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Agricultural and Forest Meteorology, 171–172, 234–248. Climate change impacts on regional winter wheat production in main wheat production regions of China.
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Journal of Contaminant Hydrology, 7, 51–73. Statistical and graphical methods for evaluating solute transport models: Overview and application. Effects of rising atmospheric CO2 on evapotranspiration and soil moisture: A practical approach for the Netherlands. Robustness and uncertainties in the new CMIP5 climate model projections. Uncertainty analysis of statistical downscaling methods. European Journal of Agronomy, 18, 267–288. An overview of APSIM, a model designed for farming systems simulation. The potential impacts of climate change on maize production in Africa and Latin America in 2055. Contribution of Working Group I to the Fourth Assessment Report. In: Climate Change 2007: The Physical Science Basis. Philosophical Transactions of the Royal Society, 360, 2139–2148. Science of the Total Environmental, 442, 405–419. Climate change impacts on crop production in Iran’s Zayandeh-Rud River Basin. Gohari, A., Eslamian, S., Abedi-Koupaei, J., Massah Bavani, A., Wang, D., & Madani, K. Meteorological Applications, 19, 346–354. Rainfed wheat yields under climate change in northeastern Iran. Electronic Journal of Crop Production, 8(4), 203–224.Įyshi Rezaie, E., & Bannayan, M. Predicting the impacts of climate change on irrigated wheat yield in Fars province using APSIM model. Agriculture, Ecosystems & Environment, 107, 101–116.Įyni-Nargeseh, H., Deihimfard, R., Soufizadeh, S., Haghighat, M., & Nouri, O. Future scenarios of European agricultural land use. Field Crops Research, 184, 28–38.Įwert, F., Rounsevell, M. Yield gap analysis in major wheat growing areas of Khorasan province, Iran, through crop modelling. Mashhad: University of Ferdowsi Mashhad, Iran.ĭeihimfard, R., Nassiri Mahallati, M., & Koocheki, A. Yield gap analysis of wheat and sugar beet in Khorasan province using modeling approach. Summary of ICID definitions of irrigation efficiency. Potential uses and limitations of crop models. Association between climate indices, aridity index, and rainfed crop yield in northeast of Iran.
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International Journal of Biometeorology, 58, 395–405.īannayan, M., Sanjani, S., Alizadeh, A., Sadeghi Lotfabadi, S., & Mohamadian, A. Estimating climate change, CO 2 and technology development effects on wheat yield in northeast Iran. Climate change impacts on irrigated rice and wheat production in Gomti River basin of India: A case study. Overall, the improved water use efficiency under future climate change was largely the result of a significant increase in yield (from 6989.5 kg ha −1 at baseline to 8416.5 kg ha −1 in all future scenarios) and decreased evapotranspiration (from 506.8 mm at baseline to 478 mm in all future scenarios).Ībeysingha, N. Averaged across locations, scenarios and periods, water use efficiency increased by 3.56 kg ha −1 mm −1 in the future scenarios over baseline. The results indicate that, by the end of the century under the A2 emission scenario 10–15% of Fars province will have a grain yield of more than 10 t ha −1 and about 65% will have a grain yield of 8–10 t ha −1. The results indicated that the increase in CO 2 concentration to 674 ppm in 2099 under A1B neutralized the negative effects of high temperature during the growing season and improved crop yield. The APSIM (Agricultural Production Systems sIMulator) crop model was used to simulate growth and development of wheat as well as water use efficiency under future climate scenarios. Accordingly, a general circulation model (HadCM3) was applied for two emission scenarios (A1B and A2) for three periods (2011–30, 2046––2099) at nine locations in Fars province in central Iran. The objective of the current study was to investigate the effect of climate change on irrigated wheat production and water use efficiency in Fars province in Iran. Any change in environmental conditions will affect crop growth and development and have an effect on crop productivity.