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Volume 1 Issue 2
Sep.  2013
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Cheng Yanpei, Ma Renhui. 2013: Analysis of Water Resource Demands: Based on the Hydrological Unit. Journal of Groundwater Science and Engineering, 1(2): 48-59.
Citation: Cheng Yanpei, Ma Renhui. 2013: Analysis of Water Resource Demands: Based on the Hydrological Unit. Journal of Groundwater Science and Engineering, 1(2): 48-59.

Analysis of Water Resource Demands: Based on the Hydrological Unit

  • Publish Date: 2013-09-28
  • It is important to take into account land use when considering water resource demands. The Hydrological unit is defined as the assimilation of land use and soil properties into a lumped element, spatially separate area which exhibits a typical hydrological reaction. Using physically based equations, water balance can be calculated and compared for different hydrological units and thus water resources can be assessed. The Huanghua City in Hebei province is taken as an example to analyze the hydrological elements of water resources supply and demand for different land use types. Huanghua City is located in the alluvial plains, which is flat, and geologically uniform. The altitude is generally in 2.5-5m above sea level. The geomorphology consists of an ancient river course, depressions, shallow depressions, ancient shell dikes and lagoons, typical characteristics of a coastal plain.
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  • Beven K J. Distributed Hydrological Modeling: Application of the Topmodel Concept [C]. New York: Jonh Wiley & SonsLimited, 1997
    Zhao Qi, Chen Shu-guang, Ye Xin-hua. Practice and Reflection on High-standard Farmland Con?struction [J]. Research in A Griculture Deve?lopment, 2009, (3): 17-20. (in Chinese)
    Liu Ming, Wang Ke-lin. Analysis on Hydrological Responses to Changes of Landscape Patterns in the Middle and Upper Reaches of Dongting Lake Watershed [J]. Acta Ecologica Sinica, 2008, 28(12):5970- 5979. (in Chinese)
    Cheng Yan-pei, Gao Ji-ping, Wang Bin, et al. Supply and Demand Analysis on Agricultural Groundwater Resources Based on Unit Pixel Scale in the Heilonggang River Basin [J]. South-to-North Water Transfers and Water Science & Technolog, 2012, 10(4): 121-126. (in Chinese)
    Zhang Li-ping, Chen Xiao-feng, Zhang Xiao-lin, et al. A Compare Application Research of VIC Model and SWAT Model in The Mid-Small Valley Flow Simulation [J]. Resources and Environment in the Yangtze Basin, 2009, 18(8): 745-752. (in Chinese)
    Chen Mengxiong & Ma Fengshan. China hydro-geology resources and environment [M]. Beijing: Seismological Press, 2002
    Li Chong-wei, Liu Shi-rong, Sun Peng-sen. Analysis on Landscape Pattern and Eco- hydrological Characteristics at the Upstream of Minjiang River [J]. Acta Ecologica Sinica, 2005, 25( 4) : 691- 698. (in Chinese))
    Zhang Xu, Jiang Wei-guo, Zhou Ting-gang. Hydro?logical Response Unit Division for Dongting Lake Based on DEM and GIS [J]. Geography and Geo-Information Science, 2009,25(4): 17-21. (in Chinese)
    China Geology Survey. Handbook of hydro?geology [M]. 2nd edition. Beijing: Geological Publishing House, 2012
    Ye Shou-ze, Zhan Dao-jiang. Engineering Hydrology (The Third Edition) [M]. BeiJing: China WaterPower Press, 2000. (in Chinese)
    Tarboton D G, Bras R L, Rodriguez I I. On the Extraction of Channel Network from Digital Elevation Data [J]. Hydrological Processes, 1991(5): 81-100
    Long Hai-feng, Xiong Li-hua, Wan Min. Application of DEM-based Distributed Hydrological Model in QingJiang River Basin [J]. Resources and Environment in the Yangtze Basin, 2012, 21(1): 71-78. (in Chinese)
    Wan Min, Xiong Li-hua, WEI Xiao-jing. Review of the Preprocessing Methods of Digital Elevation Models [J]. Journal of China Hydrology, 2008, 28(5): 11-17. (in Chinese)
    Li Xiang-xi, Yin Zhong-dong, He Chang-gao. Review on the Study of Land Potential Pro-ductivity [J]. Journal of Soil and Water Con-servation, 2001, 15(5): 33-36. (in Chinese)
    Shu Dong-cai, Cheng Gen-wei, LIN San-yi. Spatial Discretization of Digital Watershed Based on DEM for the Upper Reach of Minjiang River[J]. Journal of SiChuan University (Engineering Science Edition), 2004, 36(6):6-11. (in Chinese)
    Institute of Hydrogeology and Engineering Geo-logy Techniques, MGMR. Handbook of hy?dro-geology [M]. Beijing: Geological Pub?lish?ing House, 1983
    Sun Shu-zhen. Study on the Water Resources Situation and Utilization in Huanghua City [J]. South-to-North Water Transfers and Water Science & Technolog, 2012, 10(1): 54-56. (in Chinese)
    Srinivasan R A, Mold J G. Integration of a Basin Scale Water Quality Model with GIS[J]. Water Resources Bulletin,1994, 30( 3) : 452- 460
    Jenson S K. Application of Hydrologic Iinformation Automatically Extracted from Digital Elevation models [J]. Hydrological Processes, 1991(5): 31- 44
    Tong Yuanqing & Wang Xiuming. On handbook of hydrogeology [J]. Management and Research on Scientific & Technological Achievements. 2013, 8: 1-2
    Liu Cheng-lin. Issues of Water Resource and Countermeasure for Heilonggang Region during New Period[J]. Geography and Geo- Information Science, 2007, 23(3): 109-112. (in Chinese)
    Liu Jian, Zhang Qi. Verification of A New Distributed Hydrologic Model in GanJiang River Catchment, Poyang Lake Watershed [J]. Resources and Environment in the Yangtze Basin, 2009, 18(1): 19-26. (in Chinese)
    Martz L W, Garbrech T J. The Treatment of at Areas and Depressions in Automated Drainage Analysis of Raster Digital Elevation Models [J]. Hydrological Processes, 1998, 12: 843- 855
    Martz L W, Garbrech T J. An Outletb Reaching Algorithm for the Treatment of Closed Depressions in a Raster DEM [J].Computers & Geosciences, 1999, 25: 835- 844
    Xiong Li-hua, Guo Sheng-lian, Tian Xiang-rong. DEM-based Distributed Hydrological Model and Its Application [J]. Advances in Water Science, 2004, 15(4): 517-520. (in Chinese)
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