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Bark-dwelling methanotrophic bacteria decrease methane emissions from trees

Author

Listed:
  • Luke C. Jeffrey

    (Southern Cross University
    Southern Cross University)

  • Damien T. Maher

    (Southern Cross University
    Southern Cross University)

  • Eleonora Chiri

    (Monash University)

  • Pok Man Leung

    (Monash University)

  • Philipp A. Nauer

    (Monash University
    University of Melbourne)

  • Stefan K. Arndt

    (University of Melbourne)

  • Douglas R. Tait

    (Southern Cross University
    Southern Cross University)

  • Chris Greening

    (Monash University)

  • Scott G. Johnston

    (Southern Cross University
    Southern Cross University)

Abstract

Tree stems are an important and unconstrained source of methane, yet it is uncertain whether internal microbial controls (i.e. methanotrophy) within tree bark may reduce methane emissions. Here we demonstrate that unique microbial communities dominated by methane-oxidising bacteria (MOB) dwell within bark of Melaleuca quinquenervia, a common, invasive and globally distributed lowland species. In laboratory incubations, methane-inoculated M. quinquenervia bark mediated methane consumption (up to 96.3 µmol m−2 bark d−1) and reveal distinct isotopic δ13C-CH4 enrichment characteristic of MOB. Molecular analysis indicates unique microbial communities reside within the bark, with MOB primarily from the genus Methylomonas comprising up to 25 % of the total microbial community. Methanotroph abundance was linearly correlated to methane uptake rates (R2 = 0.76, p = 0.006). Finally, field-based methane oxidation inhibition experiments demonstrate that bark-dwelling MOB reduce methane emissions by 36 ± 5 %. These multiple complementary lines of evidence indicate that bark-dwelling MOB represent a potentially significant methane sink, and an important frontier for further research.

Suggested Citation

  • Luke C. Jeffrey & Damien T. Maher & Eleonora Chiri & Pok Man Leung & Philipp A. Nauer & Stefan K. Arndt & Douglas R. Tait & Chris Greening & Scott G. Johnston, 2021. "Bark-dwelling methanotrophic bacteria decrease methane emissions from trees," Nature Communications, Nature, vol. 12(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-22333-7
    DOI: 10.1038/s41467-021-22333-7
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    Cited by:

    1. Amanda Sörensen Ristinmaa & Albert Tafur Rangel & Alexander Idström & Sebastian Valenzuela & Eduard J. Kerkhoven & Phillip B. Pope & Merima Hasani & Johan Larsbrink, 2023. "Resin acids play key roles in shaping microbial communities during degradation of spruce bark," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    2. Hagger, Valerie & Waltham, Nathan J. & Lovelock, Catherine E., 2022. "Opportunities for coastal wetland restoration for blue carbon with co-benefits for biodiversity, coastal fisheries, and water quality," Ecosystem Services, Elsevier, vol. 55(C).

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