A new and integrated hydro-economic accounting and analytical framework for water resources: A case study for North China

Guan, Dabo; Hubacek, Klaus

doi:10.1016/j.jenvman.2007.07.010

Cited by 117 publications

(75 citation statements)

References 24 publications

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“…Hubacek and Sun [14] compared water supply and demand for all major watersheds in China using hydro-ecological regions to match watersheds with administrative boundaries. Guan and Hubacek [15] extended this work by taking the pollution absorption capacity into account using North China as a case study. Hubacek et al [16] carried out a study on environmental implications of urbanization and lifestyle change in China by calculating ecological and water footprints, which is one of the first studies on water footprints by using the input-output model.…”

Section: Methodsmentioning

confidence: 99%

Spatially Explicit Analysis of Water Footprints in the UK

Feng

Hubacek

Minx

et al. 2010

Water

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Abstract:The Water Footprint, as an indicator of water consumption has become increasingly popular for analyzing environmental issues associated with the use of water resources in the global supply chain of consumer goods. This is particularly relevant for countries like the UK, which increasingly rely on products produced elsewhere in the world and thus impose pressures on foreign water resources. Existing studies calculating water footprints are mostly based on process analysis, and results are mainly available at the national level. The current paper assesses the domestic and foreign water requirements OPEN ACCESSWater 2011, 3 48 for UK final consumption by applying an environmentally extended multi-regional input-output model in combination with geo-demographic consumer segmentation data. This approach allows us to calculate water footprints (both direct and indirect) for different products as well as different geographies within the UK. We distinguished between production and consumption footprints where the former is the total water consumed from the UK domestic water resources by the production activities in the UK and the latter is the total water consumed from both domestic and global water resources to satisfy the UK domestic final consumption. The results show that the production water footprint is 439 m 3 /cap/year, 85% of which is for the final consumption in the UK itself. The average consumption water footprint of the UK is more than three times bigger than the UK production water footprint in 2006. About half of the UK consumption water footprints were associated with imports from Non-OECD countries (many of which are waterscarce), while around 19% were from EU-OECD countries, and only 3% from Non-EU-OECD countries. We find that the water footprint differs considerably across sub-national geographies in the UK, and the differences are as big as 273 m 3 /cap/year for the internal water footprint and 802 m 3 /cap/year for the external water footprint. Our results suggest that this is mainly explained by differences in the average income level across the UK. We argue that the information provided by our model at different spatial scales can be very useful for informing integrated water supply and demand side management.

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Section: Methodsmentioning

confidence: 99%

Spatially Explicit Analysis of Water Footprints in the UK

Feng

Hubacek

Minx

et al. 2010

Water

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“…Okadera, et al [37] estimated the demand for water and the water pollution generated in Chongqing using a regional IO table. Guan and Hubacek [38] considered the discharged wastewater based on the standard IO model. Two important papers on water IOO analysis were published by Chen, et al, focusing on different river basins in China [39,40] .…”

Section: Literature Reviewmentioning

confidence: 99%

Input-occupancy-output analysis of industrial wastewater discharge coefficients and backward and forward linkages: Multi-regional occupancy

Tang

Xia

2015

J Syst Sci Complex

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“…Largely due to data limitation and model constraint, most modeling studies analyzing water issues in China focus on particular regions (e.g., [23][24][25]). On the contrary, studies about water issues in China at the national scale are scarce.…”

Section: A Review On Economic Models Of Water Usementioning

confidence: 99%

Modeling the Impacts of Urbanization and Industrial Transformation on Water Resources in China: An Integrated Hydro-Economic CGE Analysis

Jiang

Liu

et al. 2014

Sustainability

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Pressure on existing water resources in China is expected to increase with undergoing rapid demographic transformation, economic development, and global climate changes. We investigate the economy-wide impacts of projected urban population growth and economic structural change on water use and allocation in China. Using a multi-regional CGE (Computable General Equilibrium) model, TERM (The Enormous Regional Model), we explore the implications of selected future water scenarios for China's nine watershed regions. Our results indicate that urbanization and industrial transformation in China will raise the opportunity cost of water use and increase the competition for water between non-agricultural users and irrigation water users. The growth in water demand for domestic and industrial uses reduces the amount of water allocated to agriculture, particularly lower-value and water-intensive field crops. As a response, farmers have the incentive to shift their agricultural operations from traditional field crop production to higher-value livestock or intensive crop production. In addition, our results suggest that growing water OPEN ACCESSSustainability 2014, 6 7587 demand due to urbanization and industrial transformation will raise the shadow price of water in all nine river basins. Finally, we find that national economic growth is largely attributable to urbanization and non-agricultural productivity growth.

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A new and integrated hydro-economic accounting and analytical framework for water resources: A case study for North China

Cited by 117 publications

References 24 publications

Spatially Explicit Analysis of Water Footprints in the UK

Spatially Explicit Analysis of Water Footprints in the UK

Input-occupancy-output analysis of industrial wastewater discharge coefficients and backward and forward linkages: Multi-regional occupancy

Modeling the Impacts of Urbanization and Industrial Transformation on Water Resources in China: An Integrated Hydro-Economic CGE Analysis

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