Litcius/Paper detail

Investigating agricultural water sustainability in arid regions with Bayesian network and water footprint theories

Lingyun Zhang, Yang Yu, Zengkun Guo, Xiaoyun Ding, Jing Zhang, Ruide Yu

2024The Science of The Total Environment24 citationsDOIOpen Access PDF

Abstract

Water scarcity is a significant constraint in agricultural ecosystems of arid regions, necessitating sustainable development of agricultural water resources. This study innovatively combines Bayesian theory and Water Footprint (WF) to construct a Bayesian Network (BN). Water quantity and quality data were evaluated comprehensively by WF in agricultural production. This evaluation integrates WF and local water resources to establish a sustainability assessment framework. Selected nodes are incorporated into a BN and continuously updated through structural and parameter learning, resulting in a robust model. Results reveal a nearly threefold increase of WF in the arid regions of Northwest China from 1989 to 2019, averaging 189.95 × 10 8 m 3 annually. The region's agricultural scale is expanding, and economic development is rapid, but the unsustainability of agricultural water use is increasing. Blue WF predominates in this region, with cotton having the highest WF among crops. The BN indicates a 70.1 % probability of unsustainable water use. Sensitivity analysis identifies anthropogenic factors as primary drivers influencing water resource sustainability. Scenario analysis underscores the need to reduce WF production and increase agricultural water supply for sustainable development in arid regions. Proposed strategies include improving irrigation methods, implementing integrated water-fertilizer management, and selecting drought-resistant, economically viable crops to optimize crop planting structures and enhance water use efficiency in current agricultural practices in arid regions. This study not only offers insights into water management in arid regions but also provides practical guidance for similar agricultural contexts. The BN model serves as a flexible tool for informed decision-making in dynamic environments. • Comprehensive calculation of agricultural water footprint (blue, green, and grey) in arid regions • Construction of a Bayesian Network to assess water resource sustainability using the water footprint • Scenario analysis via Bayesian Network to evaluate the driving factors of agricultural water sustainability

Topics & Concepts

SustainabilityAridFootprintAgricultureEnvironmental scienceWater scarcityWater useVirtual waterBayesian networkFarm waterWater resourcesAgricultural productivityAgricultural engineeringWater resource managementEcosystemEnvironmental resource managementBayesian probabilityComputer scienceWater conservationMathematicsGeographyStatisticsEngineeringEcologyMachine learningBiologyArchaeologyWater resources management and optimizationHydrology and Watershed Management StudiesWater-Energy-Food Nexus Studies