Document Type : Research Paper
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- Aldaya, M.M., Allan, J.A., and Hoekstr, A.Y. 2010. Strategic importance of green water in international crop trade. Ecological Economics, 69: 887–894.
- Bastiaansen, W.G.M., Allen, R.G., Droogers, P., and D'urso, G. 2007. Twenty-five years modeling irrigated and drained soils: State of the Art. Agricultural Water Management, 92(3):111-125.
- Belmans, C., Wesseling, J.G., and Feddes, R.A. 1983. Simulation of the water balance of a cropped soil: SWATRE. Journal of Hydrology, 63: 271-286.
- Chaali, N., Comegna, A., Dragonetti, G., Todorovic, M., Albrizio, R., Hijazeen, D., Lamaddalena, N., and Coppola, A. 2013. Monitoring and modeling root-uptake salinity reduction factors of a omato crop under non-uniform soil salinity distribution. Procedia Environmental Sciences, 19: 643 – 653
- Droogers, P., Akbari, M., Torabi, M., and Pazira, E. 2000. Exploring Field Scale Salinity Using Simulation Modeling, Exaple For Rudasht Area, Esfahan Province, Iran. IAERI-IWMI Research Report 2.
- Droogers, P., Bastiaanssen, W.G.M., Beyazgul, M., Kayam, Y., Kite G.W., and Murray-Rust, H. 2000. Distributed agro-hydrological modeling of an irrigation system in western Turkey. Agricultural Water Management, 43: 183-202.
- Feddes, R.A., Kowalik, P.J., and Zarandy, H., 1978. Simulation of field water use and crop yield. In: Simulation Monographs, Pudoc, Wageningen, The Netherlands.
- Francois, L.E., Maas, E.V., Donovan, T.J., and Youngs, V.L. 1986. Effect of salinity on grain yield and quality, vegetative growth, and germination of semi-dwarf and durum wheat. Agronomy Journal, 78:1053–1058.
- Kabat, P., Van den, B.J., and Feddes, R.A. 1992. SWACROP: A water management and crop production simulation model. ICID Bulletin 92, 41(2): 61-84.
- Khani-Ghariye-Gapi, M., Davari, K., Alizadeh, A., Hashemi-Niya, M., and Zolfagharan A. 2007. Evaluation of SWAP model in estimation of sugar beet under difference qualities and quantities of irrigation. Journal of irrigation and drainage. 1(2): 107-117.
- Maas, E.V., and Hoffman, G.J. 1977. Crop salt tolerance-current assessment. Irrigation and Drainage Division, 103(2): 115–134.
- Minhas, P.S. 1996. Saline water management for irrigation in India. Agricultural Water Management. 38:1–24.
- Mostafazadeh-Fard, B., Mansouri, H., Mousavi, S.F., and Feizi. M. 2008. Application of SWAP model to predict yield and soil salinity for sustainable agriculture in an arid region. International Journal of Sustainable Development and Planning, 3(4): 334-342.
- Nouri, N., Liaghat, A.M., Parsinejad, M., and Vazifedoust, M. 2010. Estimation of wheat and maize yield in terms of both water and salt restriction by using SWAP model. Journal of soil and water, 24: 1224-1235
- Oostindie, K., and Bronswijk, J.J.B. 1992. FLOCR- a simulation model for the calculation of water balance ,cracking and surface of clay soils. Report 47 Alterra Green World Research.
- Ranjbar, G.H. 2005. Determination of salt tolerance threshold in five bread wheat (Triticum aestivum L.) cultivars. Research report 84/793. Research, Training and Extension Organization, Ministry of Agriculture, Tehran.
- Rhoades, J.D., Kandiah, A. and Mashali, A.M. 1992. The use of saline waters for crop production. FAO Irrigation Drainage Paper 48, Rome, 133 pp.
- Tavakoli, A.R., Oweis, T., Ashrafi, Sh., Asadi, H., Siadat, H., and Liaghat, A. 2010. Improving rainwater productivity with supplemental irrigation in upper Karkheh river basin of Iran. Research Report No. 6, CGIAR Challenge Program on Water and Food.
- Van Dam, J.C., Huygen, J., Wesseling, J.G., Feddes, R.A., Kabat, P., van Walsum, P.E.V., Groenendijk, P., and Van Diepen, C.A. 1997. Theory of SWAP version 2.0. Simulation of water flow, solute transport and plant growth in the Soil-Water-Atmosphere-Plant environment. Wageningen Un iversity and Alterra. Technical Document 45.
- Vazifedoust, M., Van Dam, J.C., Feddes, R.A., and Feizi. M. 2008. Increasing water productivity of irrigated crops under limited water supply at field scale. Agricultural Water Management, 95:89-102.
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