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Iron Reduction Coupled to Reductive Dechlorination in Red Soil: A Review

文献类型: 外文期刊

作者: Chen, Manjia 1 ; Liu, Chengshuai 1 ; Li, Xiaomin 1 ; Huang, Weilin 2 ; Li, Fangbai 1 ;

作者机构: 1.Guangdong Inst Ecoenvironm & Soil Sci, Guangdong Key Lab Agr Environm Pollut Integrated, Guangzhou 510650, Guangdong, Peoples R China

2.Rutgers State Univ, Dept Environm Sci, New Brunswick, NJ 08903 USA

关键词: Iron reduction;reductive dechlorination;organochlorine pesticides;coupling relationships

期刊名称:SOIL SCIENCE ( 影响因子:1.122; 五年影响因子:1.628 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Iron reduction plays an important role in the reductive transformation of organochlorine pesticides in red paddy soils. This interaction between iron reduction and organochlorine pesticides (OCPs) in red soils in south China is particularly important because of the high abundance and reactivity of iron within unique man-made paddy ecosystems. However, the relationships between iron reduction and reductive dechlorination and the geochemical constraints of these relationships are not fully understood. In this comprehensive review, we summarized current understanding of iron reduction, reductive dechlorination, the relationships between them, and their interactions with the reduction of nitrate, sulfate, Cu(II), and humic substances in red soils. Recent studies showed that iron reduction and dechlorination occur simultaneously in soils and that iron reduction could either stimulate or inhibit dechlorination. Meanwhile, sulfate and Cu(II) reduction can stimulate or inhibit iron reduction and dechlorination. Nitrate reduction can be coupled to iron reduction, but it inhibits dechlorination. Increasing evidence showed that humic substances can enhance the rates of both iron reduction and dechlorination by accelerating electron transfer. However, there is insufficient information in the literature for delineating the effects of several rising environmental problems (e. g., heavy metal pollution, deficiencies in phosphorus and aluminum) on iron reduction, OCP transformation, and the related microbial activities. Future studies are necessary because such information may be key for sustainable development of agriculture and pollution control in red soils.

  • 相关文献

[1]Enhanced nitrate reduction and current generation by Bacillus sp in the presence of iron oxides. Liu, Tongxu,Li, Fangbai,Zhang, Wei,Li, Xiaomin,Zhang, Wei. 2012

[2]Reductions of Fe(III) and pentachlorophenol linked with geochemical properties of soils from Pearl River Delta. Chen, Manjia,Tao, Liang,Li, Fangbai,Lan, Qing. 2014

[3]Interactively interfacial reaction of iron-reducing bacterium and goethite for reductive dechlorination of chlorinated organic compounds. Li XiaoMin,Li FangBai,Zhou ShunGui,Liu TongXu,Li XiaoMin,Li YongTao,Feng ChunHua,Li XiaoMin. 2009

[4]Anaerobic Transformation of DDT Related to Iron(III) Reduction and Microbial Community Structure in Paddy Soils. Chen, Manjia,Cao, Fang,Li, Fangbai,Liu, Chengshuai,Tong, Hui,Wu, Weijian,Hu, Min. 2013

[5]Enhanced reductive dechlorination of DDT in an anaerobic system of dissimilatory iron-reducing bacteria and iron oxide. Li, F. B.,Li, X. M.,Zhou, S. G.,Zhuang, L.,Cao, F.,Huang, D. Y.,Xu, W.,Liu, T. X.,Li, X. M.,Cao, F.,Feng, C. H.,Li, X. M.,Cao, F..

[6]Enhanced Biotransformation of DDTs by an Iron- and Humic-Reducing Bacteria Aeromonas hydrophila HS01 upon Addition of Goethite and Anthraquinone-2,6-Disulphonic Disodium Salt (AQDS). Cao, Fang,Liu, Tong Xu,Wu, Chun Yuan,Li, Fang Bai,Li, Xiao Min,Yu, Huan Yun,Tong, Hui,Chen, Man Jia,Cao, Fang,Cao, Fang.

[7]A humic substance analogue AQDS stimulates Geobacter sp abundance and enhances pentachlorophenol transformation in a paddy soil. Chen, Manjia,Chen, Dandan,Li, Fangbai,Qiao, Jiangtao,Tong, Hui,Liu, Chengshuai.

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