Advanced search
Publication Cover
Human and Ecological Risk Assessment: An International Journal Volume 23, 2017 - Issue 5
Submit an article Journal homepage
192
Views
6
CrossRef citations to date
0
Altmetric
Original Articles

Responses of groundwater vulnerability to groundwater extraction reduction in the Hun River Basin, northeastern China

Xiaosi SuKey Laboratory of Groundwater Resources and Environment, Ministry of Education, Jilin University, Changchun, China;Institute of Water Resources and Environment, Jilin University, Changchun, China
,
Wenzhen YuanKey Laboratory of Groundwater Resources and Environment, Ministry of Education, Jilin University, Changchun, China;Institute of Water Resources and Environment, Jilin University, Changchun, China
,
Shanghai DuKey Laboratory of Groundwater Resources and Environment, Ministry of Education, Jilin University, Changchun, China;Institute of Water Resources and Environment, Jilin University, Changchun, ChinaCorrespondence[email protected]
,
Geng CuiKey Laboratory of Groundwater Resources and Environment, Ministry of Education, Jilin University, Changchun, China;Institute of Water Resources and Environment, Jilin University, Changchun, China
,
Jing BaiKey Laboratory of Groundwater Resources and Environment, Ministry of Education, Jilin University, Changchun, China;Institute of Water Resources and Environment, Jilin University, Changchun, China
&
Shouying DuLiaoning Huanyu Mining Constulting Corporation, Shenyang, China
Pages 1121-1139 | Received 04 Feb 2017, Accepted 26 Feb 2017, Published online: 10 May 2017

