Austin, R.B., Bingham, J., Blackwell, R.D., Evans, L.T., Ford, M.A., Morgan, C.L., and Taylor, M. 1980. Genetic improvements in winter wheat yield since 1900 and associated physiological changes. Journal of Agricultural Science Cambridge Core 94: 675-689.
Bell, M.A., and Fischer, R.A. 1994. Using yield prediction models to assess yield gains: a case study for wheat. Journal Field Crop Research 36: 161-166.
Bell, M.A., Fischer, R.A., Byerlee, D., and Sayre, K. 1995. Genetic and agronomic contributions to yield gains: a case study for wheat. Field Crops Research 44: 55–65.
Brancourt-Hulmel, M., Doussinault, G., Lecomte, C., Be´rard, P., Le Buanec, B., and Trottet, M. 2003. Genetic improvement of agronomic traits of winter wheat cultivars released in France from 1946 to 1992. Crop Science 43: 37–45.
Brennan, J.P., and Byerlee, D. 1991. The rate of crop varietal replacement on farms: measures and empirical results for wheat. Plant Varieties Seeds 4: 99-106.
Brisson, N., Gate, P., Couache, D., Charmet, G., Oury, F.-X., and Huard, F. 2010. Why are wheat yields stagnating in Europe? A comprehensive data analysis for France. Field Crops Research 119: 201–212.
Bruinsma, J. 2009. The resource outlook to 2050: by how much do land, water, and crop yields need to increase by 2050? In: Expert Meeting on How to Feed the World in 2050, FAO, Rome, Available at www.fao.org/fileadmin/templates/wsfs/docs/expert paper/05-Bruinsma ResourceOutlookto2050.pdf (verified 19.10.09) [Online]
Calderini, D.F., and Slafer, G.A. 1998. Changes in yield and yield stability in wheat during the 20th century. Field Crops Research 57: 335–347.
Cassman, K.G., Dobermann, A., Walters, D.T., and Yang, H. 2003. Meeting cereal demand while protecting natural resources and improving environmental quality. Annual Reviews Journal of Environmental Resource Economics 28 10.1–10.44.
CAWMA (Comprehensive Assessment of Water Management in Agriculture). 2007. Water for Food, Water for Life: A Comprehensive Assessment of Water Management in Agriculture. Earthscan/International Water Management Institute, London/Colombo.
Esmaeilzadeh Moghaddam, M., Jalal Kamali, M.R., Anet, Z., Roshani M., and Ghodsi, M. 2014. Temporal variation in phenological characteristics, grain yield, and yield components of spring bread wheat (Triticum aestivum L.) cultivars released in Iran between 1952 and 2009. Crop Breeding Journal 4(1): 57-64.
FAO (Food and Agriculture Organization), 2011. FAOSTAT. FAO, Rome, Available at http://faostat.fao.org/ (verified 16.07.11) [Online].
FAO.2009. http://www.fao.org/fileadmin/templates/wsfs/docs/Issues_papers/HLEF2050_Global_Agriculture.pdf.
Feyerherm, A.M. and Paulsen, G.M., 1981. An analysis of temporal and regional variation in wheat yields. Agronomy Journal 73: 863-867.
Feyerherm, A.M., Kemp, K.E., and Paulsen, G.M. 1988. Wheat yield analysis in relation to advancing technology in the Midwest United States. Agronomy Journal 80: 998-1001.
Firozjaee, A. 2015. Designing wheat ideotype for low input cropping systems: radiation, nitrogen and water use efficiency and the related traits in Iranian wheat cultivars released during 1948-2012. PhD thesis, Ferdowsi University of Mashhad, Mashhad, Iran. (In Persian with English Summary)
Fischer, R.A., Byerlee, D., and Edmeades, G.O. 2009. Can technology deliver on the yield challenge to 2050? In: Expert Meeting on How to Feed the World in 2050, FAO, Rome, Available at www.fao.org/fileadmin/templates/wsfs/docs/expertpaper/11-Fischer-etalTechnology-Challenge.pdf (verified 13.10.09) [Online].
Fischer, R.A., and Edmeades, G.O. 2010. Breeding and cereal yield progress. Crop Science 50: 85–98.
Gooding, M.J., Ellis, R.H., Shewry, P.R., and Schafield, J.D. 2003. Effects of restricted water availability and increased temperature on the grain filling, drying and quality of winter wheat. Journal of Cereal Science 37: 295–309.
Graybosch, R.A., and Peterson, C.J. 2010. Genetic improvement in winter wheat yields in the Great Plains of North America, 1959–2008. Crop Science, 50: 1882–1890.
Hafner, S. 2003. Trends in maize, rice and wheat yields for 188 nations over the past 40 years: a prevalence of linear growth. Agric. Ecosyst. Journal Environmental Science 97: 275–283.
Hall, A.J., and Richards, R.A. 2014. Prognosis for genetic improvement of yield potential and water-limited yield of major grain crops. Field Crops Research 143: 18-33.
