Aeolian Dust Transportation on Fine Days over the Slopes in Mountainous Areas around the Taklimakan Desert, China(<Special Issue>ADEC-Aeolian Dust Experiment on Climate Impact-)
スポンサーリンク
概要
- 論文の詳細を見る
To observe aeolian dust in high mountainous areas, two sets of automatic weather station including visibility meters have been installed on the slopes of the Tianshan Mountains and the Kunlun Mountains. The two observation sites are at a height of about 2500m above sea level, and those slopes face to the Taklimakan Desert. The aeolian dust climbs the slopes with anabatic wind in daytime. Horizontal mass transportation of dust over the slopes on a fine day was estimated using the data set of visibility and wind speed, and its daily and seasonal variations were analyzed. Before this analysis, visibility was converted to dust concentration via a relationship determined by visibility meter and an optical particle counter in a laboratory. It has been recognized that the mass transportation over the slopes reflects activity of the dust outbreak at the foot areas.
- 社団法人日本気象学会の論文
- 2005-03-31
著者
-
Wei Wenshou
Institute Of Desert Meteorology China Meteorological Administration
-
LIU Mingzhe
Xinjiang Institute of Ecology and Geography, Chinese Academy of Science
-
Liu Mingzhe
Xinjiang Institute Of Ecology And Geography Cas.
-
Liu Mingzhe
Xinjiang Institute Of Ecology And Geography Chinese Academy Of Sciences
-
ABE Osamu
Snow and Ice Research Group, National Research Instiute for Earth Science and Disater Prevention
-
YAMAGUCHI Satoru
Snow and Ice Research Center, National Research Institute for Earth Science and Disaster Prevention
-
KOSUGI Kenji
Snow and Ice Research Group, National Research Institute for Earth Science and Disaster Prevention
-
SATO Takeshi
Snow and Ice Research Group, National Research Institute for Earth Science and Disaster Prevention
-
MOCHIZUKI Shigeto
Snow and Ice Research Group, National Research Institute for Earth Science and Disaster Prevention
-
XU Junrong
Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences
-
Xu Junrong
Xinjiang Institute Of Ecology And Geography Chinese Academy Of Sciences
-
Kosugi Kenji
Snow And Ice Research Group National Research Institute For Earth Science And Disaster Prevention
-
Abe Osamu
Snow And Ice Research Group National Research Institute For Earth Science And Disaster Prevention
-
Mochizuki Shigeto
Snow And Ice Research Group National Research Institute For Earth Science And Disaster Prevention
-
ABE OSAMU
Graduate School of Environmental Studies, Nagoya University
-
Yamaguchi Satoru
Snow And Ice Research Center National Research Institute For Earth Science And Disaster Prevention
-
Yamaguchi Satoru
Snow And Ice Research Group National Research Institute For Earth Science And Disaster Prevention
-
Liu Mingzhe
Xinjiang Inst. Of Ecology Ancl Geography Chinese Acad. Of Sci.s Urumqi
-
Sato Takeshi
Snow And Ice Research Group National Research Institute For Earth Science And Disaster Prevention
関連論文
- Size-Dependent Geochemical Characteristics of Asian Dust : Sr and Nd Isotope Compositions as Tracers for Source Identification(ADEC-Aeolian Dust Experiment on Climate Impact-)
- The Characteristics of Atmospheric Aerosol at Aksu, an Asian Dust-Source Region of North-West China : A Summary of Observations over the Three Years from March 2001 to April 2004(ADEC-Aeolian Dust Experiment on Climate Impact-)
- 中国崑崙山脈のチラ河上流域における局地循環
- 中国の風送ダスト発生域で採取したダスト粒子の粒子物性--日本の和光市で採取した都市型エアロゾルとの比較
- Forecasting Experiments Using the Regional Meteorological Model and the Numerical Snow Cover Model in the Snow Disaster Forecasting System
- Aeolian Dust Transportation on Fine Days over the Slopes in Mountainous Areas around the Taklimakan Desert, China(ADEC-Aeolian Dust Experiment on Climate Impact-)
- Isotopic fractionation of water during snow formation: Experimental evidence of kinetic effect
- Air-Sea Gas Transfer in a Shallow, Flowing and Coastal Environment Estimated by Dissolved Inorganic Carbon and Dissolved Oxygen Analyses
- Estimating of Gas Transfer Velocity Using Triple Isotopes of Dissolved Oxygen