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Deterministic processes structure bacterial genetic communities across an urban landscape

Author

Listed:
  • J. M. Hassell

    (University of Liverpool, Leahurst Campus
    International Livestock Research Institute)

  • M. J. Ward

    (Infection and Evolution, University of Edinburgh
    University of Oxford, John Radcliffe Hospital)

  • D. Muloi

    (International Livestock Research Institute
    Infection and Evolution, University of Edinburgh
    University of Edinburgh)

  • J. M. Bettridge

    (University of Liverpool, Leahurst Campus
    International Livestock Research Institute)

  • H. Phan

    (University of Oxford, John Radcliffe Hospital
    NIHR BRC Southampton, University of Southampton)

  • T. P. Robinson

    (Food and Agriculture Organization of the United Nations)

  • A. Ogendo

    (International Livestock Research Institute)

  • T. Imboma

    (National Museums of Kenya)

  • J. Kiiru

    (Kenya Medical Research Institute)

  • S. Kariuki

    (Kenya Medical Research Institute)

  • M. Begon

    (University of Liverpool)

  • E. K. Kang’ethe

    (University of Nairobi)

  • M. E. J. Woolhouse

    (Infection and Evolution, University of Edinburgh
    University of Edinburgh)

  • E. M. Fèvre

    (University of Liverpool, Leahurst Campus
    International Livestock Research Institute)

Abstract

Land-use change is predicted to act as a driver of zoonotic disease emergence through human exposure to novel microbial diversity, but evidence for the effects of environmental change on microbial communities in vertebrates is lacking. We sample wild birds at 99 wildlife-livestock-human interfaces across Nairobi, Kenya, and use whole genome sequencing to characterise bacterial genes known to be carried on mobile genetic elements (MGEs) within avian-borne Escherichia coli (n = 241). By modelling the diversity of bacterial genes encoding virulence and antimicrobial resistance (AMR) against ecological and anthropogenic forms of urban environmental change, we demonstrate that communities of avian-borne bacterial genes are shaped by the assemblage of co-existing avian, livestock and human communities, and the habitat within which they exist. In showing that non-random processes structure bacterial genetic communities in urban wildlife, these findings suggest that it should be possible to forecast the effects of urban land-use change on microbial diversity.

Suggested Citation

  • J. M. Hassell & M. J. Ward & D. Muloi & J. M. Bettridge & H. Phan & T. P. Robinson & A. Ogendo & T. Imboma & J. Kiiru & S. Kariuki & M. Begon & E. K. Kang’ethe & M. E. J. Woolhouse & E. M. Fèvre, 2019. "Deterministic processes structure bacterial genetic communities across an urban landscape," Nature Communications, Nature, vol. 10(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-10595-1
    DOI: 10.1038/s41467-019-10595-1
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