Caiyun Fei
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View article: Simultaneous remediation of Cd and As co-contaminated soil by microbial-induced carbonate precipitation technologies: evidence from laboratory and field studies
Simultaneous remediation of Cd and As co-contaminated soil by microbial-induced carbonate precipitation technologies: evidence from laboratory and field studies Open
View article: Simultaneous remediation of Cd and As co-contaminated soil by microbial-induced carbonate precipitation technologies:evidence from laboratory and field studies
Simultaneous remediation of Cd and As co-contaminated soil by microbial-induced carbonate precipitation technologies:evidence from laboratory and field studies Open
View article: Enhanced Adsorption and Biomineralization of Cadmium and Arsenic in Irrigation Water by Biological Soil Crusts: The Key Roles of Iron/Manganese and Urea
Enhanced Adsorption and Biomineralization of Cadmium and Arsenic in Irrigation Water by Biological Soil Crusts: The Key Roles of Iron/Manganese and Urea Open
Heavy metal pollution has become increasingly severe, with distinctive physiological characteristics of rice leading to significant accumulation of arsenic (As) and cadmium (Cd) in grains, posing serious health risks. Biological soil crust…
View article: Chemical-microbial effects of acetic acid, oxalic acid and citric acid on arsenic transformation and migration in the rhizosphere of paddy soil
Chemical-microbial effects of acetic acid, oxalic acid and citric acid on arsenic transformation and migration in the rhizosphere of paddy soil Open
Low-molecular-weight organic acids (LMWOAs) are essential components of rice roots exudates and an important source of soil organic carbon. The chemical-microbial pathway by which LMWOA affects arsenic (As) cycling in the rhizosphere of pa…