regional representatives have been weakened since late 1980s. During 1980—2001 annual-mean AODs experience the linear increasing trends on the national and regional scales, whose increase rates have been slowed down since the period from the late 1980s to the early 1990s, occurring from east to west and from north to south in China, with remarkable inter-annual abrupt changes in North China, i.e., Zone A-F, H and K in this study. Except the decreasing trend in January, most of the regional trends in different study months also have similar linear increasing trends and decreasing shifts. The turning points of seasonal AODs in eleven selected areas also occur during the period from the late 1980s to the early 1990s, especially significant in time series of spring and autumn AODs for the eleven research zones.
Keywords:TOMS
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