An Integrated Framework for Optimal Irrigation Planning Under Uncertainty: Application of Soil, Water, Atmosphere and Plant Modeling
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Abbasi N, Bahramloo R, Movahedan M (2015) Strategic planning for remediation and optimization of irrigation and drainage networks: a case study for Iran. Agric Agric Sci Procedia 4:211–221
Akbari M, Toomanian N, Droogers P, Bastiaanssen W, Gieske A (2007) Monitoring irrigation performance in Esfahan, Iran, using NOAA satellite imagery. Agri Water Manag 88:99–109
Alvarez JFO, Valero JAJ, Benito JMT, Mata EL (2004) MOPECO: an economic optimization model for irrigation water management. Irrigation Sci. 23:61–75
Deb K, Pratap A, Agarwal S, Meyarivan T (2002) A fast and elitist multi-objective genetic algorithm: NSGA-II. IEEE Trans Evol Commun 6:181–197
Fakharinia M, Lalehzari R, Yaghoobzadeh M (2012) The use of subsurface barriers in the sustainable management of groundwater resources. World Appl Sci J 19(11):1585–1590
Fallah-Mehdipour E, Bozorg Haddad O, Marino MA (2013) Extraction of multi-crop planning rules in a reservoir system: application of evolutionary algorithms. J Irrigation Drain Eng. https://doi.org/10.1061/(ASCE)IR.1943-4774.0000572
Grafton QR, Hussey K (2011) Water resources planning and management. Cambridge University Press, New York
Haghighi A, Zahedi-Asl A (2014) Uncertainty analysis of water supply networks using the fuzzy set theory and NSGA-II. Eng Appl Artif Int 32:270–282
Hsiao TC, Steduto P, Fereres E (2007) A systematic and quantitative approach to improve water use efficiency in agriculture. Irrigation Sci 25:209–231
Huang J, Ridoutt BG, Chang X, Zheng H, Chen F (2012) Cropping pattern modifications change water resource demands in the Beijing metropolitan area. J Integr Agric 11(11):1914–1923
Jakeman AJ, Barreteau O, Hunt BJ, Rinaudo JD, Ross N (2016) Integrated groundwater management. Springer, New York, p 756
Karamouz M, Kerachian R, Zahraie B (2004) Monthly water resources and irrigation planning: case study of conjunctive use of surface and groundwater resources. J Irrig Drain Eng 130(5):391–402
Karamouz M, Rezapour-Tabari MM, Kerachian R (2007) Application of genetic algorithm and artificial neural networks in conjunctive use of surface and groundwater resources. J Water Int 32(1):163–176
Karamouz M, Zahraie B, Kerachian R, Eslami A (2010) Crop pattern and conjunctive use management: a case study. Irrig Drain 59(2):161–173
Lalehzari R (2017) Closure to “Multi-objective management of water allocation to sustainable irrigation planning and optimal cropping pattern”. J Irrigation Drain Eng ASCE. https://doi.org/10.1061/(ASCE)IR.1943-4774.0001144
Lalehzari R, Boroomand-Nasab S (2017) Improved volume balance using upstream flow depth for advance time estimation. Agric Water Manag 186:120–126
Lalehzari R, Kerachian R (2020) Developing a framework for daily common pool groundwater allocation to demands in agricultural regions. Agric Water Manag 241:106278
Lalehzari R, Tabatabaei SH (2015) Simulating the impact of subsurface dam construction on the change of nitrate distribution. Environ Earth Sci 74:3241–3249
Lalehzari R, Tabatabaei SH, Kholghi M (2013) Simulation of nitrate transport and wastewater seepage in groundwater flow system. Int J Environ Sci Technol 10:1367–1376
Lalehzari R, Tabatabaei SH, Kholghi M, Yarali N, Saba AA (2014) Evaluation of Scenarios in artificial recharge with treated wastewater on the quantity and quality of Shahrekord aquifer. J Environ Stud 40(1):52–55
Lalehzari R, Ansari Samani F, Boroomand-Nasab S (2015) Analysis of evaluation indicators for furrow irrigation using opportunity time. Irrigation Drain 64(1):85–92
Lalehzari R, Boroomand-Nasab S, Moazed H, Haghighi A (2016) Multi-objective management of water allocation to sustainable irrigation planning and optimal cropping pattern. J Irrigation Drain Eng. https://doi.org/10.1061/(ASCE)IR.1943-4774.0000933
Li X, Zhang J, Liu J, Liu J, Zhu A, Lv F, Zhang C (2011) A modified checkbook irrigation method based on GIS-coupled model for regional irrigation scheduling. Irrigation Sci 29:115–126
Lorite IJ, Mateos L, Orgaz F, Fereres E (2007) Assessing deficit irrigation strategies at the level of an irrigation district. Agric Water Manag 91:51–60
Montazar A (2013) A decision tool for optimal irrigated crop planning and water resources sustainability. J Glob Optim 55:641–654
Nikoo MR, Kerachian R, Karimi A, Azadnia AA (2013) Optimal water and waste-load allocations in rivers using a fuzzy transformation technique: a case study. Environ Monit Assess 185(3):2483–2502
Noory H, Liaghat AM, Parsinejad M, Bozorg Haddad O (2012) Optimizing irrigation water allocation and multicrop planning using discrete PSO algorithm. J Irrigation Drain Eng ASCE 138(5):437–444
Parsinejad M, Bemani-Yazdi A, Araghinejad S, Nejadhashemi AP, Sarai Tabrizi M (2013) Optimal water allocation in irrigation networks based on real time climatic data. Agric Water Manag. 117:1–8
Shi Y, Eberhart R (1999) Empirical study of particle swarm optimization. In: Proceeding IEEE international congers evolutionary computation, Washington, DC, USA, pp 1945–1950
Singh A (2015) Land and water management planning for increasing farm income in irrigated dry areas. Land Use Pol 42:244–250
Singh A, Panda SN (2012) Development and application of an optimization model for the maximization of net agricultural return. Agric Water Manag 115:267–275
Soltani M, Kerachian R, Nikoo MR, Noory H (2016) A conditional value at risk-based model for planning agricultural water and return flow allocation in river systems. Water Resour Manage 30(1):427–443
Tabatabaei SH, Lalehzari R, Nourmahnad N, Khazaei M (2010) Groundwater quality and land use change (a case study: Shahrekord aquifer, Iran). J Res Agric Sci 6:39–48
Turner K, Georgiou S, Clark R, Brouwer R, Burke J (2004) Economic valuation of water resources in agriculture. FAO water reports, p 204
Varade S, Patel JN (2018) Determination of optimum cropping pattern using advanced optimization algorithms. J Hydrol Eng 23(6):05018010
Vedula S, Mujumdar PP, Sekhar GC (2005) Conjunctive use modeling for multicrop irrigation. Agric Water Manag 73:193–221