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Atmospheric Pb variations in Central Asia since 1955 from Muztagata ice core record, eastern Pamirs 总被引:3,自引:0,他引:3
LI Zhen YAO Tandong TIAN Lide XU Baiqing LI Yuefang 《科学通报(英文版)》2006,51(16):1996-2000
Measurements of Pb in the well-preserved and dated snow and ice layers in glaciers can be used to recon- struct the past changes of atmospheric lead concentra- tions and to determine the trends of atmospheric pollu- tion. The lead data obtained from Greenland ice cap revealed severe air pollution in the Northern Hemi- sphere over the past three millennia. This lead pollution started from as early as Rome times[1], and increased remarkably from the Industrial Revolution to the end of the 1960… 相似文献
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Based on the oxygen isotope ratio and microparticle record in ice cores recovered at Mt. Muztagata, Eastern Pamirs, the seasonal variations of atmospheric dust have been reconstructed for the past four decades. High dust concentrations and coarser particle grains have the similar trend with oxygen isotope value. Our statistical results indicate that 50%--60% high dust concentration samples occur during the season with high oxygen isotope values (summer), while low dust storm frequency during spring and winter. Back-trajectory analysis shows that the air mass hitting Muztagata predominately came from West Asia (such as Iran-Afghanistan Plateau) and Central Asia, which are the main dust source area for Muztagata. Dust storms in those source areas most frequently occur during summer (from May to August), while frequent dust storm events in northern China mainly occur during spring (March to May). Regions in the path of Asian dust transport, such as in Japan, the North Pacific, and Greenland, also show high dust concentrations during spring (from March to May). Our results indicate that dust storms have different seasonality in different regions within Asia. 相似文献
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WANG Junxia YAO Tandong XU Baiqing WU Guangjian & XIANG Shurong .Key Laboratory of Ice Core Cold Regions Environment Cold Arid Regions Environmental Engineering Research Institute Chinese Academy of Sciences Lanzhou China .Institute of Tibetan Plateau Research Chinese Academy of Sciences Beijing China Correspondence should be addressed to Wang Junxia 《科学通报(英文版)》2004,49(15):1620-1624
Formic and acetic acids (HCOOH, CH3COOH), originating mainly from biosphere (release by plants, combustion of biomass, motor exhaust and oxidation of organism, etc.), are two simple organic chemical com- pounds in troposphere. Though the concentration of these two organic acids is low in atmosphere, they are the main [1] sources of free acidity in precipitation of remote regions , and contribute minor chemical constituents to the balance between anions and cations, especially to some atm… 相似文献
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As a major alkaline gas in the atmosphere, ammonia (NH3) plays an important role in atmospheric chemistry. However, there is little knowledge about NH3 variations in the Central Asia. Here we analyzed the ammonium (NH4^+) history recorded in an ice core from the East Pamir in Central Asia, which was drilled on the Mt. Muztagata at the elevation of 7010 m a.s.I, in 2003. The core was carefully dated and NH; concentration history during 1907-2002 was reconstructed. The result shows that NH; concentration remained approximately constant until the 1930s after a sudden decrease at the very beginning of the 20th century, followed by a minimum in 1940 before increasing steadily to the peak at the end of 1990s. It is found that the annual mean NH4^+ concentration was strongly associated with the Northern Hemisphere temperature, suggesting the impact of temperature on NH3 emissions in the Central Asia. Moreover, an increase of NH4^+ concentration after 1940 also reflects the enhancement of NH3 emissions from anthropogenic sources such as fertilizer applications and livestock wastes in the 20th century. 相似文献
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TIAN LiDe YAO TanDong WU GuangJian LI Zhen XU BaiQing LI YueFang 《科学通报(英文版)》2007,52(10):1436-1439
The total activity variation with depth from a 41.6 m Muztagata ice core drilled at 7010 m, recorded not only the 1963 radioactive layer due to the thermonuclear test, but also clearly the radioactive peak released by the Chernobyl accident in 1986. This finding indicates that the Chernobyl nuclear accident was clearly recorded in alpine glaciers in the Pamirs of west China, and the layer can be potentially used for ice core dating in other high alpine glaciers in the surrounding regions. 相似文献
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