[1] Liu Congqiang,Li Siliang,Lang Yunchao,et al. Using δ15N-and δ18O-Values to identify nitrate sources in karst ground water,Guiyang,Southwest China [J]. Environmetal Science & Technology,2006,40(22): 6 928-6 933.
[2] Lang Yunchao,Liu Congqiang,Zhao Zhiqi,et al. Geochemistry of surface and ground water in Guiyang City,China: Water/rock interaction and pollution in a karst hydrological system [J]. Applied Geochemistry,2006,21: 887-903.
[3] Li Siliang,Liu Congqiang,Tao Faxiang,et al.δ13CDIC as a tracer to monitor pollution and ecological changes in ground water [J].Ground Water,2005,43(4): 494-499.
[4] Lang Yunchao,Liu Congqiang,Han Guilin,et al. Characterization of water-rock interaction and pollution of karstic hydrological system: A study on water chemistry and Sr isotope of surface/ground water of the Guiyang area [J]. Quaternary Sciences,2005a,25(5): 655-662.[郎赟超,刘丛强,韩贵琳,等.喀斯特水文系统水—岩反应及污染特征: 贵阳市区地表/地下水化学与锶同位素研究[J]. 第四纪研究,2005a,25(5): 655-662.]
[5] Lang Yunchao,Liu Congqiang,Zhao Zhiqi,et al. Chemical compositions of surface and ground waters of Guiyang city: Discussion of water-rock interaction and contamination in karstic hydrological system [J]. Advances in Water Science,2005b,16(6): 826-832.[郎赟超,刘丛强,赵志琦,等. 贵阳市地表/地下水化学组成: 喀斯特水文系统水—岩反应及污染特征[J]. 水科学进展,2005b,16(6): 826-832.]
[6] Li Siliang,Liu Congqiang,Xiao Huayun,et al. Using δ15N to assess groundwater nitrogen pollution in Guiyang [J]. Geochimica,2005,34(3): 257-262.[李思亮,刘丛强,肖化云,等. δ15N在贵阳地下水氮污染来源和转化过程中的辨识应用[J].地球化学,2005,34(3): 257-262.]
[7] Li Siliang,Liu Congqiang,Tao Faxiang,et al. Chemical and stable carbon isotopic compositions of the ground waters of Guiyang city, China: Implications for biogeochemical cycle of carbon and contamination [J]. Geochimica,2004,33(2): 165-170.[李思亮,刘丛强,陶发祥,等. 碳同位素和水化学在示踪贵阳地下水碳的生物地球化学循环及污染中的应用[J]. 地球化学,2004,33(2): 165-170.]
[8] Dowuona G N,Mermut A R,Krouse H R. Stable isotope geochemistry of sulfate in relation to hydrogeology in souther Saskatchewan,Canada [J]. Applied Geochemistry,1993,8: 255-263.
[9] Barth S R. Geochemical and boron,oxygen and hydrogen isotopic constraints on the origin of salinity in groundwaters from the crystalline basement of the Alpine Foreland [J]. Applied Geochemistry,2000,15: 937-952.
[10] Dogramaci S S,Herczeg A L,Schiff S L,et al. Control on δ34S and δ18O of dissolved sulfate in aquifers of the Murray Basin,Australia and their use as indicators of flow processes [J]. Applied Geochemistry,2001,16: 475-488.
[11] Kirste D,Caritat P de,Dann R. The application of the stable isotopes of sulfur and oxygen in groundwater sulfate to mineral exploration in the Broken Hill region of Australia [J]. Journal of Geochemical exploration,2003,(78-79):81-84.
[12] Kaufmann R S,Long A,Bentley H,et al. Natural chlorine isotope variations [J].Nature,1984, 309: 338-340.
[13] Kaufmann R S,Frape S K,MaNutt R,et al. Chlorine stable isotope distribution of Michigan Basin formation waters [J]. Applied Geochemistry,1993,8: 403-407.
[14] Xiao Yingkai,Liu Weiguo,Zhou Y M,et al. Isotopic compositions of chlorine in brine and saline minerals [J]. Chinese Science Bulletin,1997,42(5): 406-409.
[15] Jendrzejewski N,Eggenkamp H G M,Coleman M L. Characterisation of chlorinated hydrocarbons from chlorine and carbon isotopic compositions: Scope of application to environmental problems [J]. Applied Geochemistry,2001,16: 1 021-1 031.
[16] Sie P M J,Frape S K. Evaluation of the groundwaters from the Stripa mine using stable chlorine isotopes [J]. Chemical Geology,2002,182: 565-582.
