Water Ecosystem Service Quality Evaluation and Value Assessment of Taihu Lake in China

Zhao, Qingjian; Wang, Qiuyan

doi:10.3390/w13050618

Cited by 28 publications

(13 citation statements)

References 29 publications

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“…In the selection of research scope in the Yangtze River Basin, some studies specifically select a single typical city in the Yangtze River Basin [ 62 ], and some studies select the sub-basins below the Yangtze River Basin [ 63 ]. From the perspective of water–energy–food symbiosis, this research studies the degree of symbiotic coordination of the WEF ecosystem in the Yangtze River Basin, and takes into account the social, economic and ecological environment.…”

Section: Resultsmentioning

confidence: 99%

Two-Step Measurement of Water–Energy–Food Symbiotic Coordination and Identification of Key Influencing Factors in the Yangtze River Basin

Chen

2021

Entropy

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With the intensification of people’s production and life behaviors, the systemic risks of water, energy and food in the Yangtze River Basin have become increasingly prominent, which has become a bottleneck for sustainable development of social, economic and ecological in the basin. Therefore, studying the symbiotic coordination between water, energy and food is of great significance to promoting regional sustainable development. First, from the perspective of water–energy–food symbiosis, with the water–energy–food ecosystem conceptual model as the nexus, the two-step measurement model of the symbiotic index and the symbiotic level index is used to study the water–energy–food symbiosis of the Yangtze River. Then, we use the BP-DEMATEL-GTCW model to identify the key influencing factors that affect the symbiotic security of the water–energy–food ecosystem. In this research, it is found that the average value of the symbiotic degree of the water–energy–food ecosystem of the 11 provinces or municipalities in the Yangtze River Basin only reached the risk grade. It can also be seen from the identification results of key influencing factors that energy microsystem-related indicators have a greater impact on the symbiotic development of the entire WEF ecosystem. Therefore, special attention needs to be paid to increasing energy sources and reducing expenditure. Relevant departments need to effectively develop primary energy production and expand energy-saving investment through multiple channels to expand energy self-sufficiency and ultimately promote the coordinated and effective development of water, energy and food in the Yangtze River Basin.

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Section: Resultsmentioning

confidence: 99%

Two-Step Measurement of Water–Energy–Food Symbiotic Coordination and Identification of Key Influencing Factors in the Yangtze River Basin

Chen

2021

Entropy

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“…R nj = P z Q z − P n × A j (11) where R nj represents the farmland irrigation benefit of the j_th administrative village (dollars), P z represents the price of crops (USD/t), Q z represents the yield of crops per hectare (t/ha), P n represents the irrigation water fee for farmland (USD/ha), A j represents the crop planting area (ha) of the j_th administrative village.…”

Section: Farmland Irrigation Cost-benefit Analysis Before Water-savin...mentioning

confidence: 99%

“…It is a general term for the material products and services provided by the ecosystem, including provisioning services, regulation services and cultural services [5][6][7]. The research on ecosystem services mainly focuses on the following aspects: ecosystem service trade-offs and coordination methods [8,9], the temporal and spatial changes of ecosystem services [10][11][12][13][14], the formation mechanism and change driving factors of ecosystem services [15][16][17][18], the relationship between ecosystem services and human well-being [19,20], etc. Remote sensing and GIS technologies have been fully used in these researches of ecosystem services, and combined with different models to carry out large-scale spatial measurement of ecosystem service value, which has revolutionized the evaluation of ecosystem service value.…”

Section: Introductionmentioning

confidence: 99%

Assessing Ecological Infrastructure Investments—A Case Study of Water Rights Trading in Lu’an City, Anhui Province, China

Wang

Zhao

2022

IJERPH

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Investment in ecological infrastructure construction alters behaviors and quantities of the ecosystem service (ES) provided, and market-clearing can learn the value and scale of ES. We integrated ecological and economic methods to put forward the idea of realizing the aquatic ecological products’ value by investing in water-saving irrigation infrastructure. Firstly, the demand for aquatic ecological products was calculated by a Cobb–Douglas production function, and then the supply of aquatic ecological products was estimated by InVEST and water-saving potential models; Finally, the scale of ecological infrastructure investment and the aquatic ecological products’ value are illustrated by cost-benefit analysis and market equilibrium theory. Research indicates that, (1) industrial water efficiency is high, and the ecological infrastructure construction provides a considerable number of ecological products; (2) implementing water-saving irrigation project is at least 30% more profitable than maintaining the status quo; (3) the market-clearing results showed that the market equilibrium price is about 0.256 USD/m3, and the transaction volume is about 1.667 billion m3. The output value of industrial enterprises after buying water can reach about 1.37 times of the current stage, reflecting the aquatic ecological products’ value. Investment in water-saving irrigation infrastructure has huge economic, social and ecological benefits, and provides reference for decision-making.

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“…There are multiple pathways that link water to public health in cities (Rietveld et al 2016) but essentially urban waters provide ecological and social ecosystem services (Costadone et al 2021). The ecosystem services which can be supplied by an urban water clearly depend on the quality of the water in the blue spaces (Zhao and Wang 2021). In urban environments, freshwater systems are exposed to a variety of anthropogenic stressors that may all have a deteriorating effect on the water quality such as eutrophication (Toor et al 2017), hydrological changes (Fletcher et al 2013), and recreation (Venohr et al 2018).…”

Section: Introductionmentioning

confidence: 99%

Ecological characterisation of urban ponds in the Netherlands: a study based on data collected by volunteers

Peeters¹,

Wilhelm²,

Gerritsen³

et al. 2023

Frontiers of Biogeography

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Highlights• A citizen science project was launched to investigate private garden ponds and public urban ponds in the Netherlands in 2021• Private garden ponds are in general smaller with more floating vegetation than public urban ponds• Garden and public urban ponds largely share macroinvertebrate communities but also may harbour specific communities• Water depth and to a lesser extent submerged vegetation appeared to be more important for macroinvertebrates in urban ponds than presence of fish or floating vegetation• Citizen science can generate valuable data and information that professionals can't or usually won't obtain

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Water Ecosystem Service Quality Evaluation and Value Assessment of Taihu Lake in China

Cited by 28 publications

References 29 publications

Two-Step Measurement of Water–Energy–Food Symbiotic Coordination and Identification of Key Influencing Factors in the Yangtze River Basin

Two-Step Measurement of Water–Energy–Food Symbiotic Coordination and Identification of Key Influencing Factors in the Yangtze River Basin

Assessing Ecological Infrastructure Investments—A Case Study of Water Rights Trading in Lu’an City, Anhui Province, China

Ecological characterisation of urban ponds in the Netherlands: a study based on data collected by volunteers

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