Z
Zhenguo Shen
Researcher at Nanjing Agricultural University
Publications - 116
Citations - 4198
Zhenguo Shen is an academic researcher from Nanjing Agricultural University. The author has contributed to research in topics: Peroxidase & Superoxide dismutase. The author has an hindex of 32, co-authored 116 publications receiving 2942 citations.
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Journal ArticleDOI
Microbial communities of an arable soil treated for 8 years with organic and inorganic fertilizers
Chen Chen,Jianan Zhang,Min Lu,Chun Qin,Yahua Chen,Li Yang,Qiwei Huang,Jichen Wang,Zhenguo Shen,Qirong Shen +9 more
TL;DR: It is suggested that the fungal and bacterial communities respond differently to the long-term organic-inorganic fertilization, which may result from different effects of NO3−-N/OM content of soil on the composition of fungaland bacterial communities.
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Analysis of the long-term effectiveness of biochar immobilization remediation on heavy metal contaminated soil and the potential environmental factors weakening the remediation effect: A review.
Jie Wang,Liang Shi,Lulu Zhai,Haowen Zhang,Shengxiao Wang,Jianwen Zou,Zhenguo Shen,Chunlan Lian,Yahua Chen +8 more
TL;DR: In this article, a review was carried out on the published literature results concerning remediation effects of biochar on different areas of heavy metal contaminated soil in the recent years, its application in field remediation (several years), and some potential abiotic and biotic factors that may weaken the immobilization effects of Biochar.
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Cadmium-induced accumulation of hydrogen peroxide in the leaf apoplast of Phaseolus aureus and Vicia sativa and the roles of different antioxidant enzymes
TL;DR: Results indicated that V. sativa was more tolerant to Cd than P. aureus, and the majority of Cd-induced reactive oxygen species production in the leaves of both species may involve plasma membrane-bound NADPH oxidase and apoplastic peroxidase.
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Cd-induced oxidative stress and lignification in the roots of two Vicia sativa L. varieties with different Cd tolerances.
TL;DR: Cd toxicity induced significant lignification in the roots of V. sativa, and increases in H2O2 accumulation and apoplastic GPOD activity were likely responsible for this effect.
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Cadmium-induced oxidative damage and protective effects of N-acetyl-L-cysteine against cadmium toxicity in Solanum nigrum L.
TL;DR: Results suggest that NAC could protect plants from oxidative stress damage, and this protection seems to be performed via increased GSH biosynthesis, through increased biosynthesis of Cd-binding proteins.