D
Di Zhang
Researcher at China University of Geosciences (Beijing)
Publications - 15
Citations - 524
Di Zhang is an academic researcher from China University of Geosciences (Beijing). The author has contributed to research in topics: Groundwater & Aquifer. The author has an hindex of 10, co-authored 15 publications receiving 320 citations. Previous affiliations of Di Zhang include China University of Geosciences (Wuhan).
Papers
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Journal ArticleDOI
Contrasting distributions of groundwater arsenic and uranium in the western Hetao basin, Inner Mongolia: Implication for origins and fate controls.
Huaming Guo,Jia Yongfeng,Richard B. Wanty,Yuxiao Jiang,Weiguang Zhao,Wei Xiu,Jiaxing Shen,Yuan Li,Yongsheng Cao,Yang Wu,Di Zhang,Chao Wei,Yilong Zhang,Wengeng Cao,Andrea L. Foster +14 more
TL;DR: It is concluded that the contrasting distributions of groundwater As and U present a challenge to ensuring safe drinking water in analogous areas, especially with high background values of U and As.
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Controls of organic matter bioreactivity on arsenic mobility in shallow aquifers of the Hetao Basin, P.R. China
TL;DR: Li et al. as mentioned in this paper provided an extensive characterization of dissolved organic matter (DOM) in shallow groundwater, surface water, and sediments near a permanent wetland and a dried wetland in the Hetao basin with high As groundwater and low As groundwater, respectively, using fluorescence spectroscopy and parallel factor analysis (PARAFAC).
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Arsenic mobilization in aquifers of the southwest Songnen basin, P.R. China: evidences from chemical and isotopic characteristics.
Huaming Guo,Di Zhang,Dongguang Wen,Yang Wu,Ping Ni,Yuxiao Jiang,Qi Guo,Fulan Li,Hao Zheng,Yinzhu Zhou +9 more
TL;DR: Reducing conditions were the major causes for As mobilization in the aquifers, which led to more As released from the sediments with higher contents of Fe/Mn oxide-bound As in higher As groundwater area.
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In-situ mobilization and transformation of iron oxides-adsorbed arsenate in natural groundwater
TL;DR: It is suggested that As desorption, reductive dissolution and mineral transformation of ferrihydrite would be the major processes controlling As mobility.
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Model-Based Interpretation of Groundwater Arsenic Mobility during in Situ Reductive Transformation of Ferrihydrite
TL;DR: The results show the capability of the proposed approach to reproduce the temporal trends of solid arsenic and ferrihydrite concentrations, as well as the spatial variability of mineral transformation, observed in different wells using a common set of surface complexation parameters and kinetic rate constants.