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Volume 1 Issue 1
Jun.  2013
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Yan Zhang, Shuai Song, Jing Li, et al. 2013: Stable Isotope Composition of Rainfall, Surface Water and Groundwater along the Yellow River. Journal of Groundwater Science and Engineering, 1(1): 82-88.
Citation: Yan Zhang, Shuai Song, Jing Li, et al. 2013: Stable Isotope Composition of Rainfall, Surface Water and Groundwater along the Yellow River. Journal of Groundwater Science and Engineering, 1(1): 82-88.

Stable Isotope Composition of Rainfall, Surface Water and Groundwater along the Yellow River

  • Publish Date: 2013-06-28
  • The intention of this work is to consider the stable isotopic compositions of oxygen and deuterium in rainfall, surface water and groundwater along the Yellow River in the North China Plain (NCP). This demonstrated that the δ18O values in groundwater varied from –10.17 to –6.85‰, with mean value of –8.76‰, and that the δD ranged from –68.7 to –58.0‰, with mean value of –63.4‰, respectively. The δ18O values in surface water varied from –8.36 to 1.32‰, with mean value of –6.8‰, and δD ranged from –64.4 to –35.1‰, with mean value of –57.6‰, respectively. Further, The range of Cl- values of groundwater varied from 5.9 to 340.5 mg/L and that values ranged from 30.1 to 81.9 mg/L in surface water samples and Na+ value changed from 27.4 to 321 mg/L in groundwater, while that in surface water varied from 24.8 to 50.5 mg/L. Most of the points fall below the GMWL?, but are close to the LMWL.? Therefore the results indicated that the groundwaters along the Yellow River were influenced by rainfall in heavy events and surface water.
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  • Z. Q. Zhang and H. P. Zhang, "Environmental isotope study related to ground water age, flow system and saline water origin in Quaternary aquifer of Hebei plain," Hydrogeology and Engineering Geology, vol. 4, 1987
    G. Zhang, et al., Evolution of groundwater water in Haihe Basin and it countermeasures: Science Press, Beijing, pp 1-331 (in Chinese), 2004
    S. Foster, et al., "Quaternary aquifer of the North China Plain—assessing and achieving groundwater resource sustainability," Hydrogeology Journal, vol. 12, pp. 81-93, 2004
    E. Dotsika, et al., "Spatial distribution of the isotopic composition of precipitation and spring water in Greece," Global and Planetary Change, vol. 71, pp. 141-149, 2010
    J. Stimson, et al., "Isotopic and geochemical evidence of regional-scale anisotropy and interconnectivity of an alluvial fan system, Cochabamba Valley, Bolivia," Applied geochemistry, vol. 16, pp. 1097-1114, 2001
    K. Rozanski, et al., "Isotopic patterns in modern global precipitation," Climate Change in Continental Isotope Records, vol. 78, pp. 1-36, 1993
    C. Kendall and T. B. Coplen, "Distribution of oxygen‐18 and deuterium in river waters across the United States," Hydrological Processes, vol. 15, pp. 1363-1393, 2001
    Y. Yang, et al., "Groundwater-table and recharge changes in the Piedmont region of Taihang Mountain in Gaocheng City and its relation to agricultural water use," Water SA, vol. 28, pp. 171-178, 2004
    Z. Chen, et al., "Isotopes and sustainability of ground water resources, North China Plain," Ground Water, vol. 43, pp. 485-493, 2005
    XWSO, Plan on development and protection of groundwater in Xinxiang: Xinxiang Water-Saving Office, Xinxiang (in Chinese), 2000
    M. G. Sklash, et al., "A conceptual model of watershed response to rainfall, developed through the use of oxygen-18 as a natural tracer," Canadian Journal of Earth Sciences, vol. 13, pp. 271-283, 1976
    G. Pan, Environmental hydrogeology and water resources conservation in Xinxiang Henan Polytechnic University, Jiaozuo (in Chinese), 2006
    C. Zongyu, et al., "Isotopes and sustainability of ground water resources, North China Plain," Ground Water, vol. 43, pp. 485-493, 2005
    J. Hoefs, Stable isotope geochemistry. Berlin, German: Springer Verlag, 2009
    J. Chen, et al., "Spatial geochemical and isotopic characteristics associated with groundwater flow in the North China Plain," Hydrological Processes, vol. 18, pp. 3133-3146, 2004
    M. Bar-Matthews, et al., "The Eastern Mediterranean paleoclimate as a reflection of regional events: Soreq cave, Israel," Earth and Planetary Science Letters, vol. 166, pp. 85-95, 1999
    F. Li, et al., "Recharge source and hydrogeochemical evolution of shallow groundwater in a complex alluvial fan system, southwest of North China Plain," Environmental Geology, vol. 55, pp. 1109-1122, 2008
    J. R. Gat, "Oxygen and hydrogen isotopes in the hydrologic cycle," Annual Review of Earth and Planetary Sciences, vol. 24, pp. 225-262, 1996
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