Monitoring Network of Atmospheric Radon-222 Concentration in East Asia and Backward Trajectory Analysis of Radon-222 Concentration Trend at a Small Solitary Island on Pacific Ocean

DOI Web Site 2 Citations 30 References
  • Ohkura Takehisa
    Japan Atomic Energy Agency, Nuclear Science Research Institute, Department of Radiation protection
  • Yamazawa Hiromi
    Nagoya University, Graduate School of Engineering
  • Moriizumi Jun
    Nagoya University, Graduate School of Engineering
  • Hirao Shigekazu
    Nagoya University, Graduate School of Engineering
  • Guo Qiuju
    Department of Technical Physics, School of Physics, Peking University
  • Tohjima Yasunori
    National Institute for Environmental Studies, Atmospheric Environment Division
  • Iida Takao
    Nagoya University, Graduate School of Engineering

Bibliographic Information

Other Title
  • 東アジア域における大気中<SUP>222</SUP>Rn濃度連続測定ネットワークと洋上の孤島における大気中<SUP>222</SUP>Rn濃度の後方流跡線解析
  • 東アジア域における大気中222Rn濃度連続測定ネットワークと洋上の孤島における大気中222Rn濃度の後方流跡線解析
  • ヒガシアジアイキ ニ オケル タイキチュウ 222Rn ノウド レンゾク ソクテイ ネットワーク ト ヨウジョウ ノ コトウ ニ オケル タイキチュウ 222Rn ノウド ノ コウホウ リュウセキセン カイセキ

Search this article

Abstract

A monitoring network of atmospheric 222Rn concentration as a tracer for long-range transport in East Asia was established. Atmospheric 222Rn concentration at Beijing, which is located on China Continent was 10- 20Bq m-3, at Nagoya, which is located on edge of terrestrial area was 3- 10 Bq m-3 and at Hachijo-jima and Hateruma-jima, which are solitary islands in Pacific Ocean was 0.5- 3 Bq m-3, respectively. The atmospheric 222Rn concentration variations were different from sites. The 222Rn concentration was the lowest in the summer and the highest in the winter except Nagoya where the highest was observed in the autumn and the lowest in the spring. Diurnal variations were measured at Beijing and Nagoya. In contrast, diurnal variations were not measured but several-day-cycle variations were measured at Hachijo-jima and Hateruma-jima.<BR>It was pointed out by this study that the several-day-cycle variations at Hachijo-jima were dependent on synoptic-scale atmospheric disturbance. 222Rn concentration increased rapidly after a cold front passed through Hachijo-jima. Backward trajectory analysis of the relationship between atmospheric 222Rn concentrations at Hachijo-jima and transport pathway of air mass indicates that air mass transported from China and Siberia has high concentration 222Rn and air mass transported from Pacific Ocean has low concentration 222Rn. In winter, atmospheric 222Rn concentrations at Hachijo-jima is dependent on vertical transport pathway rather than horizontal transport pathway.

Journal

Citations (2)*help

See more

References(30)*help

See more

Related Projects

See more

Keywords

Details 詳細情報について

Report a problem

Back to top