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  4. Pyrosequencing Analysis Yields Comprehensive Assessment of Microbial Communities in Pilot-Scale Two-Stage Membrane Biofilm Reactors
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Pyrosequencing Analysis Yields Comprehensive Assessment of Microbial Communities in Pilot-Scale Two-Stage Membrane Biofilm Reactors

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Title
Pyrosequencing Analysis Yields Comprehensive Assessment of Microbial Communities in Pilot-Scale Two-Stage Membrane Biofilm Reactors
Description
We studied the microbial community structure of pilot two-stage membrane biofilm reactors (MBfRs) designed to reduce nitrate (NO[subscript 3]–) and perchlorate (ClO[subscript 4]–) in contaminated groundwater. The groundwater also contained oxygen (O[subscript 2]) and sulfate (SO[2 over 4]–), which became important electron sinks that affected the NO[subscript 3]– and ClO[subscript 4]– removal rates. Using pyrosequencing, we elucidated how important phylotypes of each “primary” microbial group, i.e., denitrifying bacteria (DB), perchlorate-reducing bacteria (PRB), and sulfate-reducing bacteria (SRB), responded to changes in electron-acceptor loading. UniFrac, principal coordinate analysis (PCoA), and diversity analyses documented that the microbial community of biofilms sampled when the MBfRs had a high acceptor loading were phylogenetically distant from and less diverse than the microbial community of biofilm samples with lower acceptor loadings. Diminished acceptor loading led to SO[2 over 4]– reduction in the lag MBfR, which allowed Desulfovibrionales (an SRB) and Thiothrichales (sulfur-oxidizers) to thrive through S cycling. As a result of this cooperative relationship, they competed effectively with DB/PRB phylotypes such as Xanthomonadales and Rhodobacterales. Thus, pyrosequencing illustrated that while DB, PRB, and SRB responded predictably to changes in acceptor loading, a decrease in total acceptor loading led to important shifts within the “primary” groups, the onset of other members (e.g., Thiothrichales), and overall greater diversity.
Date Created
2014-07-01
Contributors
  • Ontiveros-Valencia, Aura (Author)
  • Tang, Youneng (Author)
  • Zhao, Heping (Author)
  • Friese, David (Author)
  • Overstreet, Ryan (Author)
  • Smith, Jennifer (Author)
  • Evans, Patrick (Author)
  • Rittmann, Bruce (Author)
  • Krajmalnik-Brown, Rosa (Author)
  • Biodesign Institute (Contributor)
  • Swette Center for Environmental Biotechnology (Contributor)
  • Julie Ann Wrigley Global Institute of Sustainability (Contributor)
  • School of Sustainability (Contributor)
Resource Type
Text
Extent
28 pages
Language
eng
Copyright Statement
In Copyright
Primary Member of
ASU Regents' Professors Open Access Works
Identifier
Digital object identifier: 10.1021/es5012466
Identifier Type
ISSN (International Standard Serial Number)
Identifier Value
0013-936X
Identifier Type
ISSN (International Standard Serial Number)
Identifier Value
1520-5851
Series
ENVIRONMENTAL SCIENCE & TECHNOLOGY
Handle
https://hdl.handle.net/2286/R.I.25708
Embargo Release Date
Wed, 07/01/2015 - 07:26
Preferred Citation

Ontiveros-Valencia, Aura, Tang, Youneng, Zhao, He-Ping, Friese, David, Overstreet, Ryan, Smith, Jennifer, Evans, Patrick, Rittmann, Bruce E., & Krajmalnik-Brown, Rosa (2014). Pyrosequencing Analysis Yields Comprehensive Assessment of Microbial Communities in Pilot-Scale Two-Stage Membrane Biofilm Reactors. ENVIRONMENTAL SCIENCE & TECHNOLOGY, 48(13), 7511-7518. http://dx.doi.org/10.1021/es5012466

Level of coding
minimal
Cataloging Standards
asu1
Note
This document is the author's version as accepted for publication after peer review. To access the final edited and published work, see http://dx.doi.org/10.1021/es5012466
copyright American Chemical Society
System Created
  • 2014-09-05 11:28:57
System Modified
  • 2021-08-16 02:23:30
  •     
  • 4 years 10 months ago
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  • OAI Dublin Core
  • MODS XML

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