Challenges at the intersection of water conservation, land protection, food security, and economic growth cross industrial boundaries, and also involve synergies with multiple policy domains. Despite this, little is known about how system heterogeneity affects water, land, and food (WLF) consumption performance at a sectoral level. This study integrates superedge analysis with a flow interaction network, elasticity theory, and utility analysis to detect the WLF nexus with regard to resource efficiency gains. Three indicators (intra-sector recycling efficiency, trans-sector allocation efficiency, and symbiosis of system structure) are proposed as mechanisms by which to quantitatively explore intra-sector and trans-sector nexus, and formulate improvement strategies for sectoral WLF savings. The results show synergies between recycling efficiency and water/food productivity. Manufacturing servitization and agricultural industrialization can drive more efficient WLF allocation by minimizing resource misallocation, whilst positive industrial ecology enhances WLF circulation and facilitates reducing resource undue competition. In addition, the ability of industries to save resources under the nexus is examined. Approximately 93% of sectors suffer from resource waste, misallocation, and undue competition. Therefore, strategic paths enhance resource synergy and, through so doing, enable WLF efficiency gains.
Keywords: Flow interaction network; Intra-sector recycling efficiency; Superedge-based analysis; Symbiosis of system structure; Trans-sector allocation efficiency; Water-land-food nexus.
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