Effect of arsenic content in Shour River on groundwater resources in irrigated area at Rafsanjan plain

Publish Year: 1392
نوع سند: مقاله کنفرانسی
زبان: English
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ICCAU01_3169

تاریخ نمایه سازی: 29 تیر 1393

Abstract:

This study was conducted to evaluate effects of irrigation of 300 ha of pistachio growing lands with water from the Shour River on groundwater resources of the Rafsanjan plain. The comparatively high prevalence of arsenic-related cancers, the high concentration of arsenic in the nearby plains, and the recharge of the Shour River through Sarcheshmeh Mountains composed of volcanic hosted massive sulfide ore deposits (VMS), are the authors' motivations for reviewing the concentration of this substance in the Rafsanjan groundwater and the Shour River. Arsenic concentration was measured in 41 samples from the river and groundwater resources using inductively coupled plasma mass spectrometry. The results were evaluated through iso-concentration maps, correlation diagrams, and multivariate statistical methods. Accordingly, the concentration of arsenic in the Shour River and the Rafsanjan groundwater ranges from 7.5 to 278 μg/l with an average value of 97.82 μg/l . These levels are much higher than that acceptable for drinking Water (10 μg/l) . The high arsenic content of groundwater of the Rafsanjan plain are ascribed to both the decomposition of sulfides present in mountainous volcanic rocks and the Shour River pollution in the vicinity of the Sarcheshmeh copper mine caused by Acid mine drainage (AMD) - which is regarded as the worst environmental problem related to mining that affects surface and groundwater quality- originating from waste dumps in this mine.

Authors

Jafar Rahnamarad

Department of Geology,Associate Professor, Islamic Azad University,Zahedan Branch, Zahedan,

Mahin Esmaeil Zaei

Department of Civil Engineering ,Indian Institute of Technology Delhi, Safdarganj Development Area,Hauz Khas, IIT Campus, New Delhi, DL ۱۱۰۰۱۶, India, PhD Scholar

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  • Argos M, Kalra T, Pierce B.L, Chen Y, Parvez F, ...
  • International Conference on Civil Engineering Architecture _ Urban Sustainable Development ...
  • of arsenic exposure from drinking water and incidence of skin ...
  • Armienta M. A, Rodriguez R, Cruz O, Aguayo A, Ceniceros ...
  • Baeyens W, De Brauwere A, Brion N, De Gieter M, ...
  • BAMWSP .Bangladesh arsenic mitigation water supply project (BAMWSP). Upazila wise ...
  • http :/www.bwspp _ org/BAMW SPC ontent _ Survey%20Re sul/Up azila%20 ...
  • BGS and DPHE .Arsenic contamination of groundwater in Bangladesh (four ...
  • Bhattacharya P, Claesson M, Bundschuh j, Sracek O, Fagerberg J, ...
  • Chakraborti D, Biswas B.K, Chowdhury T.R, Basu G.K, Mandal B.K, ...
  • Craiud A, Fouillac C. The distribution of arsenic (III) and ...
  • Dehghani M. Environmenta Hydro geochemi stry of Groundwaters Resources of ...
  • DelValls T.A, Forja J.M, Gonzal ez-Mazo E, Gommez-Parra A. Determining ...
  • Ebrahimi M. Evaluation of Arsenic dispersivity and the survey of ...
  • International Conference on Civil Engineering Architecture _ Urban Sustainable Development ...
  • Ahmed M.F. Arsenic mobility and groundwater extraction in Bangladesh , ...
  • Kaiser H.F. The application of electronic computers to factor analysis, ...
  • Khajehpour S. Assessment of the Concentration of Heavy Metals in ...
  • mobilization in Bangladesh assessed using noble gases and tritium", Environmenta ...
  • Kommnitsas K, Xenidis A, Adam K .Oxidation of pyrite and ...
  • Ma H.Z, Xia Y.J, Wu K.G, Sun T.Z, Mumford J.L.Human ...
  • Medical Geology Atlas of Iran, Geological Survey of Iran (in ...
  • Ning Z, Lobdell D.T, Kwok R.K, Liu Z, Zhang S, ...
  • Pandey P.K, Yadav S, Nair S, Bhui A.Arsenic contamination of ...
  • Rosenboom J.W. Not just red or green. An analysis of ...
  • Shojaheidari R.The effect of agriculture on the quality and quantity ...
  • Smedley P.L.Source and distribution of arsenic in groundwater and aquifers, ...
  • Smedley P.L, Kinniburgh D.G.Arsenic in groundwater and the environment, in: ...
  • Smedley P.L, Knudsen J, Maiga D.Arsenic in groundwater from mineralised ...
  • International Conference on Civil Engineering Architecture _ Urban Sustainable Development ...
  • Smedley P.L, Zhang M-Y, Zhang G-Y, Luo Z-D .Mobilisation of ...
  • Smith A.H, Goycolea M, Haque R, Biggs M.L.Marked Increase in ...
  • Swedlund P.J , Webster J.G.Arsenic removal from geothermal bore waters: ...
  • Thornton , I.Sources and pathways of arsenic in south-west England: ...
  • Wilkie J.A, Hering J.G. Rapid oxidation of geothermal arsenic (III) ...
  • Yongming H, Peixuan D, Junji C, Posmentier E.S. Multivariate analysis ...
  • Yu G.Q, Sun D.J, Zheng Y. Health effecs of exposure ...
  • Zheng Y, van Geen A, Stute M, Dhar R, Mo ...
  • نمایش کامل مراجع