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Volume 5 Issue 3
Sep.  2017
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Pezhman ROUDGARMI, Ebrahim FARAHANI. 2017: Investigation of groundwater quantitative change, Tehran Province, Iran. Journal of Groundwater Science and Engineering, 5(3): 278-285.
Citation: Pezhman ROUDGARMI, Ebrahim FARAHANI. 2017: Investigation of groundwater quantitative change, Tehran Province, Iran. Journal of Groundwater Science and Engineering, 5(3): 278-285.

Investigation of groundwater quantitative change, Tehran Province, Iran

  • Publish Date: 2017-09-28
  • Changes in groundwater level in Homand-Absard plain, located in north-west of Kavir-e-Markazi watershed and east of Tehran province, were studied. The used research method was descriptive approach, and the research study was conducted based on field and desk surveys. The data needed was provided from field surveys, contours maps, and data of observation wells. There were 17 observation wells in the study area where the changes in groundwater levels were measured during 1996-2013, and an index hydrograph was prepared for the aquifer of plain. The sharpest decline in the groundwater level was in the central of Homan-Absard plain. There was 1.43 m decline in the groundwater level of aquifer annually, compared with similar studies in other parts of Iran, it has a high rate, and to the average, the groundwater level of plain has dropped equal to 25.76 m, 1996-2013. According to the study findings, the groundwater level changes with those in rainfall weren’t match and the drop in groundwater level during wet years and then has continued which represents the high water extraction factor on the groundwater level drop.
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  • Steward D R, Allen A J. 2016. Peak groundwater depletion in the High Plains Aquifer, projections from 1930 to 2110. Agricultural Water Management, 170: 36-48 .
    Rahimi D. 2012. Potential evaluation of ground-water resources (Case study Shahrekord plain). Journal of Geography and Environ?mental Planning, 44: 127-142 .
    Chinnasamy P, Agoramoorthy G. 2015. Ground-water storage and depletion trends in Tamil Nadu State, India. Water Resources Manage-ment, 29(7): 1-14 .
    Werner A D, Zhang Q, et al. 2013. An initial inventory and indexation of groundwater Mega-Depletion cases. Water Resources Manage??ment, 27(2): 507-533 .
    Daneshvar-Vosoughi F, Dinpashoh I, Alami D. 2012. Effect of drought on groundwater level in the past two decades (Case study: Ardabil Plain). Water and Soil Science, 21(4): 165- 179 .
    Ansari H, Naderianfar M. 2012. Evaluating the groundwater fluctuations with fuzzy Standar-dized Evapoprecipitation Index (SEPI). Water and Irrigation Management Journal, 2(1): 41-54 .
    Huo A, Peng J, et al. 2016. Groundwater storage and depletion trends in the Loess areas of China. Environmental Earth Sciences, 75(16): 1167 .
    Seif M, Mohamadzadeh H, Mosaedi A. 2012. Evaluation of the effect of drought on groundwater resources Fasa aquifer using the standardized precipitation index and the EC criterion. Journal of Water Resources Engineering. 13: 45-59 .
    Chen J L, Wilson C R, et al. 2016. Long-term groundwater storage change in Victoria, Australia from satellite gravity and in situ observations. Global and Planetary Change, 139: 56-65 .
    ?elik R. 2015. Temporal changes in the ground-water level in the Upper Tigris Basin, Turkey, determined by a GIS technique. Journal of African Earth Sciences, 107:134-143 .
    Ehsani M, Khaledy H. 2003. Recognition and improvement of water use efficiency between farmers to provide water and food security in the country. Tehran: Eleventh National Committee Conference on Irrigation and Drainage, 657-675 .
    Ekrami M, Sharifi Z, et al. 2012. Investigating the groundwater quality and quantity variations trend case study: Yazd-ardakan Plain, 2000S. Sunrise Health Journal, 10 (3 and 3-4): 82-91 .
    Iran Water Resources Management Company. 2011. Report of integrated water resources studies: Kavir-Markazi basin (Central Desert) (Volume III-Section 5). Tehran: Energy Ministry of Iran .
    Wada Y. 2016. Modeling groundwater depletion at regional and global scales: Present state and future prospects. Survey in Geophysics. 37(2): 419-451 .
    Fallah S A, Qbadynya M, et al. 2012. Analysis of groundwater resources in agriculture Darab in Fars Province. Water Research Journal, 2: 161-172 .
    Zare-Abyaneh H, Bayat Varkeshi M, Marofi S. 2012. Investigating water table depth fluctua-tions in the Malayer Plain. Water and Soil Science, 22(2): 173-190 .
    ZHANG Xi-feng, ZHANG Lan-hui, et al. 2014. Quantifying the impacts of land use/land cover change on groundwater depletion in Northwestern China-A case study of the Dunhuang Oasis. Agricultural Water Manage-ment, 146: 270-279 .
    Hosseinzad J, Javadi A, Kazemiyeh F. 2012. Determination of groundwater extraction based on cost management (Case study: Ajabshir Plain). Water and Soil Science, 22( 2): 165-172 .
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