Water Use Efficiency Improvement against a Backdrop of Expanding City Agglomeration in Developing Countries—A Case Study on Industrial and Agricultural Water Use in the Bohai Bay Region of China

Bai, Minghao; Zhou, Shenbei; Zhao, Min; Yu, Jing

doi:10.3390/w9020089

Cited by 18 publications

(11 citation statements)

References 83 publications

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“…Agricultural and industrial sectors are the largest water consumers in China. Thus, industrial transformation and upgrading is significant for improving water use efficiency [57]. This paper takes the proportion of value added of the tertiary industry to the total output as the measurement of local industrial structure.…”

mentioning

confidence: 99%

Re-Examining Regional Total-Factor Water Efficiency and Its Determinants in China: A Parametric Distance Function Approach

Zheng

Zhang

Xing

2018

Water

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It is accepted that improving water efficiency is a key task for China in achieving water sustainability, as the knowledge of water efficiency and its determinants can provide critical information for water policy formulation. To this end, this paper presents a parametric frontier approach to analyze water efficiency performance and its influencing factors in one step. The proposed approach first introduces the Shephard water distance function to construct total-factor water efficiency (TFWE) index and then adopts the stochastic frontier analysis (SFA) technique to compute the index and its determinants. A case study of regions in China from 2000 to 2015 is presented. The main findings are summarized as follows: (1) Both the overall China and most of the regions still have room for improvement in water efficiency. SFA and data envelopment analysis (DEA) might lead to different results in benchmarking water efficiency. Moreover, SFA has higher discriminating power than DEA in this regard. (2) There exists significant disparity of water efficiency among the regions of China, and the difference in TFWE takes on a U-shaped evolution trend, which first decreases in a fluctuation way and then increases monotonically. (3) Factors like industrial structure, import and export trade, environmental regulation and urbanization level have a positive impact on water efficiency, while resource endowment and economic level exhibit negative and nonlinear effects, respectively. Finally, several policy recommendations are made to improve water efficiency levels and promote water sustainability.

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mentioning

confidence: 99%

Re-Examining Regional Total-Factor Water Efficiency and Its Determinants in China: A Parametric Distance Function Approach

Zheng

Zhang

Xing

2018

Water

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“…The first two peer-reviewed communications presenting the Kilimanjaro Concept have clearly stated that people should be ready to accept long-distance water piping systems [18,19]. The premise of this section is that the expertise for long-distance water transport is mostly available in China [6,8,29,[58][59][60], and could just be adapted to the needs of the EARV regions. On the other hand, China can base its drinking water supply in fluoride-polluted areas on the KC and use the extended KC for groundwater recharge in the whole country.…”

Section: Lessons From Chinamentioning

confidence: 99%

“…Climate change, population growth, and rapid industrialization are regarded as the three main global drivers increasing stresses on safe drinking water supply worldwide [1][2][3][4][5][6][7][8][9][10][11][12][13]. Drinking water supply has two main challenging aspects: water quantity and water quality.…”

Section: Introductionmentioning

confidence: 99%

Making Rainwater Harvesting a Key Solution for Water Management: The Universality of the Kilimanjaro Concept

Marwa

Mwamila³

et al. 2019

Sustainability

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Rainwater is conventionally perceived as an alternative drinking water source, mostly needed to meet water demand under particular circumstances, including under semi-arid conditions and on small islands. More recently, rainwater has been identified as a potential source of clean drinking water in cases where groundwater sources contain high concentrations of toxic geogenic contaminants. Specifically, this approach motivated the introduction of the Kilimanjaro Concept (KC) to supply fluoride-free water to the population of the East African Rift Valley (EARV). Clean harvested rainwater can either be used directly as a source of drinking water or blended with polluted natural water to meet drinking water guidelines. Current efforts towards the implementation of the KC in the EARV are demonstrating that harvesting rainwater is a potential universal solution to cover ever-increasing water demands while limiting adverse environmental impacts such as groundwater depletion and flooding. Indeed, all surface and subsurface water resources are replenished by precipitation (dew, hail, rain, and snow), with rainfall being the main source and major component of the hydrological cycle. Thus, rainwater harvesting systems entailing carefully harvesting, storing, and transporting rainwater are suitable solutions for water supply as long as rain falls on earth. Besides its direct use, rainwater can be infiltrating into the subsurface when and where it falls, thereby increasing aquifer recharge while minimizing soil erosion and limiting floods. The present paper presents an extension of the original KC by incorporating Chinese experience to demonstrate the universal applicability of the KC for water management, including the provision of clean water for decentralized communities.

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“…The contention of these papers is that at least some elements of this dilemma can be traced back to the Dutch Disease, aid volatility, and political deterioration, each of which is known to lower the effectiveness of foreign aid [3]. According to Zhupankin et al [4], "the uneven spatial distribution and complex pattern of transboundary water sources with contrasting national water needs have created an intricate water dilemma" [5,6]. In general, donor countries apply two approaches to make their aid more effective [3].…”

Section: Introductionmentioning

confidence: 99%

The Paradox of Water Management Projects in Central Asia: An Institutionalist Perspective

Chatalova

Djanibekov

Gagalyuk

et al. 2017

Water

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After the disintegration of the Soviet Union, the Central Asian countries have been faced with numerous development challenges in agriculture, especially those related to water use. Well-intentioned foreign donors and development agencies have stepped in to support local farmers, research centers, and public authorities in devising innovative solutions. Yet, development aid projects have borne fruit only partially. Paradoxically, innovative and apparently useful technologies proposed by foreign donors have rarely and only partially succeeded in taking root in the local institutional contexts. To explain this paradox, this paper draws on the institutional approach which shows the possibility of technological innovations being encapsulated by dysfunctional institutions. Reviewing recent studies of water-related projects in Central Asia, the paper shows this encapsulation to be at the core of the development project failures pervasive both in the Soviet period and today. If the concept of encapsulation is valid, then the current development efforts can be made more effective by detecting and counteracting the structures of vested interest on the part of all the actors involved, such as foreign donors, public authorities, research centers and local farmers.

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Water Use Efficiency Improvement against a Backdrop of Expanding City Agglomeration in Developing Countries—A Case Study on Industrial and Agricultural Water Use in the Bohai Bay Region of China

Cited by 18 publications

References 83 publications

Re-Examining Regional Total-Factor Water Efficiency and Its Determinants in China: A Parametric Distance Function Approach

Re-Examining Regional Total-Factor Water Efficiency and Its Determinants in China: A Parametric Distance Function Approach

Making Rainwater Harvesting a Key Solution for Water Management: The Universality of the Kilimanjaro Concept

The Paradox of Water Management Projects in Central Asia: An Institutionalist Perspective

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