• ISSN 2305-7068
  • Indexed by ESCI CABI CAS
  • DOAJ EBSCO Scopus GeoRef AJ CNKI
Advanced Search
Volume 4 Issue 2
Jun.  2016
Turn off MathJax
Article Contents
LI Jie-biao, SU Rui, YANG Jing-zhi, et al. 2016: Distribution characteristics of tritium in the soil in Beishan area of Gansu Province. Journal of Groundwater Science and Engineering, 4(2): 131-140.
Citation: LI Jie-biao, SU Rui, YANG Jing-zhi, et al. 2016: Distribution characteristics of tritium in the soil in Beishan area of Gansu Province. Journal of Groundwater Science and Engineering, 4(2): 131-140.

Distribution characteristics of tritium in the soil in Beishan area of Gansu Province

  • Publish Date: 2016-06-28
  • Beishan region in Gansu was the preselected area for China’s high-level radioactive waste (HLW) repository. In selecting and evaluating a new dump site, the tritium study is of great significance. The Xinchang-Xiangyangshan preselected area in the Beishan area was taken as an example. This paper selects typical unit and tries to use the distribution characteristics of tritium in the soil to study the atmospheric precipitation infiltration recharge in this area. The results show: In this region, the spatial variability of the tritium content in surface soil is large; it is feasible to use bound tritium tracer method to study the theory of atmospheric precipitation infiltration recharge; the atmospheric precipitation infiltration has close relationship with the soil particle composition, salt content, mineral composition, water content and organic matter content. These results can provide important basis for developing the atmospheric precipitation infiltration recharge, groundwater numerical simulation, nuclide migration study and so on.
  • 加载中
  • Maxwell R M, Tompson A F B, Kollet S. 2009. A serendipitous, long-term infiltration experi-ment: Water and tritium circulation beneath the CAMBRIC trench at the Nevada Test Site. Geosciences, 108(s1-2): 12–28 .
    IAEA. 1998. Hydrogeological investigation of sites for the geological disposal of radioactive waste. Vienna: International Atomic Energy Agency .
    SHI Jian-jun, CHEN Hui. 2002. The migration and distribution of tritium water in Chinese cabbage (Brassica chinensis)–soil ecosystem. Acta Ecologica Sinica, 22(8): 1260–1265 .
    Healy R W. 2010. Estimating groundwater recharge. Cambridge: Cambridge University Press .
    PAN Zi-qiang, QIAN Qi-hu. 2009. Strategic study for high-level radioactive waste geological disposal. Beijing: Atomic Energy Press .
    LI Jie-biao, Su Rui, et al. 2015. Soil permeability of aeration zone in Xinchang- Xiangyangshan–A preselected site for high level radioactive waste disposal. Acta Pedologica Sinica, 52(6): 1412–1421 .
    Dincer T, Al-Mugrin A, Zimmermann U. 1974. Study of the infiltration and recharge through the sand dunes in arid zones with special reference to stable isotopes and thermonuclear tritium. Journal of Hydrology, 23(1): 79–109 .
    WANG Bing-guo, JIN Meng-gui, et al. 2008. Estimating groundwater recharge in Hebei Plain, China under varying land use practices using tritiumand bromide tracers. Journal of Hydrology, 356(1): 209–222 .
    ZHANG Zhi-gan, LIU Fang-zhen, et al. 1990. Study of soil water movement and recharge of rainfall infiltration in aeration zone of loess by measuring natural tritium. Hydrogeology and Engineering Geology, 3: 5–7 .
    WANG Ju, CHEN Wei-ming, et al. 2006. Geological disposal of high-level radioactive waste and its key scientific issues. Chinese Journal of Rock Mechanics and Engineering, 25(4): 801–812 .
