Assessment of Water Resources Carrying Capacity in Tianjin City of China

Song, Xiaomeng; Kong, Fanyu; Zhan, Chesheng

doi:10.1007/s11269-010-9730-9

Cited by 140 publications

(76 citation statements)

References 37 publications

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“…These five zones are based on the characteristics of the groundwater aquifer. The high zone can yield 100 to 300 m 3 Prior to the inception of perennial canal irrigation, the major factor of the ground water recharge in the region was the infiltration of water from the rivers. This was augmented in the upper parts of the Bari Doab by the infiltration of precipitation which exceeds 30 inches per year locally.…”

Section: Hydrogeologymentioning

confidence: 99%

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Determination of aquifer parameters using geoelectrical sounding and pumping test data in Khanewal District, Pakistan

Akhter

Hasan

2016

Open Geosciences

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Abstract:In order to determine the ground water resources and potentials of the Khanewal District of Pakistan, a geophysical method in combination with pumping test data were used. An analytical relationship between the aquifer parameters interpreted from surface geoelectrical method and pumping test was established in order to estimate aquifer parameters from surface measurements where no pumping tests exist. For the said purpose, 48 geoelectric investigations were carried out using Schlumberger vertical electrical sounding (VES). Seven of the soundings were conducted where pumping tests had been carried out at borehole sites. The vertical electrical sounding stations were interpreted, and resistivities and thickness parameters were calculated.

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Section: Hydrogeologymentioning

confidence: 99%

“…Due to a rapid increase in population and agriculture, the exploitation of groundwater resources is expanding worldwide [2,3]. The subsurface characteristics like lithology, structure and texture control the occurrence and movement of groundwater [2].…”

Section: Introductionmentioning

confidence: 99%

Determination of aquifer parameters using geoelectrical sounding and pumping test data in Khanewal District, Pakistan

Akhter

Hasan

2016

Open Geosciences

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“…Other researchers have started to establish their own methodologies with a focus more on environmental impacts than resource availability, among which are Mwalyosi [1991], McConnell [1995], Graymore [2005], and Graymore et al [2010]. NRECC methodologies form a different perspective regarding resources and environment which so far includes various organizational elements, such as the carrying capacity of land resources [Cohen, 1995;Gutteridge, 2006;Fairlie, 2007], the carrying capacity of water resources [Falkenmark and Lundqvist, 1998;Peters et al, 2009;Song et al, 2011], the carrying capacity of the environment or environmental capacity [Van Den Bergh, 1993;McConnell, 1995;Graymore et al, 2010], the ecological sustainability index or ecological footprint [Rees, 1992;Barrett and Odum, 2000;Sidle et al, 2013]. These current methodologies are often based on single factor assessment.…”

Section: Supporting Informationmentioning

confidence: 99%

Risk forewarning of regional development sustainability based on a natural resources and environmental carrying index in China

et al. 2017

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It is a matter of public consensus that China's high growth rate has been achieved at the expense of natural resources and the environment, leading to serious risks to sustainability. This research, which proposes a theoretical model to forewarn of risks to regional developmental sustainability in China, constitutes the first empirical evaluation of this to be undertaken there. The results show that: (a) the areas at risk cover almost 43% of the land and 44% of the population of mainland China. In those areas, 83.56% of people at risk are threatened by the low carrying capacity of the environment and limited water resources. (b) With 70% of the total population living in "at risk" areas, urbanization zones remain as the primary category suffering from overload across China. Extensive industrialization has resulted in environmental pollution, which contributes the most to the forewarning status, while the secondary cause is found to be the special coupling of the scarcity of natural water resources and their inefficient use. In addition, most urban conglomerations suffer from pollution by industrial production and household consumption, which tends to extend to their surrounding agricultural areas. Extensive mineral exploitation in ecologically fragile areas has made them increasingly more vulnerable to disturbances from their neighboring resource-driven urban areas. The paper uses these findings to suggest how to intensify the special regulatory administration of resources and the environment, and to transform approaches to industrialization, in order to address sustainable development issues in developing countries.

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“…Considering the technology change, our model introduced three kinds of advance sewage water treatment technologies. All three kinds of Membrane Bio-Reactor technologies are expected to be chosen (Table 2), Double Membrane Bio-Reactor (DMBR) [40], Ceramic Membrane Bio-Reactor (CMBR) [41] and Extractive Membrane Bio-Reactor (EMBR) [37], because they are currently considered the most promising options for resource-based cities. The construction and operation cost, productivity, and environmental and investment efficiencies have been specified, which dictates where, and how much of, a particular technology can be utilized.…”

Section: Water Recyclingmentioning

confidence: 99%

A Multi-Objective Input–Output Linear Model for Water Supply, Economic Growth and Environmental Planning in Resource-Based Cities

Sha

Yan

et al. 2016

Sustainability

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Water resource and environment capacity have become two of the most important restrictions for sustainable development in resource-based cities whose leading industries are the exploitation and processing of resources. Taking Ordos in China as an example, this article constructs an integrated model combining a multi-objective optimization model with input-output analysis to achieve the tradeoffs between economic growth, water utilization and environmental protection. This dynamic model includes socioeconomic, water supply-demand, water quality control, air quality control, energy consumption control and integrated policy sub-models. These six sub-models interact with each other. After simulation, this article proposes efficient solutions on industrial restructuring by maximizing the Gross Regional Product of Ordos from 394.3 in 2012 to 785.1 billion RMB in 2025 with a growth rate of 6.4% annually; and presents a water supply plan by maximizing the proportion of reclaimed water from 2% to 6.3% through sewage treatment technology selection and introduction, and effective water allocation. Meanwhile, the environmental impacts are all in line with the planning targets. This study illustrates that the integrated modeling is generic and can be applied to any region suffering uncoordinated development issues and can serve as a pre-evaluation approach for conducting early warning research to offer suggestions for government decision-making.

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Assessment of Water Resources Carrying Capacity in Tianjin City of China

Cited by 140 publications

References 37 publications

Determination of aquifer parameters using geoelectrical sounding and pumping test data in Khanewal District, Pakistan

Determination of aquifer parameters using geoelectrical sounding and pumping test data in Khanewal District, Pakistan

Risk forewarning of regional development sustainability based on a natural resources and environmental carrying index in China

A Multi-Objective Input–Output Linear Model for Water Supply, Economic Growth and Environmental Planning in Resource-Based Cities

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