1. Li S-L, Liu C-Q, Li J, Liu X, Chetelat B, Wang B, Wang F, 2010. Assessment of the sources of nitrate in the Changjiang River, China using a nitrogen and oxygen isotopic approach. Environmental Science and Technology, 44: 1573-1578
2. Li S-L, Liu C-Q, Li J, Lang Y-C, Ding H, Li L, 2010. Geochemistry of dissolved inorganic carbon and carbonate weathering in a small typical karstic catchment of Southwest China: Isotopic and chemical constraints. Chemical Geology, 277: 301-309
3. Li S-L, Liu C-Q, Lang Y-C, 2010. Tracing the sources of nitrate in karstic groundwater in Zunyi, Southwest China: a combined nitrogen isotope and water chemistry approach, Environmental Earth Sciences, 60: 1415-1423
4. Li S-L, Liu C-Q, Patra S., et al., 2011, Using a dual isotopic approach to trace sources and mixing of sulphate in Changjiang Estuary, China. Applied Geochemistry, 26: s210-s213.
5. Li S-L, Calmels D, Han G, Gaillardet J, Liu C-Q, 2008. Sulfuric acid as an agent of carbonate weathering constrained by 13CDIC: Examples from Southwest China. Earth and Planetary Science Letters, 170: 189-199
6. Li S-L, Liu C-Q, Lang Y-C, Tao F, Zhao Z, Zhou Z, 2008. Stable carbon isotope biogeochemistry and anthropogenic impacts on karst ground water, Zunyi, Southwest China. Aquatic Geochemistry, 14: 211-221
7. Liu C-Q, Li S-L, Lang Y-C, and Xiao H-Y, 2006. Using 15N and 18O values to identify nitrate sources in karst ground water, Guiyang, Southwest China. Environmental Science and Technology, 40: 6928-6933
8. Li S-L, Liu C-Q, Tao F-X, Lang Y-C, Han G, 2005. Carbon biogeochemistry of ground water, Guiyang, Southwest China. Ground Water,43: 494-499
9. Tao F-X, Liu C-Q, Li S-L, 2009. Source and flux of POC in two subtropical karstic tributaries with contrasting land use practice in the Yangtze River Basin. Applied Geochemistry. 24: 2102-2112
10.Li X-D, Liu C-Q, Harue M, Li S-L, Liu X-L, 2010. The use of environmental isotopic (C, Sr, S) and hydrochemical tracers to characterize anthropogenic effects on karst groundwater quality: A case study of the Shuicheng Basin, SW China. Applied Geochemistry, 25: 1924-1936
11 Lang Y-C, Liu C-Q, Zhao Z-Q, Li S-L, Han G-L, 2006. Geochemistry of surface and ground water in Guiyang, China: Water/rock interaction and pollution in a karst hydrological system. Applied Geochemistry, 21: 887-903
12 Liu C-Q, Lang Y-C, Satake H, Wu J, Li S-L, 2008. Identification of Anthropogenic and Natural Inputs of Sulfate and Chloride into the Karstic Ground Water of Guiyang, SW China: Combined δ37Cl and δ34S Approach. Environmental Science and Technology, 42: 5421-5427
13 Chetelat B, Liu C-Q, Zhao ZQ, Wang QL, Li S-L, Li J, Wang BL, 2008. Geochemistry of the dissolved load of the Changjiang Basin rivers: Anthropogenic impacts and chemical weathering. Geochimica et Cosmochimica Acta, 72: 4254-4277
14.李思亮,刘丛强, 郎赟超,赵志琦,2008. 喀斯特地区城市河流碳、氮同位素特征与人为活动的影响——以贵州省遵义湘江为例,矿物岩石地球化学通报,27(suppl):468-469
15.李思亮,刘丛强,胡健,李军,安宁,2006. 贵阳雨水无机氮沉降的氮,氧同位素特征. 矿物岩石地球化学通报,25(suppl):57-59
16.李思亮,刘丛强,肖化云, 2002. 地表环境氮循环过程中微生物作用及同位素分馏研究综述.地质地球化学, 30(4):40-45 |
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