Projection of irrigation water demand based on the simulation of synthetic crop coefficients and climate change

Le Page, Michel; Fakir, Younes; Jarlan, Lionel; Boone, Aaron; Berjamy, Brahim; Khabba, Saïd; Zribi, Mehrez

In the context of major changes (climate, demography, economy, etc.), the southern Mediterranean area faces serious challenges with intrinsically low, irregular, and continuously decreasing water resources. In some regions, the proper growth both in terms of cropping density and surface area of irrigated areas is so significant that it needs to be included in future scenarios. A method for estimating the future evolution of irrigation water requirements is proposed and tested in the Tensift watershed, Morocco. Monthly synthetic crop coefficients (inline-formulaKc) of the different irrigated areas were obtained from a time series of remote sensing observations. An empirical model using the synthetic inline-formulaKc and rainfall was developed and fitted to the actual data for each of the different irrigated areas within the study area. The model consists of a system of equations that takes into account the monthly trend of inline-formulaKc, the impact of yearly rainfall, and the saturation of inline-formulaKc due to the presence of tree crops. The impact of precipitation change is included in the inline-formulaKc estimate and the water budget. The anthropogenic impact is included in the equations for inline-formulaKc. The impact of temperature change is only included in the reference evapotranspiration, with no impact on the inline-formulaKc cycle. The model appears to be reliable with an average inline-formular2 of 0.69 for the observation period (2000–2016). However, different subsampling tests of the number of calibration years showed that the performance is degraded when the size of the training dataset is reduced. When subsampling the training dataset to one-third of the 16 available years, inline-formular2 was reduced to 0.45. This score has been interpreted as the level of reliability that could be expected for two time periods after the full training years (thus near to 2050).

The model has been used to reinterpret a local water management plan and to incorporate two downscaled climate change scenarios (RCP4.5 and RCP8.5). The examination of irrigation water requirements until 2050 revealed that the difference between the two climate scenarios was very small (inline-formula< 2 %), while the two agricultural scenarios were strongly contrasted both spatially and in terms of their impact on water resources. The approach is generic and can be refined by incorporating irrigation efficiencies.

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Le Page, Michel / Fakir, Younes / Jarlan, Lionel / et al: Projection of irrigation water demand based on the simulation of synthetic crop coefficients and climate change. 2021. Copernicus Publications.

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