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Depth-resolved microbial community analyses in two contrasting soil cores contaminated by antimony and arsenic
Enzong Xiao;  Valdis Krumins;  Tangfu Xiao;  Yiran Dong;  Song Tang;  Zengping Ning;  Zhengyu Huang;  Weimin Sun
2017
Source PublicationEnvironmental Pollution
Volume221Pages:244-255
Abstract

Investigation of microbial communities of soils contaminated by antimony (Sb) and arsenic (As) is necessary to obtain knowledge for their bioremediation. However, little is known about the depth profiles of microbial community composition and structure in Sb and As contaminated soils. Our previous studies have suggested that historical factors (i.e., soil and sediment) play important roles in governing microbial community structure and composition. Here, we selected two different types of soil (flooded paddy soil versus dry corn field soil) with co-contamination of Sb and As to study interactions between these metalloids, geochemical parameters and the soil microbiota as well as microbial metabolism in response to Sb and As contamination. Comprehensive geochemical analyses and 16S rRNA amplicon sequencing were used to shed light on the interactions of the microbial communities with their environments. A wide diversity of taxonomical groups was present in both soil cores, and many were significantly correlated with geochemical parameters. Canonical correspondence analysis (CCA) and co-occurrence networks further elucidated the impact of geochemical parameters (including Sb and As contamination fractions and sulfate, TOC, Eh, and pH) on vertical distribution of soil microbial communities. Metagenomes predicted from the 16S data using PICRUSt included arsenic metabolism genes such as arsenate reductase (ArsC), arsenite oxidase small subunit (AoxA and AoxB), and arsenite transporter (ArsA and ACR3). In addition, predicted abundances of arsenate reductase (ArsC) and arsenite oxidase (AoxA and AoxB) genes were significantly correlated with Sb contamination fractions, These results suggest potential As biogeochemical cycling in both soil cores and potentially dynamic Sb biogeochemical cycling as well.

KeywordSoil Vertical Profile 16s Rrna Amplicon Sequencing co-occurrence Network picrust
Indexed BySCI
Language英语
Document Type期刊论文
Identifierhttp://ir.gyig.ac.cn/handle/42920512-1/8192
Collection环境地球化学国家重点实验室
Affiliation1.State Key Laboratory of Environmental Geochemistry, Chinese Academy of Sciences, Guiyang, 550081, China
2.University of Chinese Academy of Sciences, Beijing, 100049, China
3.Department of Environmental Sciences, Rutgers University, New Brunswick, 08901,
4.Innovation Center and Key Laboratory of Waters Safety & Protection in the Pearl River Delta, Ministry of Education, Guangzhou University, Guangzhou, 510006, China
5.Institute for Genomic Biology, University of Illinois, Urbana-Champaign, Urbana, 61801, USA
6.School of Environment and Sustainability, University of Saskatchewan, Saskatoon, S7N 5B3, Canada
7.Guangdong Key Laboratory of Agricultural Environment Pollution Integrated Control, Guangdong Institute of Eco-environmental Science & Technology, Guangzhou, 510650, PR China
Recommended Citation
GB/T 7714
Enzong Xiao;Valdis Krumins;Tangfu Xiao;Yiran Dong;Song Tang;Zengping Ning;Zhengyu Huang;Weimin Sun. Depth-resolved microbial community analyses in two contrasting soil cores contaminated by antimony and arsenic[J]. Environmental Pollution,2017,221:244-255.
APA Enzong Xiao;Valdis Krumins;Tangfu Xiao;Yiran Dong;Song Tang;Zengping Ning;Zhengyu Huang;Weimin Sun.(2017).Depth-resolved microbial community analyses in two contrasting soil cores contaminated by antimony and arsenic.Environmental Pollution,221,244-255.
MLA Enzong Xiao;Valdis Krumins;Tangfu Xiao;Yiran Dong;Song Tang;Zengping Ning;Zhengyu Huang;Weimin Sun."Depth-resolved microbial community analyses in two contrasting soil cores contaminated by antimony and arsenic".Environmental Pollution 221(2017):244-255.
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