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Hydrogeology Journal
Erschienen in: Hydrogeology Journal 2/2016

01.03.2016 | Report

Long-term improvement of agricultural vegetation by floodwater spreading in the Gareh Bygone Plain, Iran. In the pursuit of human security, is artificial recharge of groundwater more lucrative than selling oil?

verfasst von: Sayyed Hamid Mesbah, Mehrdad Mohammadnia, Sayyed Ahang Kowsar

Erschienen in: Hydrogeology Journal | Ausgabe 2/2016

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Abstract

In southern Iran’s Gareh Bygone Plain, water-supply qanats in four mixed farming communities were desiccated by over-pumping of illegal dug wells throughout the area. Emergency situations developed, resulting in city-ward migration. Since 1983, 193 million m3 of water has been supplied to those communities by floodwater spreading (FWS) to facilitate spate irrigation of sandy rangeland (2,034 ha) and artificial recharge of groundwater (ARG), of which 76 % has recharged the aquifer. This resulted in a reverse migration of the population. The irrigated area in the 2010–2011 growing season increased 13.2 fold when compared to the pre-FWS period, and year-round forage for about 700 sheep has been provided since 1991. The ARG is a logical alternative to building large dams in Iran; 420,000 km2 of coarse-grained alluvium provides capacity to store 5,000 km3 of water, representing more than ten times the annual precipitation of the whole country. As the equivalent cost for building dams to accommodate that volume is estimated at US$12.5 × 1012, the potential value of the alluvium may be realized. ARG on the recharge areas of 33,000 of the desiccated qanats eventually could rejuvenate them. As agricultural commodities absorb 19 % of the monetary value of Iran’s imports, and ARG activities could supply the water to produce them, alluvium is even more valuable than oil, which provides foreign exchange. More importantly, ARG on 140,000 km2 of the alluvium could strengthen the capacity to adapt to droughts and reduce the number and impact of water-related emergency situations.
Vorheriger Artikel The role of groundwater governance in emergencies during different phases of natural disasters
Nächster Artikel Hierarchical simulation of aquifer heterogeneity: implications of different simulation settings on solute-transport modeling

