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The value of seasonal forecasts for irrigated, supplementary irrigated, and rainfed wheat cropping systems in northwest Mexico

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  • Ramírez-Rodrigues, Melissa A.
  • Alderman, Phillip D.
  • Stefanova, Lydia
  • Cossani, C. Mariano
  • Flores, Dagoberto
  • Asseng, Senthold

Abstract

Half of global wheat production occurs in irrigated cropping regions that face increasing water shortages. In these regions, seasonal forecasts could provide information about in-season climate conditions that could improve resource management, helping to save water and other inputs. However, seasonal forecasts have not been tested in irrigated systems. In this study, we show that seasonal forecasts have the potential to guide crop management decisions in fully irrigated systems (FIS), reduced irrigation systems (supplementary irrigation; SIS), and systems without irrigation (rainfed; RFS) in an arid environment. We found that farmers could gain an additional 2USDha−1season−1 in net returns and save up to 26USDha−1season−1 in N fertilizer costs with a hypothetical always-correct-season-type-forecast (ACF) in a fully irrigated system compared to simulated optimized N fertilizer applications. In supplementary irrigated systems, an ACF had value when deciding on sowing a crop (plus supplementary irrigation) of up to 65USDha−1season−1. In rainfed systems, this value was up to 123USDha−1 when deciding whether or not to sow a crop. In supplementary irrigated and rainfed systems, such value depended on initial soil water conditions. Seasonal forecasts have the potential to assist farmers in irrigated, supplementary irrigated, and rainfed cropping systems to maximize crop profitability. However, forecasts currently available based on Global Circulation Models (GCM) and the El Niño Southern Oscillation (ENSO) need higher forecast skill before such benefits can be fully realized.

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  • Ramírez-Rodrigues, Melissa A. & Alderman, Phillip D. & Stefanova, Lydia & Cossani, C. Mariano & Flores, Dagoberto & Asseng, Senthold, 2016. "The value of seasonal forecasts for irrigated, supplementary irrigated, and rainfed wheat cropping systems in northwest Mexico," Agricultural Systems, Elsevier, vol. 147(C), pages 76-86.
    • Handle: RePEc:eee:agisys:v:147:y:2016:i:c:p:76-86
    DOI: 10.1016/j.agsy.2016.05.005
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    2. Yunqi Wang & Fuli Gao & Jiapeng Yang & Jianyun Zhao & Xiaoge Wang & Guoying Gao & Rui Zhang & Zhikuan Jia, 2018. "Spatio-Temporal Variation in Dryland Wheat Yield in Northern Chinese Areas: Relationship with Precipitation, Temperature and Evapotranspiration," Sustainability, MDPI, vol. 10(12), pages 1-12, November.
    3. Villano, Renato & Asante, Bright Owusu & Bravo-Ureta, Boris, 2019. "Farming systems and productivity gaps: Opportunities for improving smallholder performance in the Forest-Savannah transition zone of Ghana," Land Use Policy, Elsevier, vol. 82(C), pages 220-227.

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