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Future projections of crop water and irrigation water requirements using a bias-corrected regional climate model coupled with CROPWAT

Abhishek Agrawal, Prashant K. Srivastava, Vinod Kumar Tripathi, Swati Maurya, Reema Sharma, D. J. Shrinivasa

2023Journal of Water and Climate Change19 citationsDOIOpen Access PDF

Abstract

Abstract The study is conducted to examine the climate change impact on rice Crop Water Requirement (CWR) and Net Irrigation Requirement (NIR) using the NASA Earth Exchange Global Daily Downscaled Projection (NEX-GDDP) coupled with the CROPWAT 8.0 model. The maximum temperature (Tmax), minimum temperature (Tmin), and rainfall projections for the baseline (years 1981–2015) and future (years 2030 and 2040) under Representative Concentration Pathway (RCP) 4.5 were derived from NEX-GDDP. To reduce the bias, linear scaling (LS) and the modified difference approach (MDA) were employed. Results show that LS performed better than the MDA along with improved statistical measures such as mean (μ), standard deviation (σ), and percent bias (Pbias), in the case of Tmax and Tmin (μ = 31.14 and 19.63 °C, σ = 5.75 and 6.78 °C, Pbias = 1.43 and 0.33%), followed by rainfall (μ = 2.67 mm, σ = 4.94 mm, and Pbias = 2.4%). The future climatic projections showed an increasing trend in both Tmax and Tmin, which are expected to increase by 1.7 °C by 2040. This would cause an increased range of 1.2 and 2% in 2030 and 2040, respectively. Due to a wide variation in effective rainfall (Peff), NIR could increase by 4 and 9% in 2030 and 2040, respectively. The above results may help formulate adaptation measures to alleviate the impacts of climate change on rice production.

Topics & Concepts

Environmental scienceIrrigationClimate changeRepresentative Concentration PathwaysCropStandard deviationCrop productionClimatologyClimate modelMathematicsAgronomyStatisticsAgricultureBiologyEcologyGeologyWater resources management and optimizationClimate change impacts on agricultureWater-Energy-Food Nexus Studies