Jie Liu scite author profile

This article analyzes part of a ground water flow system in the North China Plain (NCP) subject to severe overexploitation and rapid depletion. A transient ground water flow model was constructed and calibrated to quantify the changes in the flow system since the predevelopment 1950s. The flow model was then used in conjunction with an optimization code to determine optimal pumping schemes that improve ground water management practices. Finally, two management scenarios, namely, urbanization and the South-to-North Water Transfer Project, were evaluated for their potential impacts on the ground water resources in the study area. Although this study focuses on the NCP, it illustrates a general modeling framework for analyzing the sustainability, or the lack thereof, of ground water flow systems driven by similar hydrogeologic and economic conditions. The numerical simulation is capable of quantifying the various components of the overall flow budget and evaluating the impacts of different management scenarios. The optimization modeling allows the determination of the maximum "sustainable pumping" that satisfies a series of prescribed constraints. It can also be used to minimize the economic costs associated with ground water development and management. Furthermore, since the NCP is one of the most water scarce and economically active regions in the world, the conclusions and insights from this study are of general interest and international significance.

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Modeling surface water-groundwater interaction in arid and semi-arid regions with intensive agriculture

Tian

Zheng

et al. 2015

Environmental Modelling & Software

154

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Big Earth Data: a new challenge and opportunity for Digital Earth’s development

Guo

Liu

Jiang

et al. 2016

International Journal of Digital Earth

128

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Digital Earth has seen great progress during the last 19 years. When it entered into the era of big data, Digital Earth developed into a new stage, namely one characterized by 'Big Earth Data', confronting new challenges and opportunities. In this paper we give an overview of the development of Digital Earth by summarizing research achievements and marking the milestones of Digital Earth's development. Then, the opportunities and challenges that Big Earth Data faces are discussed. As a data-intensive scientific research approach, Big Earth Data provides a new vision and methodology to Earth sciences, and the paper identifies the advantages of Big Earth Data to scientific research, especially in knowledge discovery and global change research. We believe that Big Earth Data will advance and promote the development of Digital Earth.

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Jie Liu

Use of flow modeling to assess sustainability of groundwater resources in the North China Plain

Can China Cope with Its Water Crisis?—Perspectives from the North China Plain

Ground Water Sustainability: Methodology and Application to the North China Plain

Modeling surface water-groundwater interaction in arid and semi-arid regions with intensive agriculture

Big Earth Data: a new challenge and opportunity for Digital Earth’s development

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