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Literatur
Bakhtiar A, Najafi B, Kowsar A, Habibian SH (1997a) Socio-economic effects of floodwater spreading system in the Gareh Bygone Plain (in Farsi).In: Proc. 2nd Nat. Conf. desertification control methods. Res. Inst. For. Rangel. Tehran, I. R. Iran. p 325–332
Bakhtiar A, Najafi B, Mesbah SH (1997b) Economic return of flood spreading system in Iran: The case of the Gareh Bygone project (in Farsi). In: Proc. 1st Meet. Appl. Sci. Econ. Water Resour. 18–19 Jan. 1997. Ministry of power, Tehran, I. R. Iran. p 155–167
Bordbar SK, Mortazavi Jahromi SM (2006) Potential of the western Fars Eucalyptus camaldulensis Dehnh. and Acacia salicina Lindl. afforestation for carbon sequestration (in Farsi). Pezhoohesh va Sazandegi [Res Reconstr] 75:95–103
Botzan TM, Necula A, Marin˜o AM, Hakan Basagaoglu H (1999) Benefit-cost model for an artificial recharge scenario in the San Joaquin valley, California. Water Resour Manag 13:189–203CrossRef
Bou-Zeid E, El-Fadel, M (2002) Climate change and water resources in Lebanon and the Middle East. J Water Resour Plan Manage 128(5):343–355
Breman H, de Wit CT (1985) Rangeland productivity and exploitation in the Sahel. Science (Wash DC) 221:1341–1347CrossRef
Bybordi M (1974) Ghanats of Iran: drainage of sloping aquifer. J Irrig Drain Div ASCE 100(IR3):245–253
Dewan ML, Famouri J (1964) The soils of Iran. FAO, Rome
Donovan JD, Katzer T, Brothers K, Cole K, Johnson M (2002) Cost-benefit analysis of artificial recharge in Las Vegas valley, Nevada. J Water Resour Plan Manag 128:356–365CrossRef
Esmaeili Vardanjani N, Gabriels D, Kowsar SA, Raes D (2013) Assessment of sediment deposition in a floodwater spreading system of the Gareh Bygone plain, I. R. Iran. In: De Boever M, Khlosi M, Delbecque N, De Pue J, Ryken N, Verdoodt A, Cornelis W, Gabriels D (eds) Desertification and land degradation processes and mitigation, UNESCO chair of eremology. Ghent Univ, Belgium, pp 144–150
Evenari M, Shanan L, Tadmor NH (1971) The Negev: the challenge of a desert. Harvard Univ. Press, Cambridge
FAO (1993) The state of food and agriculture: water policies and agriculture. FAO, Rome
Fookes PG, Knill JL (1969) The application of engineering geology in the regional development of northern and central Iran. Eng Geol 3:81–120CrossRef
Foroozeh MR, Heshmati G, Mesbah SH, Qanbari G (2008) Effects of spate irrigation on the carbon sequestration of Helianthemum lippii (L.), Dendrostellera lesserVan Tiegh., and Artemisia sieberi Besser(in Farsi). Pezhoohesh va Sazandegi [Res Reconstr] 78:11–19
French NH, Hussain I (1964) Water spreading manual. Range management record No. 1. West Pakistan Range Improvement Scheme, Lahore
Gulhati ND, Smith WC (1967) Irrigated agriculture: an historical review. In: Hagan RM, Haise HR, Edminister TW (eds) Irrigation of agricultural lands, Agron. Monogr. 11. ASA, Madison, WI, USA. p 3–11
Hashemi H (2014) Floodwater harvesting for artificial recharge of groundwater-estimation and prediction for arid Iran. Ph.D. Thesis. Lund Univ., Sweden
Hashemi H, Berndtsson R, Kompani-Zare M, Persson (2013) Natural vs. artificial groundwater recharge quantification through inverse modeling. Hydrol Earth Syst Sci 17:637–650CrossRef
Hashemi H, Berndtsson R, Persson M (2015) Artificial recharge by floodwater spreading estimated by water balances and groundwater modelling in arid Iran. Hydrol Sci J 60:336–350CrossRef
Hendrickx JMH, Khan AS, Bannink MH, Birch D, Kidd C (1991) Numerical analysis of groundwater recharge through stony soils using limited data. J Hydrol 127:173–192CrossRef
Houston WR (1960) Effects of water spreading on range vegetation in eastern Montana. J Range Manag 13:289–293CrossRef
James GA, Wynd JG (1965) Stratigraphic nomenclature of Iranian oil consortium agreement area. Am Assoc Pet Geol Bull 49:2182–2245
Karimzadegan H, Rahmatian M, Mahmoudi M (2000) Valuing environmental benefits of the Gareh Bygone afforestation using the linear expenditure system (ELES) (in Farsi). MohitShenasi [Environ] 26:50–59
