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Volume 4 Issue 3
Sep.  2016
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QI Jian-feng, TIAN Meng-ke, CHI Xiu-cheng, et al. 2016: Research on ground fissure origins and mechanisms in Hebei Plain, P. R. China. Journal of Groundwater Science and Engineering, 4(3): 188-196.
Citation: QI Jian-feng, TIAN Meng-ke, CHI Xiu-cheng, et al. 2016: Research on ground fissure origins and mechanisms in Hebei Plain, P. R. China. Journal of Groundwater Science and Engineering, 4(3): 188-196.

Research on ground fissure origins and mechanisms in Hebei Plain, P. R. China

  • Publish Date: 2016-09-28
  • In order to assess the geological environment impact of a city landfill by the Yangtze River, soils from different depths in the dumpsite were sampled and analyzed. It was found that pollutants content at the site was distinctly higher than that in nearby environments. The content of heavy metals, such as Cd, Hg, As, Pb and Cu, reduces as depth increases; the content of elements F, Cl and N is the contrary. Pollutants migration driven by underground water flow was analyzed, considering the hydro-geological conditions of the site. It is believed that, due to leaching after rainfall infiltration, pollutants in the garbage layer migrates deeper, the cohesive soil in the underlying surface prevents them from spreading to the deeper aquifer; additionally, the high pressure tolerance of the deep groundwater is a key factor in preventing pollutants from entering the aquifer. Furthermore, human control has reduced the annual fluctuation range of water level in nearby rivers, weakening the hydrodynamic relations with phreatic water, and thus reducing the spreading of pollutants to nearby surface waters.
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  • SHI Yu-ling, MEN Yu-ming, et al. 2009. Numerical simulation of reversed ground- fissure cracking and extending in loess. Coal Geology & Exploration, 37(5): 47–50.
    LV Feng-lan, MA Xue-jun, et al. 2014. The distribution and causes of ground fissures on the Hebei plain. Shanghai Land & Resources, 35(4): 49–57.
    YANG Wei-min, ZHANG Yong-shuang, et al. 2014. Formation mechanism and evolution of the Caohe river earth fissure in the Bailou Village of Xushui County. Hydrogeology & Engineering Geology, 41(2): 122–128.
    LIU Ke. 2006. Forming mechanism and prevention countermeasure of the ground fissures in Hengshui City. Geological Survey and Research, 29(1): 76–80.
    ZHANG Shu, ZHANG Cheng-bing, et al. 2007. Distribution and the influencing factors of the geofracture in Cangzhou. South-to-North Water Transfers and Water Science & Technology, 5(3): 91–95.
    LI Jun, LIU Jin-feng, MO Duo-wen. 2003. Distribution and origin of the rifts in Hebei Plain. Research of Soil and Water Conservation, 10(3): 62–65, 116.
    WANG Qing-liang, LIU Yu-hai, et al. 2002. Horizontal strain of aquifer induced by ground water pumping-A new mechanism for ground fissure movement. Journal of Engineering Geology, 10(1): 46–50.
    ZHANG Zhao-ji, FEI Yu-hong, et al. 2009. The sustainable utilization evaluation survey of groundwater in North China Plain. Beijing: Geological Publishing House.
    LUO Zhu-jiang, WANG Yan, et al. 2013. Simulating and forecasting of groundwater exploitation, land subsidence and ground fissure in Cangzhou City. Journal of Hydraulic Engineering, 44(2): 198–204.
    ZHANG Yun, XUE Yu-qun, et al. 2007. Characteristics of aquifer system deformation in the Southern Yangtse Delta, China. Engineering Geology, 90 (3-4): 160–173.
    LIU Jin-feng, SONG Xue-lin. 2001. Discussion on the cause of formation about the ground fracture in Fangjiazhuang. Beijing Geology, 13(4): 30–35.
    MOT. 2015. Beijing Tianjin Hebei coordinated development of transportation integration planning. Ministry of Transport of the People’s Republic of China. Available on http://www.gov.cn/xinwen/2015-12/09/content_5021821.htm.
    WANG Jing-ming, WANG Jiang-shuai, et al. 2000. Theory of ground fissures hazard and its application. Xi’an: Shannxi Science and Technology Press.
    PENG Jian-bing, CHEN Li-wei, et al. 2008. Large-scale physical simulative experiment on ground-fissure expansion mechanism. Chinese Journal of Geophysics, 51(6): 1826– 1834.
    WANG Jing-ming, MA Guang-da. 1990. Rift in the Heibei plain and its harm. Journal of Soil and Water Conservation, 4(4): 61–68.
    JIANG Wa-li, NIE Zong-sheng. 1985. Discussion on the cause of the ground fissures in Handan city, Hebei Province. North China Earthquake Sciences, 3(4): 68–76.
    LIU Jin-feng, XIE Jian, XING Gang. 2005. Relationship between karst water exploitation and ground fissure in the unconsolidated sediment area of Baodi County, Tianjin. Hydrogeology and Engineering Geology, 32(6): 38–41.
    TIAN Ji-sheng. 2004. The formation of ground fracture and its prevention measure. Site Investigation Science and Technology, (1): 56–60.
    YI Xue-fa, SU Gang, WANG Wei-dong. 1999. Research on numerical simulation of Xi’an ground fissure, China. Hydrogeology and Engineering Geology, (5): 33–36.
    JIANG Zhen-wei, PENG Jian-bing, WANG Qi-yao. 2012. Numerical simulation of the effect of preexisting fault on land subsidence and ground fissures during pumping. Journal of Jilin University (Earth Science Edition), 42(4): 1099–1103.
    YUAN Jing, GONG Xiao-nan, et al. 2004. An anisotropic time-dependent trinal-yield- surface model for the stress-strain-time behavior of soft clay. Chinese Journal of Geotechnical Engineering, 26(1): 88–94.
    Holzer T L. 1976. Ground failure in areas of subsidence due to ground-water decline in the United States. Anaheim: International Association of Hydrological Science, 423– 433.
    WANG Xiu-yan, WANG Jin-zhe, et al. 2006. Exploitation of deep ground water with relevant issues of earth fissures at Hengshui area in North China. Advances in Earth Science, 21(4): 417–423.
    LUO Ting, LU De-chun, YAO Yang-ping. 2004. Three-dimensional constitutive model of sand considering stress path, China. Rock and Soil Mechanics, 25(5): 688–693.
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