References

  • Aller L, Lehr JH, and Petty R. 1987. Drastic–a standardized system to evaluate groundwater pollution potential using hydrogeologic setting. J Geol Soc India 29:23–37
  • Baalousha H. 2006. Vulnerability assessment for the Gaza Strip, Palestine using DRASTIC. Environ Geol 50:405–14
  • Bai LP, Wang YY, and Meng FS. 2012. Application of DRASTIC and extension theory in the groundwater vulnerability evaluation. Water Environ J 26:381–91
  • Barbash JE and Resek EA. 1996. Pesticides in Ground Water: Distribution, Trends, and Governing Factors, vol. 2, p 590. Ann Arbor Press, Chelsea, MI, Pesticides in the Hydrologic System Series
  • Basil TIO and Shu LC. 2007. Groundwater overdraft vulnerability and environmental impact assessment in Arusha. Environ Geol 51:1171–6
  • Bouwer H. 2002. Artificial recharge of groundwater: hydrogeology and engineering. Hydrogeol J 10:121–42
  • Campos-Gaytan JR, Kretzschmar T, and Herrera-Oliva CS. 2014. Future groundwater extraction scenarios for an aquifer in a semiarid environment: case study of Guadalupe Valley Aquifer, Baja California, Northwest Mexico. Environ Monit Assess 186:7961–85
  • Currell MJ, Han DM, Chen ZY, et al. 2012. Sustainability of groundwater usage in northern China: dependence on palaeowaters and effects on water quality, quantity and ecosystem health. Hydrol Processes 26:4050–66
  • Custodio E. 2002. Aquifer overexploitation: what does it mean? Hydrogeol J 10:254–77
  • Du SH. 2012. Groundwater quality variation affected by artificial recharge in Hutuo River bed. Appl Mech Mater 170:2158–61
  • Du SH, Su XS, and Zhang WJ. 2013. Effective storage rates analysis of groundwater reservoir with surplus local and transferred water used in Shijiazhuang City, China. Water Environ J 27:157–69
  • Fishman RM, Siegfried T, Raj P, et al. 2011. Over-extraction from shallow bedrock versus deep alluvial aquifers: Reliability versus sustainability considerations for India's groundwater irrigation. Water Resour Res 47:W00L05
  • Galloway DL and Burbey TJ. 2011. Review: Regional land subsidence accompanying groundwater extraction. Hydrogeol J 19:1459–86
  • Gorelick SM and Zheng CM. 2015. Global change and the groundwater management challenge. Water Resour Res 51:3031–51
  • Griebler C, Malard F, and Lefebure T. 2014. Current developments in groundwater ecology: from biodiversity to ecosystem function and services. Curr Opin Biotechnol 27:159–67
  • Huan H, Wang JS, and Teng YG. 2012. Assessment and validation of groundwater vulnerability to nitrate based on a modified DRASTIC model: A case study in Jilin City of northeast China. Sci Total Environ 440:14–23
  • Iqbal J, Gorai AK, Poonam T, et al. 2012. Approaches to groundwater vulnerability to pollution: A literature review. Asian J Water Environ Pollut 9:105–15
  • Jafari F, Javadi S, Golmohammadi G, et al. 2016. Numerical simulation of groundwater flow and aquifer-system compaction using simulation and InSAR technique: Saveh basin, Iran. Environ Earth Sci 75:833
  • Jiang SJ, Zhai YZ, Leng SY, et al. 2016. A HIVE model for regional integrated environmental risk assessment: A case study in China. Hum Ecol Risk Assess 22:1002–28
  • Kruawal K, Sacher F, Werner A, et al. 2005. Chemical water quality in Thailand and its impacts on the drinking water production in Thailand. Sci Total Environ 340:57–70
  • Leng SY, Zhai YZ, Jiang SJ, et al. 2017. Water-environmental risk assessment of the Beijing-Tianjin-Hebei collaborative development region in China. Hum Ecol Risk Assess 23:141–71
  • Pophare AM, Lamsoge BR, Katpatal YB, et al. 2014. Impact of over-exploitation on groundwater quality: A case study from WR-2 Watershed, India. J Earth Syst Sci 123:1541–66
  • Post DA, Chiew FHS, Teng J, et al. 2012. A robust methodology for conducting large-scale assessments of current and future water availability and use; A case study in Tasmania, Australia. J Hydrol 412–413:233–45
  • Qian H, Li P, Howard KWF, et al. 2012. Assessment of groundwater vulnerability in the Yinchuan Plain, Northwest China using OREADIC. Environ Monit Assess 184:3613–28
  • Qian JZ, Zhan HB, Wu YF, et al. 2006. Fractured-karst spring-flow Protections: A Case Study in Jinan, China. Hydrogeol J 14:1192–205
  • Ramos LJA, Noyola MC, and Tapia SFO. 2012. Assessing the inconsistency between groundwater vulnerability and groundwater quality: the case of Chapala Marsh, Mexico. Hydrogeol J 20:591–603
  • Roy PK, Roy SS, Giri A, et al. 2015. Study of impact on surface water and groundwater around flow field due to changes in river stage using groundwater modeling system. Clean Technol Environ Policy 17:145–54
  • Su XS, Xu W, and Du SH. 2014a. Responses of groundwater vulnerability to artificial recharge under extreme weather conditions in Shijiazhuang City, China. J Water Supply: Res Technol-Aqua 63:224–38
  • Su XS, Xu W, and Du SH. 2014b. In situ infiltration test using a reclaimed abandoned river bed: managed aquifer recharge in Shijiazhuang City, China. Environ Earth Sci 71:5017–25
  • Su XS, Yuan WZ, Xu W, et al. 2015. A groundwater vulnerability assessment method for organic pollution: a validation case in the Hun River basin, Northeastern China. Environ Earth Sci 73:467–80
  • Teso RR, Poe MP, Younglove T, et al. 1996. Use of logistic regression and GIS modelling to predict groundwater vulnerability to pesticides. J Environ Qual 25:425–32
  • Vandenbohede A, Houtte EV, and Lebbe L. 2009. Sustainable groundwater extraction in coastal areas: a Belgian example. Environ Geol 57:735–47
  • Werner AD, Bakker M, Post VEA, et al. 2013. Seawater intrusion processes, investigation and management: Recent advances and future challenges. Adv Water Resour 51:3–26
  • Worrall F and Kolpin DW. 2004. Aquifer vulnerability to pesticide pollution combining soil, land-use and aquifer properties with molecular descriptors. J Hydrol 293:191–204
  • Wu J, Li P, and Qian H. 2015. Hydrochemical characterization of drinking groundwater with special reference to fluoride in an arid area of China and the control of aquifer leakage on its concentrations. Environ Earth Sci 73:8575–88
  • Xu W and Du SH. 2014. Information entropy evolution for groundwater flow system: a case study of artificial recharge in Shijiazhuang City, China. Entropy 16:4408–19
  • Yuan WZ, Su XS, Cui G, et al. 2016. Microbial community structure in hypolentic zones of a brine lake in a desert plateau, China. Environ Earth Sci 75:1132–46
  • Zektser S, Loaiciga HA, and Wolf JT. 2004. Environmental impacts of groundwater overdraft: selected case studies in the southwestern United States. Environ Geol 47:396–404
  • Zhai YZ, Wang JS, Huan H, et al. 2013. Characterizing the groundwater renewability and evolution of the strongly exploited aquifers of the North China Plain by major ions and environmental tracers. J Radioanal Nucl Chem 296:1263–74
  • Zhang WJ, Gao L, Jiao X, et al. 2014. Occurrence assessment of earth fissure based on genetic algorithms and artificial neural networks in Su-Xi-Chang land subsidence area, China. Geosci J 18:485–93
  • Zhang JJ, Zhai YZ, Xue PW, et al. 2017. A GIS-based LVF model for semi-quantitative assessment of groundwater pollution risk: A case study in Shenyang, NE China. Hum Ecol Risk Assess 23:276–98

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.