رنجبر،آ. 1395. شبیهسازی توامان آب، نیتروژن و عملکرد محصول به منظور تعیین شاخص تغذیه نیتروژن در دوره رشد ذرت. رساله دکتری، پردیس ابوریحان دانشگاه تهران، پاکدشت.
Ahmadi,S.H., Mosallaeepour,E., Kamgar-Haghighi,A.K and Sepaskhah,A.R., 2015. Modeling maize yield and soil water content with AquaCrop under full and deficit irrigation managements.
Water Resources Management. 29: 2837-2853.
Akumaga,U., Tarhule,A and Yusuf,A.A. 2017. Validation and testing of the FAO AquaCrop model under different levels of nitrogen fertilizer on rainfed maize in Nigeria, West Africa. Agricultural and Forest Meteorology 232: 225–234.
Allen,R.G., Pereira,L.S., Raes, D and Smith,M. 1998. Crop Evapotranspiration-Guidelines for Computing Crop Water Requirements, Irrigation and Drainage Paper 56, Rome, Italy, 300 pp.
Andarzian,B., Bannayan,M., Steduto,P., Mazraeh,H., Barati,M.E and Rahnama,A. 2011. Validation and testing of the AquaCrop model under full and deficit irrigated wheat production in Iran. Agricultural Water Management. 100: 1-8.
Ata-Ul-Karim,S.T., Yao,X., Liu, X., Cao,W and Zhu,Y. 2014. Determination of Critical Nitrogen Dilution Curve Based on Stem Dry Matter in Rice. PLoS ONE. 9.8:1-12
Geerts,S and Raes,D. 2010. Using AquaCrop to derive deficit irrigation schedules. Agricultural Water Management. 98: 213-216.
Heng,L.K., Hsiao,T., Evett,S., Howell,T and Steduto,P. 2009. Validating the FAO AquaCrop model for irrigated and water deficient field maize. Agronomy Journal. 101: 488–498.
Hsiao,T.C., Heng,L., Steduto,P., Rojas-lara,B., Raes,D and Fereres,E. 2009. AquaCrop the FAO crop model to simulate yield response to water: III. Parameterization and testing for maize. Agronomy Journal. 101: 448–459.
Jamieson,P.D., Porter,J.R and Wilson,D.R. 1991. A test of the computer simulation model ARCWHEAT1 on wheat crops grown in New Zealand. Field Crops Research. 27: 337–350.
Liu,W.Z and Zhang,X. 2007. Optimizing water and fertilizer input using an elasticity index: a case study with maize in the loess plateau of china. Field Crops Research. 100: 302-310.
Mousavizadeh,S.F., Honar,T and Ahmadi,S.H. 2016. Assessment of the AquaCrop Model for simulating Canola under different irrigation managements in a semiarid area. International Journal of Plant Production. 10.4:425- 445
Myers,R.J.K. 2005. Helping small-scale farmers in the semi-arid tropics: Linking participatory research, traditional research and simulation modelling. In Nutrient and Water Management Practices for Increasing Crop Production in Rainfed Arid/Semi-Arid Areas – Proceedings of a Coordinated Research Project. IAEA-TECDOC 1468. Vienna, Austria: International Atomic Energy Agency (IAEA). 127–137.
Patrignani,A and Ochsner,T.E. 2015. Canopeo: A Powerful New Tool for Measuring Fractional Green Canopy Cover. Agronomy Journal. 107.6: 2312-2320.
Raes,D., Steduto,P., Hsiao, T.C and Fereres,E. 2012. AquaCrop Reference Manual, AquaCrop version 4.0. Rome, Italy: FAO.
Raes,D., Steduto,P., Hsiao,T.C and Fereres,E. 2009. AquaCrop – the FAO crop model to simulate yield response to water: II. Main algorithms and software description. Agronomy Journal. 101: 438–447.
Steduto,P., Hsiao,T.C., Raes,D and Fereres,E. 2009. AquaCrop: The FAO crop model to simulate yield response to water: I. Concepts and underlying principles. Agronomy Journal. 101: 426–437.
Steduto,P and Alberizio,R. 2005. Resource use efficiency of field-grown sunflower, sorghum, wheat and chickpea: II. Water use efficiency and comparison with radiation use efficiency. Agricultural and Forest Meteorology 130: 269–281.
Van Gaelen,H., Tsegay,A., Delbecque,N., Shrestha,N., Garcia,M., Fajardo,H., Miranda, R., Vanuytrecht,E., Abrha,B., Diels,J and Raes,D. 2014. Asemi-quantitative approach for modelling crop response to soil fertility: evaluation of the Aqua crop procedure.
Journal of Agricultural Science. 1–16.
Yuan,M., Zhang,L., Gou,L., Su,Z., Spiertz,J.H.J and Van der Werf,W. 2013. Assessment of crop growth and water productivity for five C3 species in semi-arid Inner Mongolia. Agricultural Water Management. 122: 28– 38.