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Microbial and metabolic succession on common building materials under high humidity conditions

Author

Listed:
  • Simon Lax

    (The University of Chicago
    MIT)

  • Cesar Cardona

    (The University of Chicago)

  • Dan Zhao

    (Illinois Institute of Technology)

  • Valerie J. Winton

    (Northwestern University)

  • Gabriel Goodney

    (San Diego State University)

  • Peng Gao

    (Northwestern University)

  • Neil Gottel

    (University of California San Diego)

  • Erica M. Hartmann

    (Northwestern University)

  • Chris Henry

    (Argonne National Laboratory)

  • Paul M. Thomas

    (Northwestern University)

  • Scott T. Kelley

    (San Diego State University)

  • Brent Stephens

    (Illinois Institute of Technology)

  • Jack A. Gilbert

    (University of California San Diego)

Abstract

Despite considerable efforts to characterize the microbial ecology of the built environment, the metabolic mechanisms underpinning microbial colonization and successional dynamics remain unclear, particularly at high moisture conditions. Here, we applied bacterial/viral particle counting, qPCR, amplicon sequencing of the genes encoding 16S and ITS rRNA, and metabolomics to longitudinally characterize the ecological dynamics of four common building materials maintained at high humidity. We varied the natural inoculum provided to each material and wet half of the samples to simulate a potable water leak. Wetted materials had higher growth rates and lower alpha diversity compared to non-wetted materials, and wetting described the majority of the variance in bacterial, fungal, and metabolite structure. Inoculation location was weakly associated with bacterial and fungal beta diversity. Material type influenced bacterial and viral particle abundance and bacterial and metabolic (but not fungal) diversity. Metabolites indicative of microbial activity were identified, and they too differed by material.

Suggested Citation

  • Simon Lax & Cesar Cardona & Dan Zhao & Valerie J. Winton & Gabriel Goodney & Peng Gao & Neil Gottel & Erica M. Hartmann & Chris Henry & Paul M. Thomas & Scott T. Kelley & Brent Stephens & Jack A. Gilb, 2019. "Microbial and metabolic succession on common building materials under high humidity conditions," Nature Communications, Nature, vol. 10(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09764-z
    DOI: 10.1038/s41467-019-09764-z
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    Cited by:

    1. Ling Xin Yong & John Kaiser Calautit, 2023. "A Comprehensive Review on the Integration of Antimicrobial Technologies onto Various Surfaces of the Built Environment," Sustainability, MDPI, vol. 15(4), pages 1-34, February.

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