Barrett J W. 1980. Crop production functions and the allocation and use of irrigation water. Agricultural Water Management, 3, 53–66.Blank H. 1975. Optimal irrigation decisions with limited water. Ph D thesis. Colorado State University, Collins, CO. Briggs L J. 1914. Relative water requirements of plants. Journal of Agricultural Research, 3, 1–63.Chen Y. 1998. Study on crop water model considering the hysteresis effect of water shortage. Journal of Hydraulic Engineering, 4, 70–74. (in Chinese)Claassen M M, Shaw R H. 1970. Water deficit effects on corn. I. Grain components. Agronomy Journal, 62, 652–655. Cong Z, Zhou Z W, Lei Z D. 2002. New definition and solution of water sensitivity index of Jensen model. Advances in Water Science, 13, 730–735. (in Chinese)Fan X W. 2011. Study on drought resistance and harvest index of different maize genotypes under different water gradient. Modern Agricultural Science and Technology, 21, 57–58.Guo Z L. 1994. Optimization model of nonlinear water saving and high yield. Advance in Water Science, 5, 58–63. (in Chinese)Hanks R J. 1975. Model for predicting plant yield as influenced by water use. Agronomy Journal, 66, 660–655.Jamieson P D, Porter J R, Wilson D R. 1991. A test of the computer simulation model ARC-WHEAT1 on wheat crops grown in New Zealand. Field Crops Research, 27, 337–350. Jensen M E. 1973. Consumptive Use of Water and Irrigation Water Requirements. American Society of Civil Engineers, New York.Jiao X Y, Lei Z D, Peng S Z. 2005. Robust regression method for the establishment of crop water production function. In: Proceedings of the 2005 Annual Conference of the Chinese Academy of Agricultural Engineering. China. pp. 97–100. (in Chinese)Jiao X Y, Lei Z D, Yang S X. 2002. Development of water science using BP neural network to describe crop water model. Journal of Hebei Engineering and Technical College, 1, 2–5. (in Chinese)Jiao X Y, Peng S Z. 2004. The reason and solution of negative value of sensitivity index of Jensen model. Journal of Shenyang Agricultural University, 35, 439–442. (in Chinese) Li H C, Shen R K. 1997. A preliminary study on the Feddes model of crop water dynamic yield model. Irrigation and Drainage, 16, 1–5. (in Chinese)Li J. 1997. Advances in the development and application of crop growth simulation models. Journal of Northwest Agricultural University, 25, 102–107. (in Chinese)Li Y H. 1999. Theory and Technology of Water Saving Irrigation. Wuhan Water Conservancy and Electric Power University Press, China. pp. 84–851. (in Chinese)Liu T M, Xie G S. 2010. Agricultural System Analysis and Simulation. Science Press, China. (in Chinese)Mehdi M, Sepaskhah A R, Zand-Parsa S. 2014. Estimation of yield and dry matter of winter wheat using logistic model under different irrigation water regimes and nitrogen application rates. Archives of Agronomy and Soil Science, 60, 1661–1676.Minhas B S, Parikh K S, Srinivasan T N. 1974. Towards the structure of a production function for wheat yields with dated in puts of irrigation water. Water Resources Research, 10, 383–393. Morgan T H, Biere A W, Kanemasu E T. 1980. A dynamic model of corn yield response to water. Water Resources Research, 16, 59–64. Paredes J P, de Melo-Abreu J P, Alves I, Pereira L S. 2014. Assessing the performance of the FAO AquaCrop model to estimate maize yields and water use under full and deficit irrigation with focus on model parameterization. Agricultural Water Management, 44, 81–97.Peng S Z, Bian L M, Zhu C L. 2000. Research and development of crop water production function. Development of Water Conservancy and Hydropower Science and Technology, 20, 17–20. (in Chinese)Rajput G S, Singh J. 1986. Water production functions for wheat under different environmental conditions. Agricultural Water Management, 11, 319–332. Rao N H, Sarma P B S, Chander S. 1988. A simple dated production function for use in irrigated agriculture. Agricultural Water Management, 13, 25–32.Robins J S, Domingo C E. 1953. Some effect of severe soil moisture deficits at specific growth stages in corn. Agronomy Journal, 45, 618–621. Shabani A, Sepaskhah A R, Kamgar-Haghighi A A. 2015. A model to predict the dry matter and yield of rapeseed under salinity and deficit irrigation. Archives of Agronomy and Soil Science, 61, 525–542. Shang S H, Mao X M, Lei Z D. 2009. Dynamic Simulation Model of Soil Moisture and Its Application. Science Press, China. (in Chinese)Shen X Z, Cui Y L, Shen H Z. 2001a. Neural network method for crop water shortage sensitivity analysis. China Rural Water Conservancy and Hydropower, 5, 12–15. (in Chinese)Shen X Z, Zhu L Z, Cui Y L, Shen H Z. 2001b. Modified Morgan model for dynamic production functions of crop water and fertilizer. Irrigation and Drainage, 20, 17–20. (in Chinese)Singh P N, Joshi B P, Singh G. 1987. Water use and yield response of wheat to irrigation and nitrogen on an alluvial soil in North India. Agricultural Water Management, 12, 323–329. Stewart J I, Hagan R M. 1969. Functions to predict effects of crop, water deficits. Journal of Irrigation and Drainage Division, 95, 91–104.Stewart J I, Hagan R M, Pruitt W O. 1976. Production Functions and Predicted Irrigation Programmers for Principal Crops as Required for Water Resources Planning and Increased Water Use Efficiency. Final Report U.S. Department of Interior, Washington, D.C. p. 80.Taylor H M, Jordan W R, Sinclair T R. 1983. Limitations to Efficient Water Use in Crop Production. American Society of Agronomy, Crop Science Society of America, Soil Science Society of America, Madison, Wl. pp. 393–411. Wang H Z, Zhang L, Dawes W R, Liu C. 2001. Improving water use efficiency of irrigated crops in the North China Plain — measurements and modeling. Agricultural Water Management, 48, 151–167. (in Chinese)Wang Z. 1988. Irrigation and Drainage Engineering. China Agriculture Press, China. pp. 41–43. (in Chinese)Wei Y L. 2004. Modeling of water production functions of winter wheat. MSc thesis, Tsinghua University, China. (in Chinese)Wei Z M, Chen Y X, Shi H B. 2002. Preliminary study on crop water model of spring wheat with BP neural network. Irrigation and Drainage, 21, 12–16. (in Chinese)Westgate M E. 1994. Seed formation in maize during drought. In: Boote K J, ed., Physiology and Determination of Crop Yield. American Society of Agronomy, Crop Science Society of America, Soil Science Society of America, Madison, WI. pp. 361–364. Willmott C J, Rowe C M, MIntz Y. 1985. Climatology of terrestrial seasonal water cycle. International Journal of Climatology, 5, 589–606.de Wit C T. 1958. Transpiration and Crop Yields. Institute of Biological and Chemical Researchon on Field Crops and Herbage, Wageningen, The Netherlands. p. 64.Xia H, Yang L H. 2003, Research progress on crop water production function. Journal of Hebei Engineering and Technical College, 2, 5–8. (in Chinese)Zhang H J. 2009. Water yield model and its application in several field crops. Chinese Journal of Ecological Agriculture, 17, 997–1001. (in Chinese) |