1- Ahmadi M., Farhadi B. and Ghobadi M. 2014. Regional transferring of barley yield and Water Productivity in deficit irrigation. Water research in agriculture, 28: 201- 211. (in Persian)
2- Amini Far J., Bigloee M. H. Mohsen Abadi Gh. And Samizade H. 2011. Effect of deficit irrigation on yield and productivity in 7 type of soybean in Rasht region. Soil and water knowledge, 21: 81-92.
3- Amiri E. Kavosi M. and Kaveh F. 2009. Evaluation of plant growth model ORYZA2000, SWAP and WOFOST in different irrigation management. Agricultural and engineering research, 10: 13- 28. (in Persian)
4- Amiri E., Rezaii M., Mo’tamed M. K. and Emami S. 2011. Evaluation of crop growth of WOFOST model in irrigation management condition. Agronomy, 90: 9-17. (in Persian)
5- Bouman, B. A. M., Van Keulen, H., Van Laar, H. H. and Rabbinge, R. 1996. The “School of de Wit”, crop growth simulation models: pedigree and historical overview. Agric. Sys. 52: 171-198.
6- Boogaard H., Wolf J., Supitc I., Niemeyerd S., Ittersuma M. v. 2013. A regional implementation of WOFOST for calculating yield gaps of autumn-sown wheat across the European Union. Field Crops Research, 143: 130–142.
7- Brisson, N., Gary, C., Justes, E., Roche, R., Mary, B., Ripoche, D., Zimmer, D., Sierra, J., Bertuzzi, P., Burger, P., Bussiere, F., Cabidoche, Y.M., Cellier, P., Debaeke, P., Gaudillere, J.P., Henault, C., Maraux, F., Seguin, B., Sinoquet, H., 2003. An overview of the crop model STICS. Eur. J. Agron. 18, 309–332.
8- Choisnel, E., de Villele, O., Lacroze, F., 1992. Une approche de uniformisee du calcul de l’evapotranspiration potentielle pour l’ensemble des pays de la Communaute Europeenne. Joint Research Centre, Commission of the European Communities, EUR 14223 FR, Luxembourg, 176 pp.
9- Confalonieri, R., Acutis, M., Bellocchi, G., Cerrani, I., Tarantola, S., Donatelli, M., Genovese, G., 2006b. Exploratory sensitivity analysis of CropSyst WARM and WOFOST: a case-study with rice biomass simulations. Ital. J. Agrometeorol. 11, 17–25.
10- Confalonieri, R., Acutis, M., Bellocchic, G. and Donatelli, M. 2013. Multi-metric evaluation of the models WARM, CropSyst, and WOFOST for rice. Ecol. Model. 220: 1395-1410.
11- CWFS. 1985. Potential food production increases from fertilizer aid: a case study of Burkina Faso, Ghana and Kenya. CWFS, Wageningen.
12- Donald, C.M. and Hamblin, J. 1976. The biological yield and harvest index of cereal as Agronomic and plant breeding criteria. Adv. Agron.28:361-405.
13- Diekkrüger, B., Arning, M., 1995. Simulation of water fluxes using different methods for estimating soil parameters. Ecol. Model. 81, 83–97.
14- Eitzinger, J., Thaler, S., Schmid, E., Strauss, F., Ferrise, R., Moriondo, M., Bindi, M., Palosuo, T., Rotter, R., Kersebaum, K.C., Olesen, J.E., Patil, R.H., Saylan, L., C, alda˘g, B., C, aylak, O., 2012. Sensitivities of crop models to extreme weather conditions during flowering period demonstrated for maize and winter wheat in Austria. J. Agric. Sci., 1–23.
15- Geerts, S., D. Raes, M. Garcia, R. Miranda, J.A. Cusicanqui, C. Taboada, J. Mendoza, R. Huanca, A. Mamani, O. Condori, J. Mamani, B. Morales, V. Osco, and P. Steduto. 2009. Simulating Yield Response of Quinoa to Water Availability with AquaCrop. Agronomy Journal, 101(3): 499–508.
16- Ghadami A. 2015. Water Management and Soil Moisture Changes in Full, Regulated Deficit and Partial Root Zone Deficit Irrigations in Sunflower Plant. Sari Agricultural Sciences and Natural Resources University, Agriculture Engineering Faculty Water Engineering Department, Ph.D thesis in irrigation and drainage engineering.
