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Bacteria increase arid-land soil surface temperature through the production of sunscreens

Author

Listed:
  • Estelle Couradeau

    (School of Life Sciences, Arizona State University)

  • Ulas Karaoz

    (Earth and Environmental Sciences, Lawrence Berkeley National Laboratory)

  • Hsiao Chien Lim

    (Earth and Environmental Sciences, Lawrence Berkeley National Laboratory)

  • Ulisses Nunes da Rocha

    (Earth and Environmental Sciences, Lawrence Berkeley National Laboratory
    Present address: Department of Molecular Cell Physiology, Vrij Universiteit, 1081 HV Amsterdam, Netherlands.)

  • Trent Northen

    (Environmental Genomics and Systems Biology, Lawrence Berkeley National Laboratory)

  • Eoin Brodie

    (Earth and Environmental Sciences, Lawrence Berkeley National Laboratory
    Policy and Management, University of California)

  • Ferran Garcia-Pichel

    (School of Life Sciences, Arizona State University
    Environmental Genomics and Systems Biology, Lawrence Berkeley National Laboratory)

Abstract

Soil surface temperature, an important driver of terrestrial biogeochemical processes, depends strongly on soil albedo, which can be significantly modified by factors such as plant cover. In sparsely vegetated lands, the soil surface can be colonized by photosynthetic microbes that build biocrust communities. Here we use concurrent physical, biochemical and microbiological analyses to show that mature biocrusts can increase surface soil temperature by as much as 10 °C through the accumulation of large quantities of a secondary metabolite, the microbial sunscreen scytonemin, produced by a group of late-successional cyanobacteria. Scytonemin accumulation decreases soil albedo significantly. Such localized warming has apparent and immediate consequences for the soil microbiome, inducing the replacement of thermosensitive bacterial species with more thermotolerant forms. These results reveal that not only vegetation but also microorganisms are a factor in modifying terrestrial albedo, potentially impacting biosphere feedbacks on past and future climate, and call for a direct assessment of such effects at larger scales.

Suggested Citation

  • Estelle Couradeau & Ulas Karaoz & Hsiao Chien Lim & Ulisses Nunes da Rocha & Trent Northen & Eoin Brodie & Ferran Garcia-Pichel, 2016. "Bacteria increase arid-land soil surface temperature through the production of sunscreens," Nature Communications, Nature, vol. 7(1), pages 1-7, April.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms10373
    DOI: 10.1038/ncomms10373
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    Cited by:

    1. Julie Bethany & Shannon Lynn Johnson & Ferran Garcia-Pichel, 2022. "High impact of bacterial predation on cyanobacteria in soil biocrusts," Nature Communications, Nature, vol. 13(1), pages 1-10, December.

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