Literature DB >> 27562531

Selenate and Nitrate Bioreductions Using Methane as the Electron Donor in a Membrane Biofilm Reactor.

Chun-Yu Lai1,2,3, Li-Lian Wen1, Ling-Dong Shi1, Kan-Kan Zhao1, Yi-Qi Wang1, Xiaoe Yang2, Bruce E Rittmann4, Chen Zhou4, Youneng Tang5, Ping Zheng1,3, He-Ping Zhao1,3.   

Abstract

Selenate (SeO4(2-)) bioreduction is possible with oxidation of a range of organic or inorganic electron donors, but it never has been reported with methane gas (CH4) as the electron donor. In this study, we achieved complete SeO4(2-) bioreduction in a membrane biofilm reactor (MBfR) using CH4 as the sole added electron donor. The introduction of nitrate (NO3(-)) slightly inhibited SeO4(2-) reduction, but the two oxyanions were simultaneously reduced, even when the supply rate of CH4 was limited. The main SeO4(2-)-reduction product was nanospherical Se(0), which was identified by scanning electron microscopy coupled to energy dispersive X-ray analysis (SEM-EDS). Community analysis provided evidence for two mechanisms for SeO4(2-) bioreduction in the CH4-based MBfR: a single methanotrophic genus, such as Methylomonas, performed CH4 oxidation directly coupled to SeO4(2-) reduction, and a methanotroph oxidized CH4 to form organic metabolites that were electron donors for a synergistic SeO4(2-)-reducing bacterium.

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Year:  2016        PMID: 27562531     DOI: 10.1021/acs.est.6b02807

Source DB:  PubMed          Journal:  Environ Sci Technol        ISSN: 0013-936X            Impact factor:   9.028


  9 in total

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2.  The effect of electron competition on chromate reduction using methane as electron donor.

Authors:  Pan-Long Lv; Liang Zhong; Qiu-Yi Dong; Shi-Lei Yang; Wei-Wei Shen; Quan-Song Zhu; Chun-Yu Lai; An-Cheng Luo; Youneng Tang; He-Ping Zhao
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3.  Performance and mechanisms for V(v) bio-reduction by straw: key influencing factors.

Authors:  Liting Hao; Yuanyuan He; Chen Shi; Xiaodi Hao
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4.  Groundwater co-contaminant behavior of arsenic and selenium at a lead and zinc smelting facility.

Authors:  Richard T Wilkin; Tony R Lee; Douglas G Beak; Robert Anderson; Betsy Burns
Journal:  Appl Geochem       Date:  2018-02-01       Impact factor: 3.524

5.  Microbial transformations of selenite by methane-oxidizing bacteria.

Authors:  Abdurrahman S Eswayah; Thomas J Smith; Andreas C Scheinost; Nicole Hondow; Philip H E Gardiner
Journal:  Appl Microbiol Biotechnol       Date:  2017-06-23       Impact factor: 4.813

6.  Model-based assessment of chromate reduction and nitrate effect in a methane-based membrane biofilm reactor.

Authors:  Zhen Wang; Xue-Ming Chen; Bing-Jie Ni; You-Neng Tang; He-Ping Zhao
Journal:  Water Res X       Date:  2019-10-15

7.  Methane-dependent selenate reduction by a bacterial consortium.

Authors:  Ling-Dong Shi; Pan-Long Lv; Simon J McIlroy; Zhen Wang; Xiao-Li Dong; Angela Kouris; Chun-Yu Lai; Gene W Tyson; Marc Strous; He-Ping Zhao
Journal:  ISME J       Date:  2021-06-28       Impact factor: 10.302

Review 8.  Metal(loid) speciation and transformation by aerobic methanotrophs.

Authors:  Obulisamy Parthiba Karthikeyan; Thomas J Smith; Shamsudeen Umar Dandare; Kamaludeen Sara Parwin; Heetasmin Singh; Hui Xin Loh; Mark R Cunningham; Paul Nicholas Williams; Tim Nichol; Avudainayagam Subramanian; Kumarasamy Ramasamy; Deepak Kumaresan
Journal:  Microbiome       Date:  2021-07-06       Impact factor: 16.837

9.  Metagenomic Evidence for a Methylocystis Species Capable of Bioremediation of Diverse Heavy Metals.

Authors:  Ling-Dong Shi; Yu-Shi Chen; Jia-Jie Du; Yi-Qing Hu; James P Shapleigh; He-Ping Zhao
Journal:  Front Microbiol       Date:  2019-01-09       Impact factor: 5.640
  9 in total

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