References
- Allen RG, Pereria LS, Raes D, Smith M. 1998. Crop evapotranspiration: guidelines for computing crop water requirements. FAO Irrigation and Drainage Paper. No. 59. Rome: FAO.
- Benli B, Pala M, Stockle C, Oweis T. 2007. Assessment of winter wheat production under sowing with supplemental irrigation in a cold highland environment using CropSyst simulation model. Agric Water Manage. 93:45–53.
- Borg H, Grimes DW. 1986. Depth development of roots with time: an empirical description. Trans ASAE. 29:194–197.
- Cassman KG, Peng S, Dobermann A. 1997. Nutritional physiology of the rice plant and productivity decline of irrigated rice systems in the tropics. Soil Sci Plant Nutr. 43:1111–1116.
- Dagdelen N, Yılmaz E, Sezgin F, Gurbuz T. 2006. Water-yield relation and water use efficiency of cotton (Gossypium hirsutum L.) and second crop corn (Zea mays L.) in western Turkey. Agric Water Manage. 82:63–85.
- Doorenbos J, Pruitt WO. 1977. Guidelines for predicting crop water requirements. Irrigation and Drainage Paper 24. Rome: Food and Agricultural Organization of the United Nations; p. 156.
- Hargreaves GH, Samani ZA. 1985. Reference crop evapotranspiration from temperature. Appl Eng Agric. 1:96–99.
- Heng LK, Hsiao TC, Evett S, Howell T, Steduto P. 2009. Validating the FAO AquaCrop model for irrigated and water deficit field maize. Agron J. 101:488–498.
- Majnooni-Heris A, Zand-Parsa SH, Sepaskhah AR. 2011. Modification and validation of maize simulation model (MSM) at different applied water and nitrogen levels under furrow irrigation. Arch Agron Soil Sci. 57:401–420.
- Pirmoradian N, Sepaskhah AR. 2006. A very simple model for yield prediction of rice under different water and nitrogen applications. Biosyst Eng. 93:25–34.
- Razzaghi F, Sepaskhah AR. 2012. Calibration and validation of four common ETo estimation equations by lysimeter data in a semi-arid environment. Arch Agron Soil Sci. 58:303–319.
- Sepaskhah AR, Bazrafshan-Jahromi AR, Shirmohammadi-Aliakbarkhani Z. 2006a. Development and evaluation of a model for yield prediction of wheat, maize, sugarbeet under water and salt stress. Biosyst Eng. 93:139–152.
- Sepaskhah AR, Fahandezh-Saadi S, Zand-Parsa SH. 2011. Logistic model application for prediction of maize yield under water and nitrogen management. Agric Water Manage. 99:51–57.
- Sepaskhah AR, Ilampour S. 1996. Relationships between yields, crop water stress index (CWSI) and transpiration of cowpea (Vigna sinensis L). Agronomie. 16:269–279.
- Sepaskhah AR, Kanooni A, Ghasemi MM. 2003. Estimating water table contribution to corn and sorghum water use. Agric Water Manage. 58:67–79.
- Sepaskhah AR, Rezaee-Pour SH, Kamgar-Haghighi AA. 2006b. Water budget approach to quantify cowpea yield using crop characteristic equations. Biosyst Eng. 95:583–596.
- Smith M. 1992. CROPWAT, a computer program for irrigation planning and management. FAO Irrigation and Drainage Paper No. 46. Rome: Food and Agriculture Organization (FAO).
- Vila MG, Fereres E, Mateos L, Orgaz F, Steduto P. 2009. Deficit irrigation optimization of cotton with AquaCrop. Agron J. 101:477–487.
- Yin X, Schapendonk AHCM, Kropff MJ, van Oijen M, Bindraban PS. 2000. A generic equation for nitrogen-limited leaf area index and its application in crop growth models for predicting leaf senescence. Ann Bot-London. 85:579–585.
- Zand-Parsa SH, Sepaskhah AR, Ronaghi A. 2006. Development and evaluation of integrated water and nitrogen model for maize. Agric Water Manage. 81:227–256.
- Ziaei AN, Sepaskhah AR. 2003. Model for simulation of winter wheat yield under dryland and irrigated conditions. Agric Water Manage. 58:1–17.