Khan S, Mushtaq S, Munir AH, Schaeffer J (2008) Estimating potential costs and gains from an aquifer storage and recovery program in Australia. Agric Water Manag 95:477–488CrossRef
Khanmirzaei A, Adhami E, Kowsar SA, Sameni AM (2009) Organic and inorganic forms of phosphorus in a calcareous soil planted to four species of eucalyptus in southern Iran. Commun Soil Sci Plant Anal 40:3194–3210CrossRef
Khanmirzaei A, Kowsar SA, Sameni AM (2011) Changes of selected soil properties in a floodwater-irrigated eucalyptus plantation in the Gareh Bygone plain, Iran. Arid Land Res Manag 25:38–54CrossRef
Kowsar A (1982) Water harvesting for afforestation: III. Dependence of tree growth on amount and distribution of precipitation. Soil Sci Soc Am J 46:802–807CrossRef
Kowsar SA (1991) Floodwater spreading for desertification control: an integrated approach. Desertification Control Bull (UNEP) 19:3–18
Kowsar SA (1998) Aquifer management: a new approach to soil and water conservation. In: new technologies to combat desertification. UNU desertification ser. no. 1. p 89–94
Kowsar SA (2005) Abkhandari (aquifer management): a green path to the sustainable development of marginal drylands. J Mt Sci 2:233–243CrossRef
Kowsar SA (2006) An empirical design of stilling basins for the artificial recharge of groundwater. In: Neupane B, Jayakumar R, Salamat A, Salih A (eds) Management of aquifer recharge and water harvesting in arid and semi-arid regions of Asia. Proc. Reg. Workshop held in Yazd, I. R. Iran, under the auspices of UNESCO. 27 Nov.-1 Dec. 2004. Oxford & IBH Publ. Co. Pvt. Ltd., New Delhi, pp 207–218
Kowsar SA (2008a) Desertification control through floodwater harvesting: the current state of know-how. In: Lee C, Schaaf T (eds) The future of drylands. Int. Sci. Conf. desertification drylands Res. Tunis, Tunisia, 19–21 June 2006. Man and Biosphere Ser. UNESCO Publ, Paris, pp 229–241
Kowsar SA (2008b) Using community mobilization and engagement to design management practices-Aquitopia: living versus existing. In: Adeel Z, King C, Schaaf T, Thomas R, Schuster B (eds) People in marginal drylands: managing natural resources to improve human well-being. A policy brief based on the sustainable management of marginal drylands (SUMAMAD) project. The United Nations University. UNU-INWEH, Hamilton, p 17
Kowsar SA (2008c) Viewpoints: “How can sustainable land management contribute to mitigating climate change?”. Nat Res Forum 32:254
Kowsar SA, Kowsar SS (2012) Karaji: mathematician and qanat master. Ground Water 50:812–817CrossRef
Kowsar SA, Pakparvar M (2004) Assessment methodology for establishing an Aquitopia, Islamic Republic of Iran. In: Schaaf T. (series ed) Lee C (volume ed) Sustainable management of marginal drylands (SUMAMAD).Proc. 2nd Int. Workshop. Shiraz, I. R. Iran. 29 Nov. - 2 Dec. 2003. UNESCO-MAB dryland. ser. no. 3.p 40–55
Melville C (1984) Meteorological hazards and disasters in Iran: a preliminary survey to 1950, Iran. J Brit Inst Pers Stud 22:113–150
Mesbah SH, Kowsar SA (2010) Spate irrigation of rangelands: a drought mitigating mechanism. In: Wager FC (ed) Agricultural production. Nova Sci. Publ, Hauppauge, pp 39–78
Mohammadnia M, Kowsar SA (2003) Clay translocation in the artificial recharge of a groundwater system in the southern Zagros mountain, Iran. Mt Res Dev 23:50–55CrossRef
Mohammadnia M, Kowsar SA (2011) Eucalyptus camaldulensis Dehnh.: an effective remediator of geologic nitrogen in groundwater. In: Laughton RH (ed) Aquifers: formation, transport and pollution. Nova Sci. Publ, Hauppauge, pp 2–85
Naderi AA, Kowsar SA, Sarafraz AA (2000) Reclamation of a sandy desert through floodwater spreading: I. Sediment-induced changes in selected soil chemical and physical properties. J Agric Sci Technol (Iran) 2:9–20
Nejabat M (2009) Decision support system for desertification control through floodwater spreading in Islamic Republic of Iran, Ph.D. thesis. Univ. Putra Malaysia. Kualalumpur, Malaysia
Newman JC (1963) Water spreading on marginal arable areas. J Soil Conserv NSW 19:49–58
