Optimization of Environmental Conditions for Microbial Stabilization of Uranium Tailings, and the Microbial Community Response

Ying Lv; Ying Lv; Ying Lv; Ying Lv; Chuiyun Tang; Chuiyun Tang; Chuiyun Tang; Xingyu Liu; Xingyu Liu; Xingyu Liu; Mingjiang Zhang; Mingjiang Zhang; Mingjiang Zhang; Bowei Chen; Bowei Chen; Bowei Chen; Xuewu Hu; Xuewu Hu; Xuewu Hu; Xuewu Hu; Susu Chen; Susu Chen; Susu Chen; Xuezhe Zhu; Xuezhe Zhu; Xuezhe Zhu

doi:10.3389/fmicb.2021.770206

Frontiers in Microbiology (Dec 2021)

Optimization of Environmental Conditions for Microbial Stabilization of Uranium Tailings, and the Microbial Community Response

Ying Lv,
Ying Lv,
Ying Lv,
Ying Lv,
Chuiyun Tang,
Chuiyun Tang,
Chuiyun Tang,
Xingyu Liu,
Xingyu Liu,
Xingyu Liu,
Mingjiang Zhang,
Mingjiang Zhang,
Mingjiang Zhang,
Bowei Chen,
Bowei Chen,
Bowei Chen,
Xuewu Hu,
Xuewu Hu,
Xuewu Hu,
Xuewu Hu,
Susu Chen,
Susu Chen,
Susu Chen,
Xuezhe Zhu,
Xuezhe Zhu,
Xuezhe Zhu

Affiliations

Ying Lv: National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-ferrous Metals, GRINM Group Co., Ltd., Beijing, China
Ying Lv: School of Metallurgical and Ecological Engineering, University of Science and Technology Beijing, Beijing, China
Ying Lv: GRINM Resources and Environment Technology Co., Ltd., Beijing, China
Ying Lv: General Research Institute for Non-ferrous Metals, Beijing, China
Chuiyun Tang: National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-ferrous Metals, GRINM Group Co., Ltd., Beijing, China
Chuiyun Tang: GRINM Resources and Environment Technology Co., Ltd., Beijing, China
Chuiyun Tang: General Research Institute for Non-ferrous Metals, Beijing, China
Xingyu Liu: National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-ferrous Metals, GRINM Group Co., Ltd., Beijing, China
Xingyu Liu: GRINM Resources and Environment Technology Co., Ltd., Beijing, China
Xingyu Liu: GRIMAT Engineering Institute Co., Ltd., Beijing, China
Mingjiang Zhang: National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-ferrous Metals, GRINM Group Co., Ltd., Beijing, China
Mingjiang Zhang: GRINM Resources and Environment Technology Co., Ltd., Beijing, China
Mingjiang Zhang: GRIMAT Engineering Institute Co., Ltd., Beijing, China
Bowei Chen: National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-ferrous Metals, GRINM Group Co., Ltd., Beijing, China
Bowei Chen: GRINM Resources and Environment Technology Co., Ltd., Beijing, China
Bowei Chen: GRIMAT Engineering Institute Co., Ltd., Beijing, China
Xuewu Hu: National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-ferrous Metals, GRINM Group Co., Ltd., Beijing, China
Xuewu Hu: School of Metallurgical and Ecological Engineering, University of Science and Technology Beijing, Beijing, China
Xuewu Hu: GRINM Resources and Environment Technology Co., Ltd., Beijing, China
Xuewu Hu: General Research Institute for Non-ferrous Metals, Beijing, China
Susu Chen: National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-ferrous Metals, GRINM Group Co., Ltd., Beijing, China
Susu Chen: GRINM Resources and Environment Technology Co., Ltd., Beijing, China
Susu Chen: General Research Institute for Non-ferrous Metals, Beijing, China
Xuezhe Zhu: National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-ferrous Metals, GRINM Group Co., Ltd., Beijing, China
Xuezhe Zhu: GRINM Resources and Environment Technology Co., Ltd., Beijing, China
Xuezhe Zhu: General Research Institute for Non-ferrous Metals, Beijing, China

DOI: https://doi.org/10.3389/fmicb.2021.770206
Journal volume & issue: Vol. 12

Abstract

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Uranium pollution in tailings and its decay products is a global environmental problem. It is of great significance to use economical and efficient technologies to remediate uranium-contaminated soil. In this study, the effects of pH, temperature, and inoculation volume on stabilization efficiency and microbial community response of uranium tailings were investigated by a single-factor batch experiment in the remediation process by mixed sulfate-reducing bacteria (SRB) and phosphate-solubilizing bacteria (PSB, Pantoea sp. grinm-12). The results showed that the optimal parameters of microbial stabilization by mixed SRB-PSB were pH of 5.0, temperature of 25°C, and inoculation volume of 10%. Under the optimal conditions, the uranium in uranium tailings presented a tendency to transform from the acid-soluble state to residual state. In addition, the introduction of exogenous SRB-PSB can significantly increase the richness and diversity of endogenous microorganisms, effectively maintain the reductive environment for the microbial stabilization system, and promote the growth of functional microorganisms, such as sulfate-reducing bacteria (Desulfosporosinus and Desulfovibrio) and iron-reducing bacteria (Geobacter and Sedimentibacter). Finally, PCoA and CCA analyses showed that temperature and inoculation volume had significant effects on microbial community structure, and the influence order of the three environmental factors is as follows: inoculation volume > temperature > pH. The outcomes of this study provide theoretical support for the control of uranium in uranium-contaminated sites.

Published in Frontiers in Microbiology

ISSN: 1664-302X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Science: Microbiology
Website: http://www.frontiersin.org/journals/microbiology

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