Jaggard, K.W., Qi, A., and Ober, E.S. 2010. Possible changes to arable crop yields by 2050. Philosophical. Transaetions.of the Royal Society Biolological Sceince, 365: 2835–2851.
Jensen, N.F. 1978. Limits to growth in world food production. Ceilings for wheat yields are coming in developed countries. Science 201: 317-320.
Kalra, N., Chakraborty, D., Sharma, A., Rai, H.K., Jolly, M., Chander, S., Ramesh Kumar, P., Bhadraray, S., Barman, D., Mittal, R.B., Lal, M., and Sehgal, M. 2008. Effect of increasing temperature on yield of some winter crops in northwest India. Current Science 94: 82–88.
Khodarahmi, M., and Vazan, S. 2010. Trends in morphological and quantitative traits in bread wheat using introduced varieties during the last six decades in Iran. Journal of Agronomy and Plant Breeding 6(1): 29-42.
Koning, N., and Van Ittersum, M.K. 2009. Will the world have enough to eat? Current Opinion in Environmental Sustainability 1: 77–82.
Lobell, D.B., Cassman, K.G., and Field, C.B. 2009. Crop yield gaps: their importance, magnitudes, and causes. Annual Review Environmental Journal Resource Economics 34: 179–204.
Mackay, I.A., Horwell, J., Garner, J., White J., McKee and Philpott, H. 2011. Reanalyses of the historical series of UK variety trials to quantify the contributions of genetic and environmental factors to trends and variability in yield over time. Theoretical and Applied Genetics 122: 225–238.
MAJ. 2013. Ministry of Jehad-e-Keshavarzi of Iran, statistical database. Crop production statistics, available at: www.maj.ir/portal/Home/Default.aspx (In Persian)
Moll, R.H., Kamprath, E.J., and Jackson, W.A. 1982. Analysis and interpretation of factors which contribute to efficiency of nitrogen utilization. Agronomy Journal 74: 562-564.
Nassiri Mahallati, M., and Koocheki, A. 2014a. Long term evaluation of yield stability trend for cereal crops in Iran. Journal of Agroecology 6(3): 607-621. (In Persian with English Summary)
Nassiri Mahallati, M., and Koocheki, A. 2014b. Trend analysis of nitrogen use and productivity in cereal production systems of Iran. Journal of Agroecology, In Press. (In Persian)
O' Brien, L. 1982. Victorian wheat yield trends, 1898-1977. The Journal of.the Australian. Institute.of Agricultural. Science., 48: 163-167.
Sadras, V.O., and Lawson, C. 2011. Genetic gain in yield and associated changes in phenotype, trait plasticity and competitive ability of South Australian wheat varieties released between 1958 and 2007. Crop and Pasture Sci., 62: 533-549.
Sanchez-Garcia, M., Royo, C., Aparicio, N.J.A., and Álvaro, F. 2012. Genetic improvement of bread wheat yield and associated traits in Spain during the 20th century. Journal of Agricultural Science 151(1): 105–118.
Silvey, V. 1981. The contribution of new wheat, barley and oat varieties to increasing yield in England and Wales 1947-1978. Journal of the National Institute of Agricultural Botany 15: 399-412.
Sinclair, T.R., and Jamieson, P.D. 2006. Grain number, wheat yield and bottling beer: an analysis. Field Crops Research 98: 60–67.
Slafer, G.A., Satorre, E.H., and Andrade, F.H. 1993. Increases in grain yield in bread wheat from breeding and associated physiological changes. In: G.A. Slafer (Editor), Genetic Improvement of Field Crops. Marcel Dekker, New York, pp. 1-8.
Smil, V. 2005. Do we need higher farm yields during the first half of the 21st century? In Yields of farmed species. (eds R. Sylvester-Bradley and J. Wiseman), pp. 1–14. Nottingham, UK: Nottingham University Press.
Wang, F., He, Z., Sayre, K., Li, S., Si, J., Feng, B., and Kong, L. 2009. Wheat cropping systems and technologies in China. Field Crops Research 111: 181-188.
Zhang, X., Wang, S., Sun, H., Chen, S., Shao, L., and Liu, X. 2013. Contribution of cultivar, fertilizer and weather to yield variation of winter wheat over three decades: A case study in the North China Plain. European Journal of Agronomy 50: 52–59.
Zhou, Y., He, Z.H., Sui, X.X., Xia, X.C., Zhang, K., and Zhang, G.S. 2007. Genetic improve-ment of grain yield and associated traits in the Northern China winter wheat region from 1960 to 2000. Crop Science 47: 245–253.
Zare, A., Koocheki, A., and Nassiri, M. 2006. Trend analysis of yield, production and cultivated area of cereal in Iran during the last 50 years and prediction of future situation. Iranian Journal of Field Crops Research 4(1): 49-71. (In Persian with English Summary)
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