Wen Yupu, Xu Xiaobin, Tang Jie, et al. Enrichment characterristics and origin of atmospheric aerosol elements at Mt. Waliguan. J Appl Meteor Sci, 2001, 12(4): 400-408.
Citation: Wen Yupu, Xu Xiaobin, Tang Jie, et al. Enrichment characterristics and origin of atmospheric aerosol elements at Mt. Waliguan. J Appl Meteor Sci, 2001, 12(4): 400-408.

ENRICHMENT CHARACTERRISTICS AND ORIGIN OF ATMOSPHERIC AEROSOL ELEMENTS AT MT. WALIGUAN

  • Received Date: 2000-06-27
  • Rev Recd Date: 2000-08-30
  • Publish Date: 2001-11-01
  • Samples of atmospheric aerosol were collected at Mt. Waliguan (CGAWBO/GAW). The filter samples were analyzed by NAA (neutron activation analysis), PIXE (proton induced x-ray emission). The concentrations of 42 trace elements combined with the measurements of black carbon were determined. Based on the statistical analysis of element concentrations, enrichment factors and the principal factor analysis, combined with the corresponding back trajectory, the elemental compositions and the sources of aerosol over Waliguan are discussed. The results indicate that the natural sources identified as major contributors to the aerosol over Mt. Waliguan are the soil and crust. The factor analysis shows that the contributing rate of these sources accounts for approximately 70% or more of the aerosol. However, anthropogenic origins, such as coal burning, automobile and industrial emissions form a certain proportion of aerosol. The measurement results of the black carbon at Waliguan indicate that there exist influences from human activities. It is estimated that the pollutants mainly come from the more developed areas in the Qinghai Province and the Hexi Corridor. Both local influences, such as the elements of soil in the adjoining area, and long-range transport of aerosols can affect, in varying degrees, the composition of the background aerosol over Mt Waliguan.

  • [1]
    IPCC.Radiative Forcing of Climate Change 1995.Cambridge University Press, 1996.103~131.
    [2]
    Environment Canada, Atmospheric Environment Service.Canadian Baseline Program Summary of Progress to 1998.Atmospheric Environment Service, Toronto, Ontario, Canada.1999.2-32~33, 2-64~67.
    [3]
    Hopper J F, Barrie L A.Regional and background aerosol trace elemental composition observed in eastern Canada.Tellus, 1988, 40B: 446~462. doi:  10.1111/teb.1988.40B.issue-5
    [4]
    王明星.大气化学 (第二版).北京:气象出版社, 1999.194~214.
    [5]
    汤洁, 温玉璞, 周凌晞等.中国西部大气清洁地区黑碳气溶胶的观测研究.应用气象学报, 1999, 10(2): 161~170. http://qikan.camscma.cn/jams/ch/reader/view_abstract.aspx?file_no=19990255&flag=1
    [6]
    Tang Jie, Wen Yupu, Zhou Xiuji, et al.China global atmosphere watch baseline observatory and its measurement program.CAMS Annual Report 1994-1995, 1996, 59~67.
    [7]
    杨绍晋, 陈冰如, 杨亦男. 中子活化分析在大气环境中的应用. 见:中国科学院高能物理研究所中子活化分析实验室编. 中子活化分析在环境学、生物学和地学中的应用. 北京:原子能出版社, 1992.91~124.
    [8]
    章澄昌, 周文贤.大气气溶胶教程.北京:气象出版社, 1995.50~58.
    [9]
    Mason B.Principles of Geochemistry.New York: John Wiley & Sons, 1966.
    [10]
    徐晓斌, 杨东贞, 温玉璞, 等.北京地区夏季背景气溶胶的特征.气象学报, 1992, 50(3): 308~319. http://www.cnki.com.cn/Article/CJFDTOTAL-QXXB199203005.htm
    [11]
    于崇文.数学地质的方法与应用.北京:地质出版社, 1980.
    [12]
    Bureau of Meteorology and CSIRO Atmospheric Research.Baseline' 96.Baseline Atmospheric Program, Australia, 1996.Published by the Bureau of Meteorology and CSI RO Atmospheric Research, Melbourne.1996.129.
    [13]
    苏维翰, 张秋彭, 宋文质, 等.燃煤地区大气气溶胶烟炱的研究.环境化学, 1985, 专辑 (3月): 134~136.
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    • Received : 2000-06-27
    • Accepted : 2000-08-30
    • Published : 2001-11-01

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