Research Article // Assessing the effects of water resources allocation on the uncertainty propagation in the water–energy–food–society (WEFS) nexus
By Yujie Zeng and colleagues. This article proposes an approach that helps to quantify the effects of water resources allocation on the uncertainty propagation in the WEF nexus and contributes to the sustainable development of the WEF nexus.
The map of mid–lower reaches of the Hanjiang River basin.
Abstract
The water–energy–food–society (WEF) nexus is profiled for sustainable development. The WEF nexus exhibits strong uncertainty owing to the stochasticity of model structure, and water availability uncertainty under climate change and human activities. The WEF nexus remains highly risky, as the uncertainty propagation in the WEF nexus under the regulation of water resources allocation has rarely been investigated. In this study, white Gaussian noises were integrated into a system dynamic model for the WEF nexus simulation, transforming the nexus from deterministic to stochastic. Based on a Monte Carlo simulation of the stochastic WEF nexus with water availability uncertainty, the copula function was applied to evaluate the joint distributions between water availability and water shortage rates in the upstream and downstream zones to investigate the uncertainty propagation in the WEF nexus. The effects of water resources allocation on the uncertainty propagation were analyzed by setting different water resources allocation schemes. The proposed approach was applied to the mid–lower reaches of Hanjiang River basin in China as a case study. The results indicate that an effective water resources allocation scheme can ensure water supply, and diminish the impacts of water availability uncertainty on water supply through reservoir operation. The annual average water supply rate increased from 84.74% to 93.45%, and the standard deviation decreased from 3.37% to 1.78%. The high-level environmental awareness evoked by water or food shortages decreased significantly with smaller uncertainty. The co-evolution of the WEF was ensured through its nexus. Water storage capacity was the vital factor to regulate the uncertainty propagation in the WEF nexus. The impacts of upstream water availability uncertainty were efficiently regulated via reservoir operation for the zones with sufficient water storage capacity. Water supply was ensured and there was no significant response of the WEFS through its nexus to different water resources allocation schemes. If there was few water storage capacity in a zone, the water supply was remarkably influenced by the water availability uncertainty in the upstream zone. The water supply was difficult to ensure, and was sensitive to different water resources allocation schemes. The environmental awareness evoked by water or food shortages increased. The environmental awareness feedback under the impacts of the noises increased water demand uncertainty by altering the socioeconomic expansion, further increased WEF uncertainty through its nexus, particularly when water availability was much smaller than water demand. The proposed approach can help quantify the effects of water resources allocation on the uncertainty propagation in the WEFS nexus and contribute to the sustainable development of the WEF nexus.
Published
May 2023
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Citation
Zeng, Y., Liu, D., Guo, S., Xiong, L., Liu, P., Chen, J., ... & Zhou, W. (2023). Assessing the effects of water resources allocation on the uncertainty propagation in the water–energy–food–society (WEFS) nexus. Agricultural Water Management, 282, 108279.
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