[1]LI Hui,JIANG Zhong-cheng,WANG Yue,et al.Variation Characteristics of Stable Isotopes in the Precipitation of Xinjiang[J].Research of Soil and Water Conservation,2009,16(05):157-161.
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Variation Characteristics of Stable Isotopes in the Precipitation of Xinjiang

References:
[1] Bosilovich M G,Schubert S D.Water vapor tracers as diagnostics of the regional hydrologic cycle[J].Journal of Hydrometeorology,2002,3:149-165.
[2] Koster R D,Jouzel J,Suozzo R,et al.Global sources of local precipitation as determined by the NASS/GISS GCM[J].Geophysical Research Letters,1986,13:121-124.
[3] Numaguti A.Origin and recycling processes of precipitating water over the Eurasian continent:Experiments using an atmospheric general circulation model[J].Journal of Geophysical Research,1999,104:1957-1972.
[4] Dansgaard W.Stable isotopes in precipitation[J].Tellus,1964,16:436-468.
[5] Merlivat L,Jouzel J.Global climate interpretation of the deuterium-oxygen 18 relationship for precipitation[J].Journal of Geophysical Research,1979,84:5029-5033.
[6] Jouzel J,Merlivat L.Deuterium and oxygen-18 in precipitation:modeling of the isotope effects during snow formation.[J] Journal of Geophysical Research,1984,89(D7):11749-11757.
[7] Gat J R,Matsui E.Atmospheric water balance in the Amazon basin:An isotopic evapotranspiration model[J].Journal of Geophysical Research,1991,96:13179-13188.
[8] Petit J R,White J W C,Young N W,et al.Deuterium excess in recent Antarctic snow[J].Journal of Geophysical Research,1991,96(D3):5113-5122.
[9] Qin D H,Petit J R,Jouzel J,et al.Distribution of stable isotopes in surface snow along the route of the 1990 International Trans-Antarctic Expedition[J].Journal of Glaciology,1994,40:107-118.
[10] Kondoh A,Shimada J.The origin of precipitation in eastern Asia by deuterium excess[J].Journal of Japan Society of Hydrology & Water Resources,1997,10(6):627-629.
[11] Pang H X,He Y Q,Zhang Z L,et al.The origin of summer monsoon rainfall at New Delhi by deuterium excess[J].Hydrology and Earth System Sciences,2004,8(1):115-118.
[12] 章申,于维新,张青莲.我国西藏南部珠穆朗玛峰地区冰雪中氘和重氧的分布[J].中国科学,1973(4):430-433.
[13] 林瑞芬,卫克勤.北京及上海降水的同位素组成.中国科学院地理化学研究所年报(1980-1981)[M].贵阳:贵州人民出版社,1982:39-41.
[14] 卫克勤,林瑞芬,王志祥.北京地区降水中的氘、氧-18、氚含量[J].中国科学(B辑),1982(8):754-757.
[15] 郑淑慧,侯发高,倪葆龄.我国大气降水的氢氧稳定同位素的研究[J].科学通报,1983(13):801-806.
[16] 于津生,虞福平,刘德平.中国东部大气降水中氢氧同位素组成[J].地球化学,1987,16(1):22-26.
[17] 卫克勤,林瑞芬.论季风气候对我国雨水同位素组成的影响[J].地球化学,1994,23(1):33-41.
[18] Zhang X P,Nakawo M,Fujita K,et al.The variation of precipitation δ18O in Langtang Valley,Himalayas[J].Science in China,Ser D,2001,31(3):206-213.
[19] Tian L D,Yao T D,Numaguti A,et al.Relation between stable isotope in monsoon precipitation in southern Tibetan Plateau and moisture transport history[J].Science in China(D),2001,44 (S1):267-274.
[20] 章新平,中尾正义,姚檀栋,等.青藏高原及其毗邻地区降水稳定同位素成分的时空变化[J].中国科学(D辑),2001,31(5):353-361.
[21] Tian L D,Yao T D,Schuste P F,et al.Oxygen-18 concentrations in recent precipitation and ice cores on the Tibetan Plateau.Journal of Geophysical Research[J].2003,108(D9):4293-4302.
[22] 丁悌平.氢氧同位素地球化学[M].北京:地质出版社,1980.61-65.
[23] Craig H.Isotopic variations in meteoric waters[J].Science,1961,133:1 702-1703.
[24] Yurtsever Y.Worldwide survey of stable isotopes in precipitation[M].International Report-Vienna:IAEA,1975.
[25] Schotterer U,Frohlich K,Gaggeler H W,et al.Isotope records from Mongolian and alpine ice cores as climate indicators[J].Climatic Change,1997,36:519-530.
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