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Volume 1 Issue 1
Jun.  2013
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Article Contents
Jiansheng Shi, Hongtao Liu, Zhiyuan Liu, et al. 2013: Application of the “Accurate Control Groundwater Resources” Theory in Containment of Groundwater Resource Exhaustion Trend. Journal of Groundwater Science and Engineering, 1(1): 1-10.
Citation: Jiansheng Shi, Hongtao Liu, Zhiyuan Liu, et al. 2013: Application of the “Accurate Control Groundwater Resources” Theory in Containment of Groundwater Resource Exhaustion Trend. Journal of Groundwater Science and Engineering, 1(1): 1-10.

Application of the “Accurate Control Groundwater Resources” Theory in Containment of Groundwater Resource Exhaustion Trend

Funds:

Support by Major State Basic Research Development Program of China (973 Program) (Grant NO. 2010CB428800)

  • Publish Date: 2013-06-28
  • The continued sustainable economic development of china depends in part, to the scientific management of China’s precious groundwater resources in the coming years. Groundwater resource scarcity is a common underlying problem across China, in addition, the large-scale groundwater exploitation for human consumption over recent decades has resulted in a series of environmental geological problems. As a result of these problems, the national economics in china have been seriously affected. In order to prevent groundwater resource exhaustion and environmental geology deterioration, “accurate control of groundwater resources (ACGR)” theory and its support system were established in this article, and the related prevention measures of the ACGR theory, such as accurate irrigation, accurate supply water, and accurate subsidies, were proposed. This paper highlights the ACGR theory as an efficient and essential way to achieve the sustainable groundwater resource management, which can be applied to countries such as China.
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  • F. Huang, S. Zhang and J. De Leeuw et al. Wetland changes in the middle and lower Wuyuer River, Songnen Plain since the 1970s. Journal of Natural Resources. Vol 21, 949-956, 2006
    F. Schwartz. China faces up to groundwater crisis. Nature, vol 466, 308-319, 2010
    Q. Guo, Y. Wang and T. Ma et al. Variation of karst spring discharge in the recent five decades as an indicator of global climate change: A case study at Shanxi, northern China. Science in China Ser. D Earth Science, vol 48, 2001-2010, 2005
    J. Wang, J. Huang and S. Rozelle et al. Agriculture and groundwater development in northern china: trends, institutional responses, and policy options. Water Policy Supplement, Vol 1, 61-74, 2007
    N. Don, N. Hang and H. Araki et al. Groundwater resources management under environmental constraints in Shiroishi of Saga plain, Japan. Environ Geology, Vol 49, 1223-1232, 2006
    Abbott, G.D, Swain, E.Y, Muhammad, A.B, Allton, K, Belyea, L.R, Laing, C.G, Cowie, G.L. Effect of water table fluctuations on the degradation of Sphagnum phenols in surficial peats. Geochim. et Cosmochim. Acta. Vol 106, 177-191, 2013
    Y. Wang, W. He and M. Cai et al. Evaluation model on environmental benefit water saving agriculture in arid continental river basin of northwest China. Journal of China Agricultural University, Vol 11, 65-70, 2006
    J. Zhao, C. Wang and Z. Jin et al. Seasonal variation in nature and chemical compositions of spring water in Cuihua Mountain, Shaanxi Province, central China. Environ Geol, vol 57, 1753-1760, 2009
    L. Yi, F. Zhang and H. Xu. Land subsidence in Tianjin, China. Environ Earth Sci, Vol 62, 1151-1161, 2011
    L. R Brown. Could food shortages bring down civilization. Scientific American, Vol 300, 50-57, 2009
    WHO. Guideline for drinking water quality, addendum to vol 1, World Health Organization. ISBN 92 4 154696 4, 2006
    Z. Shen, H. Guo and G. Xu et al. Abnormal groundwater chemistry and endemic disease. Chinese Journal of Nature, vol 32, 2010
    R. Ma, J. Shi and J. Liu. FRFI model application in groundwater non-point source pollution evaluation: a case study in the Luoyang Basin of North Henan Province, China. Environ Earth Sci, Vol 68, 45-56, 2013
    S. Feng, Z. Huo and S. Kang et al. Groundwater simulation using a numerical model under different water resources management scenarios in an arid region of China. Environ Earth Sci, Vol 62, 961-971, 2011
    R. Hu, S. Wang and C. Lee et al. Characteristics and trends of land subsidence in Tanggu, Tianjin, China. Bulletin of Engineering Geology and the environment, vol 61, 213-225, 2002
    Y. Gao, H. Wang and L. Han et al. Consciousness of Water Resources Crisis and the Innovation of the Water Resources Management System in Beijing. Resource Science, vol 32, 274-281, 2010
    Y. Li, H. Pang and T. Yu. Evaluation of Agricultural Water Use Efficiency and Regional Irrigation Strategies in China Based on GIS. Paddy and Water Environment, vol 115, 473-481, 2012
    China water resource bulletin. The ministry of water resources of the people’s republic of china. 2011
    X. Liu, X. Ju and F. Zhang et al. Nitrogen dynamics and budgets in a winter wheat-maize cropping system in the North China Plain. Field Crops Research, Vol 83, 114-124, 2003
    K. Nelson, M. Cismaru and R. Cismaru et al. Water management information campaigns and protection motivation theory. International Review on Public and Nonprofit Marketing, vol 8, 163-193, 2011
    Y. Xue. Present Situation and prospect of groundwater numerical simulation in China. Geological Journal of China University. Vol 16, 1-6, 2010
    M. J. Currell, D. Han and Z. Chen et al. Sustainability of groundwater usage in north China: dependence on palaeowaters and effects on water quality, quantity and ecosystem health. Hydrol Process, 2012
    China land resources bulletin. The ministry land and resources of the people’s republic of china. 2011
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