6 Papers
Yi Gu is an academic researcher from Nanjing Agricultural University. The author has contributed to research in topics: Internal medicine & Soil pH. The author has an hindex of 4, co-authored 4 publications.
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Papers
Iron-Manganese (Oxyhydro)oxides, Rather than Oxidation of Sulfides, Determine Mobilization of Cd during Soil Drainage in Paddy Soil Systems.
TL;DR: Investigation of the factors controlling the temporal changes in Cd solubility in paddy soils found that Fe-Mn (oxyhydro)oxides play a critical (and prevalent) role in controlling the mobilization of Cd upon soil drainage in Paddy systems.
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The within-field spatial variation in rice grain Cd concentration is determined by soil redox status and pH during grain filling
TL;DR: It is highlighted that soil Eh, and more importantly, field-moist soil pH during grain filling determine grain Cd concentration and accordingly, incorporating measurements of soil redox status (or water content) and pH of field moist soils (rather than air-dried soils) duringgrain filling may improve the prediction ofgrain Cd concentrations.
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Chemical Speciation and Distribution of Cadmium in Rice Grain and Implications for Bioavailability to Humans
Yi Gu,Peng Wang,Shen Zhang,Jun Dai,Hongping Chen,Enzo Lombi,Daryl L. Howard,Antony van der Ent,Fang-Jie Zhao,Peter M. Kopittke +9 more
TL;DR: It is found that the variation in the distribution pattern of Cd in the rice grain was due to a temporal change in the supply ofCd from the soil porewater during grain filling, which has important implications for Cd bioavailability in human diets.
Stable isotope fractionation of cadmium in the soil-rice-human continuum
TL;DR: Analysis of isotope ratios revealed a preferential enrichment of the heavy Cd isotopes from soil to rice grain and from grain to urine, and multiple processes that alter the isotope ratio within the rice plant, but the net effect throughout the plant was comparatively small.
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Hypertension risk is associated with elevated concentrations of rare earth elements in serum.
Qiuming Zhong,Mengda Cao,Yi Gu,Yiwei Fang,Tianyu Zhong,Jiahe Xie,Jinling Yan,Junyun Huang,Peng Wang +8 more
TL;DR: In this paper , the association of toxic metal exposure with hypertension is not well understood and the underlying mechanisms responsible for the risk are warranted to investigate the underlying mechanism responsible for hypertension, affecting over 17.1 million individuals worldwide.
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