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Summertime Surface N_2O Concentration Observed on Fildes Peninsula Antarctica:Correlation with Total Atmospheric O_3 and Solar Activity
引用本文:朱仁斌,孙立广,尹雪斌,刘晓东,邢光熹. Summertime Surface N_2O Concentration Observed on Fildes Peninsula Antarctica:Correlation with Total Atmospheric O_3 and Solar Activity[J]. 大气科学进展, 2004, 0(2)
作者姓名:朱仁斌  孙立广  尹雪斌  刘晓东  邢光熹
作者单位:Institute of Polar Environment,University of Science and Technology of China,Hefei 230026,Institute of Polar Environment,University of Science and Technology of China,Hefei 230026,Institute of Polar Environment,University of Science and Technology of China,Hefei 230026,Institute of Polar Environment,University of Science and Technology of China,Hefei 230026,Laboratory of Material Cycling in Pedosphere,Institute of Soil Science,Chinese Academy of Sciences,Nanjing 210008
摘    要:Three-year summertime surface atmospheric N2O concentrations were observed for the first time on the Fildes Peninsula, maritime Antarctica, and the relationships among the N2O concentration, total atmospheric O3 amount, and sunspot number were analyzed. Solar activity had an important effect on surface N2O concentration and total O3 amount, and increases of sunspot number were followed by decreases in the N2O concentration and total O3 amount. A corresponding relationship exists between the N2O concentration and total atmospheric O3, and ozone destruction was preceded by N2O reduction. We propose that the extended solar activity in the Antarctic summer reduces the stratospheric N2O by converting it into NOx, increases the diffusion of N2O from the troposphere to the stratosphere, decreases the surface atmospheric N2O, and depletes O3 via the chemical reaction between O3 and NOx. Our observation results are consistent with the theory of solar activity regarding the formation of the Antarctic O3 hole.


Summertime Surface N_2O Concentration Observed on Fildes Peninsula Antarctica:Correlation with Total Atmospheric O_3 and Solar Activity
ZHU Renbin,SUN Liguang,YIN XuebinLIU Xiaodong,and XING GuangxiInstitute of Polar Environment,University of Science and Technology of China,Hefei Laboratory of Material Cycling in Pedosphere. Summertime Surface N_2O Concentration Observed on Fildes Peninsula Antarctica:Correlation with Total Atmospheric O_3 and Solar Activity[J]. Advances in Atmospheric Sciences, 2004, 0(2)
Authors:ZHU Renbin  SUN Liguang  YIN XuebinLIU Xiaodong  and XING GuangxiInstitute of Polar Environment  University of Science  Technology of China  Hefei Laboratory of Material Cycling in Pedosphere
Affiliation:ZHU Renbin,SUN Liguang,YIN XuebinLIU Xiaodong,and XING GuangxiInstitute of Polar Environment,University of Science and Technology of China,Hefei 230026Laboratory of Material Cycling in Pedosphere,Institute of Soil Science,Chinese Academy of Sciences,Nanjing 210008
Abstract:Three-year summertime surface atmospheric N_2O concentrations were observed for the first time on the Fildes Peninsula, maritime Antarctica, and the relationships among the N2O concentration, total atmospheric O3 amount, and sunspot number were analyzed. Solar activity had an important effect on surface N2O concentration and total O3 amount, and increases of sunspot number were followed by decreases in the N2O concentration and total O3 amount. A corresponding relationship exists between the N2O concentration and total atmospheric O3, and ozone destruction was preceded by N2O reduction. We propose that the extended solar activity in the Antarctic summer reduces the stratospheric N2O by converting it into NOx, increases the diffusion of N2O from the troposphere to the stratosphere, decreases the surface atmospheric N2O, and depletes O3 via the chemical reaction between O3 and NOx. Our observation results are consistent with the theory of solar activity regarding the formation of the Antarctic O3 hole.
Keywords:Fildes Peninsula   Antarctica   nitrous oxide   ozone   sunspot
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