Oberlander T (1965) The zagros streams. The new interpretation of transverse drainage in the orogenic zone. Syracuse Geogr. ser., no. 1. Syracuse Univ. Press, Syracuse
Ouessar M, Saghaier M, Taamallah H, Belgacem O, Khatteli H (2006) Bio-environment and socioeconomic management and income generation in the Tunisian project site. Sustainable management of marginal drylands (SUMAMAD).Proc. :4th Proj. Workshop, Islamabad, Pakistan. 27–31 January 2006. p 135–143
Pakparvar M (2015) Evaluation of floodwater spreading for groundwater recharge in the Gareh Bygone plain, southern Iran. Ph.D thesis, Gent University, Belgium
Pakparvar M, Cornelis W, Pereira LS, Gabriels D, Hosseinimarandi H, Edraki M, Kowsar SA (2014) Remote sensing estimation of actual evapotranspiration and crop coefficients for a multiple land use arid landscape of southern Iran with limited available data. J Hydroinformatics 16:1441–1460CrossRef
Phillips JRH (1957) Level-sill bank outlets. J Soil Conserv NSW 13:15
Pooladian A, Kowsar SA (2000) Aquifer management: a prelude to reclamation of salinized soils. Desertification Control Bull (UNEP) 36:78–82
Quilty JA (1972a) Soil conservation structures for marginal arable areas: contour ditches. J Soil Conserv NSW 28:82–87
Quilty JA (1972b) Soil conservation structures for marginal arable areas: gap absorption and gap spreader banks. J Soil Conserv NSW 28:116–130
Raeisi E, Kowsar A (1998) A system performance evaluation of the Gooyom floodwater spreading project. Iran J Sci Technol 22:169–184
Rahnemaei M, Boustani F, Kowsar SA (2013) Achieving groundwater sustainability in Iran through qanat rejuvenation. Hydrol Curr Res 4:150. doi: 10.41722157-7587.1000150
Reese R (2002) Inventory and review of aquifer storage and recovery in Southern Florida. USGS Report, WRI 02-4036
Scanlon BR, Keese KE, Flint AL, Flint LE, Gaye CB, Edmunds WM (2006) Global synthesis of groundwater recharge in semiarid and arid regions. Hydrol Process 20(15):3335–3370
Sheng Z (2005) An aquifer storage and recovery system with reclaimed wastewater to preserve native groundwater resources in El Paso, Texas. J Environ Manag 75:367–377CrossRef
Singh B, Sekhon GS (1978) Leaching of nitrate in calcareous soils as influenced by its adsorption on calcium carbonate. Geoderma 20:271–279
Smith M (1992) CROPWAT-a computer program for irrigation planning and management. Irrigation and drainage paper 46. FAO, Rome
Soil Survey Staff (1998) Keys to soil taxonomy, 8th edition. USDA-NRCS. Washington, D.C. US Govern. Print. Off
Starr JR, Stoll DC (1987) US foreign policy on water resources in the Middle East. The Cen. Strateg. Int. Stud, Washington, DC
Stiefel JM, Melesse AM, McLain ME, Price RM, Anderson EP, Chauhan NK (2009) Effects of rainwater-harvesting-induced artificial recharge on the groundwater of wells in Rajasthan, India. Hydrogeol J 17:2061–2073CrossRef
Stokes CM, Larson FD, Pearse CK (1954) Range improvement through water spreading. Foreign Operations Administration, Washington, DC
The I. R. Iran Custom Service (2014) The annual statistics of foreign trade of the I. R. Iran (in Farsi)
USEPA (2000) Drinking water standards and health advisories.US environmental protection agency, Off. Water, 822-B-00-001
Vista Hub (2012) Iran is discussing to buy annually one billion m3 of water from Tajikistan (in Farsi); Vista News Hub, Vista.ir /news /3772377, 31 May 2012
Yazdian AR, Kowsar SA (2003) The Agha Jari formation: a potential source of ammonium and nitrate nitrogen fertilizers. J Agric Sci Technol (Iran) 5:153–163
Metadaten
Titel
Long-term improvement of agricultural vegetation by floodwater spreading in the Gareh Bygone Plain, Iran. In the pursuit of human security, is artificial recharge of groundwater more lucrative than selling oil?
verfasst von
Sayyed Hamid Mesbah
Mehrdad Mohammadnia
Sayyed Ahang Kowsar
Publikationsdatum
01.03.2016
Verlag
Springer Berlin Heidelberg
Erschienen in
Hydrogeology Journal / Ausgabe 2/2016
Print ISSN: 1431-2174
Elektronische ISSN: 1435-0157
DOI
https://doi.org/10.1007/s10040-015-1354-y

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