Qiuli Yang scite author profile

Qiuli Yang

2Publications

107Citation Statements Received

34Citation Statements Given

How they've been cited

141

100

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Affiliations

University of Chinese Academy of Sciences, Chinese Academy of Sciences, Institute of Botany

Publications

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Are Deep Aquifers Really Confined? Insights From Deep Groundwater Tidal Responses in the North China Platform

Zhang

Wang

et al. 2021

Water Resources Research

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Great amount of wastewaters coproduced from hydrofracking shales for the extraction of natural gas in the mid-continental US has been disposed into deep aquifers (e.g., McGarr et al., 2015;Walsh & Zoback, 2015;Weingarten et al., 2015). The US Environmental Protection Agency that regulates such practices to protect potable water sources from the injected wastewater focuses on well integrity and deep aquifers isolated from shallow groundwater by geologic barrier formations above the injection zone (e.g., Murray, 2014; U.S. Environmental Protection Agency, 2016). Concerns have been raised if the injected fluids may migrate upward and contaminate shallow groundwater (Vidic et al., 2013). Recent studies (Barbour et al., 2019;Wang et al., 2018) also showed that a targeted deep aquifer in Oklahoma (the Arbuckle aquifer) may be leaking near a USGS well, but no systematic evaluation of the confinement of aquifers buried by mudstones or shales has so far been made. The problem is timely and of global significance because the practice of Abstract Many deep aquifers overlain by barrier formations in the continental US are used as geological repositories for wastewaters coproduced from hydrocarbon exploration. This practice is to protect shallow groundwater following the US Environmental Protection Agency's regulation. Implicit in such practice is the assumption that deep aquifers overlain by mudstones or shales are confined so that the injected fluids will not migrate upward to contaminate shallow groundwater. However, no systematic test of this hypothesis has been made. Here we invert the groundwater response to both the M 2 and the O 1 tides and to the barometric pressure across a large (2.046 × 10 6 km 2 ) geologic regime, the North China Platform, to systematically evaluate the hydraulic parameters as functions of depth and time without a priori assumption. Our result, the first of such inversion, shows no depth dependence of aquifer confinement to a depth of 3,400 m and that deep confined aquifers overlain by barrier formations may become leaky after distant earthquakes. It suggests that monitoring of aquifer confinement may be needed to ensure if the targeted deep aquifer for wastewater injection is really confined. The results may be timely and of global significance because the practice of hydrofracking for natural gas and the deep injection for the disposal of the coproduced wastewaters in the US may soon be adopted by other countries, such as China.Plain Language Summary A great amount of wastewaters coproduced from hydrocarbon exploration in the mid-continental US has been injected into deep aquifers. Such practice has been based upon an implicit assumption that deep aquifers confined by aquitards are fully confined so that the injected toxic water will not leak back to contaminate shallow groundwater or the environment. This assumption, however, has never been carefully tested. Here we test this hypothesis using groundwater data from wells over a large geological regime, the North China Platform, as a function of...

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Neural network guided interpolation for mapping canopy height of China's forests by integrating GEDI and ICESat-2 data

Liu

et al. 2022

Remote Sensing of Environment

122

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Qiuli Yang

Are Deep Aquifers Really Confined? Insights From Deep Groundwater Tidal Responses in the North China Platform

Neural network guided interpolation for mapping canopy height of China's forests by integrating GEDI and ICESat-2 data

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