    QIU Guo-hua. 2013. Study on the migration of tritium in unsaturated soil in arid area. Beijing: China Institute of Atomic Energy .
    Evenden W G, Sheppard S C, Killey R W D. 1998. Carbon-14 and tritium in plants of a wetland containing contaminated groundwater. Applied Geochemistry, 131(1): 17–21 .
    SHI Jian-jun, WANG Shou-xiang, et al. 2001b. A kinetic model of HTO behavior in the soil-maize system. Acta Agriculturae Nucleatae Sinica, 152: 111–114 .
    WANG Zhi-ming, YANG Yue-e. 2001. Transport characteristics oftritium in unsaturated loess of semi-arid area under natural condition. Atomic Energy Science and Technology, 35(1): 45–50 .
    LIU Jun, CHEN Zong-yu, et al. 2009. Estimation of natural groundwater recharge in the Hutuo river alluvial-proluvialfan using environ-mental tracers. Geological Science and Technology Information, 28(6): 114–118 .
    Bengtsson L, Saxena R K, Dressie Z. 1987. Soil water movement estimated from isotope tracers. Hydrological Sciences Journal, 32(4): 497–520 .
    WANG Shou-xiang, CHEN Chuan-qun, et al. 1994. Transference and distribution of tritium water in a simulated aquatic-terrestrial ecosystem. Acta Ecologica Sinica, 144: 402–407 .
    GUO Yong-hai, WANG Ju, et al. 2008. Groundwater isotope characteristics of the pre-selected site of a high level radioactive waste repository in the Beishan area, Gansu province and their implications. Acta Geoscientica Sinica, 29(6): 735–739 .
    SHI Jian-jun, GUO Jiang-Feng. 2002. The transport at ion and accumulation– disappearance of HTO in the tea soil ecosystem. Acta Scientiae Circumstantiae, 22(2): 166–170 .
    Allison G B, Hughes M W. 1978. The use of environmental chloride and tritium to estimate total recharge to an unconfined aquifer. Soil Research, 16(2): 181–195 .
    Boyer C, Vichot L, et al. 2009. Tritium in plants: A review of current knowledge. Environmental and Experimental Botany, 67(1): 34–51 .
    Koch-Steindl H, Pr?hl G. 2001. Considerations on the behaviour of long-lived radionuclides in the soil. Radiation and Environmental Biophysics, 40(2): 93–104 .
    GUO Yong-hai, WANG Hai-long, et al. 2013. Isotopic study of deep groundwater in Jijicao preselected site for China’s high level radioactive waste disposal reposi?tory. Acta Geologica Sinica, 87(9): 1477–1488 .
    Rangarajan R, Athavale R N. 2000. Annual replenishable groundwater potential of India: An estimate based on injected tritium studies. Journal of Hydrology, 234(1): 38–53 .
    LIN Rui-fei, WEI Ke-qin. 2001. Environmental isotope profiles of the soil water in loess unsaturated zone in semi-arid areas of China. In: Isotope based assessment of groundwater renewal in water scarce regions: Proceedings of a final research coordination meeting. Vienna: IAEA, 101–118 .
    WANG Jin-sheng, GUO Min-li, et al. 2003. Comparison of Migration characteristic of 3H and 99Tc in Loess. Environmental Science, 24(6): 48–53 .
    Diabat S, Strack S. 1993. Organically bound tritium. Health Physics, 65(6): 698–712 .
    Zimmermann U Ehhalt D, Munnich K O. 1967. Soil-water movement and evapo?trans?pi?ration: Changes in the isotopic composition of the water. In: Proceedings of the symposium on Isotopes in Hydrology. Vienna: IAEA .
    SHI Jian-jun, CHEN Chuan-qun, et al. 2001a. The transference and distribution of tritium water in the soybean-soil. Environmental Science, 22(1): 117–119 .
    Kim S B, Baglan N, Davis P A. 2013. Current understanding of organically bound tritium (OBT) in the environment. Journal of Environmental Radioactivity, 126: 83–91 .
  • Relative Articles

