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- Title
Reducing Arsenic Concentration in Panax notoginseng via Contaminant Immobilization in Soil Using Fe-Ce Oxide.
- Authors
Longyong Lin; Lirong Zhong; Xiulan Yan; Yang Fei
- Abstract
Panax notoginseng (Burk.) F.H. Chen, a valuable Chinese medicine, is currently confronted with arsenic (As) contamination in China due to soil pollution. Our previous research demonstrated that Fe(0) and zeolite had a certain inhibitory effect on As accumulation in P. notoginseng. In order to further reduce As accumulation in the plant, a synthetic iron material (Fe-Ce oxide [FC]) with high As adsorption capacity was tested for As remediation. In the study, after FC was applied to the Ascontaminated soil, Panax notoginseng was planted in the soil. The As leaching behavior of the treated soil and As accumulation in P. notoginseng were evaluated. The results showed that FC immobilized As more effectively than Fe(0) and zeolite in soils with high As concentrations. When the FC dosage was 0.5 % (w/w), As concentration of P. notoginseng root (the main medicinal part) decreased by 56%, and root biomass increased by 55%. Results indicated FC could reduce the non-specifically adsorbed As fraction (F1) and specifically adsorbed As fraction (F2) by 22 to 31% and 5 to 17%, respectively, thus reducing the toxicity characteristic leaching procedure leachable As concentration by 41 to 67%. The finding of an iron plaque coating on the plant root and its function as a barrier to As uptake by P. notoginseng is reported here for the first time. The occurrence of iron plaque led to a reduction in As concentration in the phellem and xylem- phloem by 66 to 80% and 43 to 70%, respectively. Our findings will help in developing As contamination control in areas where P. notoginseng is planted and set a foundation for a FC-based As immobilization technology.
- Subjects
CHINA; REDUCTION of arsenic; CHINESE medicine; SOIL pollution
- Publication
Journal of Environmental Quality, 2018, Vol 47, Issue 2, p312
- ISSN
0047-2425
- Publication type
Article
- DOI
10.2134/jeq2017.07.0297