[17] Numata M,Nakamura N,Koshikawa H,et al. Chlorine stable isotope measurements of chlorinated aliphatic hydrocarbons by thermal ionization mass spectrometry [J]. Analytica Chimica Acta,2002,455: 1-9.
[18] Edmunds W M,Guendouz A H,Mamou A,et al. Groundwater evolution in the Continental Intercalaire aquifer of southern Algeria and Tunisia: Trace element and isotopic indicators [J]. Applied Geochemistry,2003,18: 805-822.
[19] Shouakar-Stash O,Frape S K,Drimmie R J. Stable hydrogen,carbon and chlorine isotope measurements of selected chlorinated organic solvents [J]. Contaminant Hydrology,2003,60: 211-228.
[20] Wu J H,Satake H. Measurement of Chlorine Stable Isotope Ratios by Methyl Chloride-IRMS method [J]. Geochemica et Cosmochimica Acta,2003,67(18S): A537.
[21] Wu J H,Satake H. Purificaton of CH3Cl from CH3I using cold trap with sealed 2,2,4-trimethylpentanefor δ37Cl measurement [J]. Analytica Chimica Acta,2006,555: 41-46.
[22] Zhao Yonggui,Cai Zuhuang. A Study of Karstic Ground Water System,Taiyuan,Shanxi,China [M]. Beijing: Science Press,1990:1-229.[赵永贵,蔡祖煌. 岩溶地下水系统的研究——以太原地区为例[M]. 北京: 科学出版社,1990: 1-229.]
[23] Macpherson G L. Hydrogeology of thin limestones-the Konza Prairie LTER Site [J]. Journal of Hydrology,1996,186: 191-228.
[24] Montoroi J P,Grünberger O,Nasri S. Groundwater geochemistry of a small reservoir catchment in Central Tunisia [J]. Applied Geochemistry,2002,17: 1 047-1 060.
[25] Han Guilin,Liu Congqiang. Water geochemistry controlled by carbonate dissolution: A study of the river waters draining karst-dominated terrain,Guizhou Province,China [J]. Chemistry Geology,2004,204: 1-21.
[26] Han Zhijun,Jin Zhansheng. Hydrology of Guizhou Province,China [M]. Beijing: Seismological Press,1996: 1-508.[韩至钧,金占省. 贵州省水文地质志[M]. 北京: 地震出版社,1996:1-508.]
[27] Ni Jianyu,Hong Yetang. Sulfur isotopic composition of late Permian coal from Guizhou province [J]. Geology-geochemistry,1999,27(2):63-69.[倪建宇,洪业汤. 贵州晚二叠世煤中硫同位素的组成特征[J].地质地球化学,1999,27(2):63-69.]
[28] Zheng Yongfei,Chen Jiangfeng. Stable Isotope Geochemistry [M]. Beijing: Science Press,2000: 1-316.[ 郑永飞,陈江峰. 稳定同位素地球化学[M]. 北京: 科学出版社,2000: 1-316.]
[29] Zhang Guoping,Liu Congqiang,Yang Yuangen,et al. Characterization of heavy metals and sulphur isotope in water and sediments of a mine-tailing area rich in carbonate [J]. Water Air and Soil Pollution,2004,155: 51-62.
[30] Hoefs J. Stable Isotope Geochemistry( 5th edition) [M]. Berlin: Springer,2004: 1-340.
[31] Sun Aide,Xiao Yingkai,Wang Qingzhong,et al. The separation and stable isotopic measurement of chlorine in low-concentration liquid sample [J]. Chinese Journal of Analytical Chemistry,2004,10(32): 1 362-1 364.[孙爱德,肖应凯,王庆忠,等. 水样中低含量氯的分离与同位素质谱法测定[J]. 分析化学,2004,10(32): 1 362-1 364.]
[32] Négrel P,Roy S. Chemistry of rainwater in the Massif Central (France): A strontium isotope and major element study [J]. Applied Geochemistry,1998,13: 941-952.
[33] Li X D,Masuda H,Kusakabe M,et al. Sulfur and nitrogen pollution of ground water and those origins in the Sichuan Basin,China [C]∥52nd Annual Meeting of the Geochemical Society of Japan. Okinawa,2005.
[34] Liu Guangshen,Hong Yetang,Piao Hechun,et al. The sulfur isotopic compositional characteristics of atmospheric particulates from near the ground in the urban and suburban areas of guiyang city [J].Acta Mineralogical Sinica,1996,16(4): 353-357.[ 刘广深,洪业汤,朴河春,等. 贵阳城郊近地面大气颗粒物的硫同位素组成特征[J]. 矿物学报,1996,16(4): 353-357. |