    [1] Zhe Wang, Li-juan Wang, Jian-mei Shen, Zhen-long Nie, Le Cao, Ling-qun Meng, 2024: Groundwater recharge via precipitation in the Badain Jaran Desert, China, Journal of Groundwater Science and Engineering, 12, 109-118.  doi: 10.26599/JGSE.2024.9280009
    [2] Xiu-yan Wang, Lin Sun, Shuai-wei Wang, Ming-yu Wang, Jin-qiu Li, Wei-chao Sun, Jing-jing Wang, Xi Zhu, He Di, 2023: Development and application of multi-field coupled high-pressure triaxial apparatus for soil, Journal of Groundwater Science and Engineering, 11, 308-316.  doi: 10.26599/JGSE.2023.9280025
    [3] Parisa Kazerani, Ali Naghi Ziaei, Kamran Davari, 2023: Determining safe yield and mapping water level zoning in groundwater resources of the Neishabour Plain, Journal of Groundwater Science and Engineering, 11, 47-54.  doi: 10.26599/JGSE.2023.9280005
    [4] Vinay Kumar Gautam, Mahesh Kothari, P.K. Singh, S.R. Bhakar, K.K. Yadav, 2022: Analysis of groundwater level trend in Jakham River Basin of Southern Rajasthan, Journal of Groundwater Science and Engineering, 10, 1-9.  doi: 10.19637/j.cnki.2305-7068.2022.01.001
    [5] Hui-feng Yang, Rui-fang Meng, Xi-lin Bao, Wen-geng Cao, Ze-yan Li, Bu-yun Xu, 2022: Assessment of water level threshold for groundwater restoration and over-exploitation remediation the Beijing-Tianjin-Hebei Plain, Journal of Groundwater Science and Engineering, 10, 113-127.  doi: 10.19637/j.cnki.2305-7068.2022.02.002
    [6] Van Viet Luong, 2021: Effects of urbanization on groundwater level in aquifers of Binh Duong Province, Vietnam, Journal of Groundwater Science and Engineering, 9, 20-36.  doi: 10.19637/j.cnki.2305-7068.2021.01.003
    [7] Li-sha MA, Zhan-tao HAN, Yan-yan WANG, 2021: Dispersion performance of nanoparticles in water, Journal of Groundwater Science and Engineering, 9, 37-44.  doi: 10.19637/j.cnki.2305-7068.2021.01.004
    [8] Hong-wei SONG, Fan XIA, Hai-dong MU, Wei-qiang WANG, Ming-sen SHANG, 2020: Study on detecting spatial distribution availability in mine goafs by ultra-high density electrical method, Journal of Groundwater Science and Engineering, 8, 281-286.  doi: 10.19637/j.cnki.2305-7068.2020.03.008
    [9] Nouayti Abderrahime, Khattach Driss, Hilali Mohamed, Nouayti Nordine, 2019: Mapping potential areas for groundwater storage in the High Guir Basin (Morocco):Contribution of remote sensing and geographic information system, Journal of Groundwater Science and Engineering, 7, 309-322.  doi: DOI: 10.19637/j.cnki.2305-7068.2019.04.002
    [10] SONG Ang, LIANG Yue-ming, LI Qiang, 2018: Influence of precipitation on bacterial structure in a typical karst spring, SW China, Journal of Groundwater Science and Engineering, 6, 193-204.  doi: 10.19637/j.cnki.2305-7068.2018.03.005
    [11] MA Luan, WANG Guang-cai, SHI Zhe-ming, GUO Yu-ying, XU Qing-yu, HUANG Xu-juan, 2016: Simulation of groundwater level recovery in abandoned mines, Fengfeng coalfield, China, Journal of Groundwater Science and Engineering, 4, 344-353.
    [12] ZHANG Xiang-yang, CHEN Zong-yu, YANG Guo-min, TU Le-yi, HU Shui-ming, 2016: Krypton-85 dating of shallow aquifer in Hebei Plain, Journal of Groundwater Science and Engineering, 4, 328-332.
    [13] ZHOU Zhi-chao, WANG Ju, SU Rui, GUO Yong-hai, LI Jie-biao, JI Rui-li, ZHANG Ming, DONG Jian-nan, 2016: Study on the residence time of deep groundwater for high-level radioactive waste geological disposal, Journal of Groundwater Science and Engineering, 4, 52-59.
    [14] Ramasamy Jayakumar, 2015: Groundwater level monitoring-importance global groundwater monitoring network, Journal of Groundwater Science and Engineering, 3, 295-305.
    [15] GONG Xiao-ping, JIANG Guang-hui, CHEN Chang-jie, GUO Xiao-jiao, ZHANG Hua-sheng, 2015: Specific yield of phreatic variation zone in karst aquifer with the method of water level analysis, Journal of Groundwater Science and Engineering, 3, 192-201.
    [16] JIA Rui-liang, ZHOU Jin-long, LI Qiao, LI Yang, 2015: Analysis of evaporation of high-salinity phreatic water at a burial depth of 0 m in an arid area, Journal of Groundwater Science and Engineering, 3, 1-8.
    [17] GAO Zong-jun, ZHU Zhen-hui, LIU Xiao-di, XU Yan-lan, 2014: The Formation and Model of High Fluoride Groundwater and In-situ Dispelling Fluoride Assumption in Gaomi City of Shandong Province, Journal of Groundwater Science and Engineering, 2, 34-39.
    [18] HAN Kang-qin, LIU Jian, HAN Lei-lei, HAN Wen-ling, ZHANG Yun-xiao, 2014: Prediction of Impacts Caused by South-to-North Water Diversion on Underground Water Level in Shijiazhuang, Journal of Groundwater Science and Engineering, 2, 27-33.
    [19] Song Bo, Liu Changli, Zhang Yun, Hou Hongbing, Pei Lixin, Yang Liu, 2013: Urban Waste Disposal and Its Impact on Groundwater Pollution in China, Journal of Groundwater Science and Engineering, 1, 88-95.
    [20] Jingli Shao, Yali Cui, Yunzhang Zhao, 2013: A Study on Infiltration and Groundwater Development in the Influent Zone of the Perched Lower Yellow River, Journal of Groundwater Science and Engineering, 1, 46-53.
  • 加载中

Catalog

    Article Metrics

    Article views (648) PDF downloads(1693) Cited by()
    Proportional views
    Related

    JGSE-ScholarOne Manuscript Launched on June 1, 2024.

    Online Submission

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return