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Volume 4 Issue 1
Mar.  2016
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Article Contents
WANG Shi-qin, SONG Xian-fang, WEI Shou-cai, et al. 2016: Application of HYDRUS-1D in understanding soil water movement at two typical sites in the North China Plain. Journal of Groundwater Science and Engineering, 4(1): 1-11.
Citation: WANG Shi-qin, SONG Xian-fang, WEI Shou-cai, et al. 2016: Application of HYDRUS-1D in understanding soil water movement at two typical sites in the North China Plain. Journal of Groundwater Science and Engineering, 4(1): 1-11.

Application of HYDRUS-1D in understanding soil water movement at two typical sites in the North China Plain

  • Publish Date: 2016-03-28
  • Recharge and discharge, such as rainfall infiltration and evapotranspiration in vertical direction, are major processes of water cycle in the shallow groundwater area of the North China Plain. During these processes, soil water movement in the unsaturated zone plays an important role in the transformation from rainfall infiltration to groundwater. The soil water movement models were developed by using HYDRUS-1D software at two typical experimental sites in Cangzhou (CZ) and Hengshui (HS) with different soil, vegetation and similar climate conditions. As shown in the results, the comparison in precipitation infiltration features between the two sites is distinct. The soil water experiences strong evaporation after precipitation infiltration, which accounts for 63% of the total infiltration at the HS site where the soil is homogenous. It is this strong evaporation effect that leads to slight increase of soil water storage. At the CZ site, where the soil is heterogeneous, the evaporation effect exists from July to October of the simulation period. The total evaporation accounts for 33% of the total infiltration, and the evaporation rate is slow. At the end of the simulation period, the soil water storage increases and the water table decreases, indicating a strong storage capacity at this site.
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  • FANG Sheng, CHEN Xiu-ling, Boers Th M. 2003. Sustainable development of water resources in the east of North China Plain. Groundwater, 25(4): 207-214.
    Lin Dan. 2014. The changes of vadose zone and its impact on groundwater recharge (Published PhD thesis). Wuhan: China University of Geosciences.
    CHEN Bao-gen, WANG Shi-qin, SONG Xian-fang. 2011. Application of 1-D soil water move?ment simulation in research on soil water characteristics: A case of Hengshui experi?mental station. Journal of China Hydrology, 31(3): 64-70.
    WANG Shi-qin. 2009. A study of relationship among precipitation, soil water and ground?water in shallow groundwater area of North China Plain (PhD thesis). Beijing: Graduate University of Chinese Academy of Sciences.
    SONG Xian-fang, WANG Shi-qin, et al. 2009. A study of soil water movement combining soil water potential with stable isotopes at two sites of shallow groundwater areas in North China Plain. Hydrological Processes, 23(9): 1376-1388.
    HUO Si-yuan. 2015. Research on the effect of water table decline on vertical groundwater recharge: a case study in the North China Plain (Published PhD thesis). Wuhan: China University of Geosciences.
    Van Genuchten M T. 1987. A numerical model for water and solute movement in and below the root zone. Riverside: United States Department of Agriculture, Agricultural Research Service US Salinity Laboratory.
    WANG Peng, SONG Xian-fang, et al. 2011. Water flux estimation in SPAC system of farmland using HYDRUS-1D model: A case of Dongcun Farm in Yuncheng City, Shanxi Province. Geographical Research, 30(4): 622-634.
    MA Ying, FENG Shao-yuan, et al. 2010. Modeling water infiltration in a large layered soil column with a modified Green-Ampt model and HYDRUS-1D. Computers and Elec?tronics in Agriculture, 71(S1): 40-S47.
    Heatwole K K, Mccray J E. 2007. Modeling potential vadose-zone transport of nitrogen from onsite wastewater systems at the development scale. Journal of Contaminant Hydrology, 91(1-2): 184-201.
    Feddes R A, Kowalik P, et al. 1976. Simulation of field water uptake by plants using a soil water dependent root extraction function. Journal of Hydrology, 31(1): 13-26.
    Bah A R, Kravchuk O, Kirchhof G. 2009. Sensitivity of drainage to rainfall, vegetation and soil characteristics. Computers and Electronics in Agriculture, 68(1): 1-8.
    Suárez F, Bachmann J, et al. 2007. Transport of simazine in unsaturated sandy soil and predictions of its leaching under hypothetical field conditions. Journal of Contaminant Hydrology, 94(3): 166-177.
    MA Huan, YANG Da-wen, et al. 2011. Application and improvement of Hydrus-1D model for analyzing water cycle in an agricultural field. Transactions of the CSAE, 27(3): 6-12.
    PEI Yuan-sheng, ZHANG Jin-ping. 2006. Study on transformation mechanism of compound water cycle in plain. Journal of Irrigation and Drainage, 25(6): 23-26.
    ZHANG Wei-zhen. 1996. Groundwater and soil water dynamics. Beijing: China Water & Power Press.
    Sutanto S J, Wenninger J, et al. 2012. Partitioning of evaporation into transpiration, soil evaporation and interception: A comparison between isotope measurements and a HYDRUS-1D model. Hydrology and Earth System Sciences, 16(8): 2605-2616.
    LIU Chang-ming, SUN Rui. 1999. Ecological aspects of water cycle: Advances in soil-vegetation-atmosphere of energy and water fluxes. Advances in Water Science, 10(3): 251-259.
    LI Na, REN Li, TANG Ze-jun. 2013. Modeling and analyzing water flow in a thick unsaturated zone during precipitation and infiltration. Transactions of the CSAE, 29(12): 94-100.
    Ogden F L, Lai W, et al. 2015. A new general 1-D vadose zone flow solution method. Water Resources Research, 51(6): 4282-4300.
    LIU Jian-li, XU Shao-hui, LIU Hui. 2004. A review of development in estimating soil water retention characteristics from soil data. Journal of Hydraulic Engineering, (2): 68-76.
    LIU Ya-lei, LIANG Xing, et al. 2013. Soil hydraulic parameters in deep vadose zone based on stable evaporation - a case study in Xinji area. China Rural Water and Hydropower, (10): 27-32.
    Ritzema H P, Kselik R A L, Chanduri F. 1996. Drainage of irrigated lands: Irrigation water management training manual. Rome: Food and Agriculture Organization of the United Nations paper number.
    ?im?nek J, Van Genuchten M T, ?ejna M. 2005. The HYDRUS-1D software package for simulating the one-dimensional movement of water, heat, and multiple solutes in variably- saturated media. Riverside: University of California-Riverside Research Reports.
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