Abstract
This paper develops a lexicographic optimization model to allocate agricultural and non-agricultural water footprints by using the land area as the influencing factor. An index known as the water-footprint-land density (WFLD) index is then put forward to assess the impact and equity of the resulting allocation scheme. Subsequently, the proposed model is applied to a case study allocating water resources for the 11 provinces and municipalities in the Yangtze River Economic Belt (YREB). The objective is to achieve equitable spatial allocation of water resources from a water footprint perspective. Based on the statistical data in 2013, this approach starts with a proper accounting for water footprints in the 11 YREB provinces. We then determined an optimal allocation of water footprints by using the proposed lexicographic optimization approach from a land area angle. Lastly, we analyzed how different types of land uses contribute to allocation equity and we discuss policy changes to implement the optimal allocation schemes in the YREB. Analytical results show that: (1) the optimized agricultural and non-agricultural water footprints decrease from the current levels for each province across the YREB, but this decrease shows a heterogeneous pattern; (2) the WFLD of 11 YREB provinces all decline after optimization with the largest decline in Shanghai and the smallest decline in Sichuan; and (3) the impact of agricultural land on the allocation of agricultural water footprints is mainly reflected in the land use structure of three land types including arable land, forest land, and grassland. The different land use structures in the upstream, midstream, and downstream regions lead to the spatial heterogeneity of the optimized agricultural water footprints in the three YREB segments; (4) In addition to the non-agricultural land area, different regional industrial structures are the main reason for the spatial heterogeneity of the optimized non-agricultural water footprints. Our water-footprint-based optimal water resources allocation scheme helps alleviate the water resources shortage pressure and achieve coordinated and balanced development in the YREB.
Highlights
Water is one of the most precious natural resources on which human beings rely
Based on the 2013 sectional data of the 11 Yangtze River Economic Belt (YREB) provinces, we perform a cross-scale analysis and categorization of land uses for lexicographic allocation of basin water footprints
This research furnishes a proper accounting of the current agricultural and non-agricultural water footprints in the YREB based on the 2013 data
Summary
Water is one of the most precious natural resources on which human beings rely. Global climate change and the ever-increasing population lead to numerous conflicts over water rights due to the scarcity of water resources. Water shortage has arisen as a critical bottleneck for economic development and prosperity around the globe. The United Nations World Water Development Report of 2017 [1] shows that two-thirds of the world population lives in drylands with varying degrees of a water shortage. Recent rapid economic and societal development results in a higher consumption of water resources per capita and exacerbates water resource shortages, which makes the contradiction between human and water increasingly prominent. As such, it has become an urgent and widespread challenge to optimally allocate scarce water resources in many parts of the world
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