17- Jarvis, P.G., 1981. Stomatal conductance, gaseous exchange and transpiration. In: Plants and Their Atmospheric Environment. Blackwell Scientific Publications, Oxford, pp. 175–214.
18- Kiani A. R. 2010. Optimal irrigation scheduling base on water yield relations in soybean cultivars. Agricultural engineering research, 11: 85-112. (In Persian)
19- Kloss S, Pushpalatha R, Kamoyo KJ, Schütze N (2012) Evaluation of crop models for simulating and optimizing deficit irrigation systems in arid and semi-arid countries under climate variability. Water Resour Manag 26: 997–1014.
20- Khoshravesh M., Ghadami Firouzabadi A., Shirazi P. and Najafi-Mood M. H. 2015. Cotton Response Simulation to Dry and Salinity Stress by using of AquaCrop Model. Water and irrigation engineering, 21: 166- 179. (in Persian)
21- Penman, H.L., 1956. Evaporation, an introductory survey. Neth. J. Agric. Sci. 4, 9–29.
22- Palosuo, T., Kersebaum, K.C., Angulo, C., et al., 2011. Simulation of winter wheat yield and its variability in different climates of Europe: a comparison of eight crop growth models. Eur. J. Agron. 35, 103–114.
23- Ritchie, J.T., 1998. Soil water balance and plant water stress. In: Tsuji, G.Y., Hoogenboom, G., Thorton, P.K. (Eds.), Understanding Options for Agricultural Production. Kluwer Academic Publishers, Dordrecht, The Netherlands, pp. 41–55.
24- Rötter, R.P.; Palosuo, T.; Pirttioja, N.K.; Dubrovsky, M.; Salo, T.; Fronzek, S.; Aikasalo, R.; Trnka, M.; Ristolainen, A.; Carter, T.R. 2011.What would happen to barley production in Finland if global warming exceeded 4 _C? A model-based assessment. Eur. J. Agron., 35, 205–214.
25- Rotter, R., Palosuo, T., Kersebaum, K.C., Angulo, C., Bindi, M., Ewert, F., Ferrise, R., Hlavinka, P., Moriondo, M., Nendel, C., Olesen, J.E., Patil, R.H., Ruget, F., Takaˇc, J., Trnka, M., 2012. Simulation of spring barley yield in different climatic zones of Northern and Central Europe: a comparison of nine crop models. Field Crops Res. 133, 23–36.
26- Saadati A., Pirmoradian N., Amiri E. and Rezaii M. 2012. Evaluation of WOFOST model in rice under different regimes of irrigation management. Water research in agriculture, 26: 323- 337. (in Persian)
27- Sepaskhah A., Tavakoli A. and Mosavi S. F. 2005. Principle and application of deficit irrigation. National irrigation and drainage committee, 10021.
28- Singh A.K., Tripathy R., and Chopra U. K. 2008. Evaluation of CERES Wheat and CropSyst models for water-nitrogen interactions in wheat crop. Agricultural Water Management, 95: 776-786.
29- Singh A. 2014. Irrigation planning and management through optimization modelling. Water Resour Manag 28: 1–14
30- Sharpley, A.N., Wiliams, J.R., 1990. EPIC The Erosion Productivity Impact Calculator. 1. Model Documentation. U.S. Department of Agriculture, Technical Buletin No. 1768.
31- Sharma A., Bharat R., Roak K. V., Vittal, P. R., Ramakrishna Y. S. and Amarasinghr U. 2010. Estimating the potential of rainfed agriculture in India: Prospects for water productivity improvements. Agric Water manage, 97: 23-30.
32- Shahin Rokhsar p and Amiri E. 2016. Evaluating WOFOST Model under Water Limited Conditions for Soybean Cultivars. Simulation of growth and development of plants, Sabz shomal.
33- Supit, I., Van Diepen, C.A., De Wit, A.J.W., Kabat, P., Baruth, B., Ludwig, F., 2010. Recent changes in the climatic yield potential of various crops in Europe. Agric. Syst. 103, 683–694.
34- Todorovic. M., R. Albrizio, L. Zivotic, M. Abi Saab, C. Stöckle and P. Steduto. 2009. Assessment of AquaCrop, CropSyst, and WOFOST Models in the Simulation of Sunflower Growth under Different Water Regimes. Agron. J. 101: 509–521.
35- Wang, E., Engel, T., 2002. Simulation of growth, water and nitrogen uptake of a wheat crop. Environ. Model. Software 17 (4), 387–402.
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