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Arbuscular mycorrhiza convey significant plant carbon to a diverse hyphosphere microbial food web and mineral-associated organic matter.

Anne KakouridisMengting Maggie YuanErin E NuccioJohn A HagenChristina A FossumMadeline L MooreKaterina Y Estera-MolinaPeter S NicoPeter K WeberJennifer Pett-RidgeMary K Firestone
Published in: The New phytologist (2024)
Arbuscular mycorrhizal fungi (AMF) transport substantial plant carbon (C) that serves as a substrate for soil organisms, a precursor of soil organic matter (SOM), and a driver of soil microbial dynamics. Using two-chamber microcosms where an air gap isolated AMF from roots, we 13 CO 2 -labeled Avena barbata for 6 wk and measured the C Rhizophagus intraradices transferred to SOM and hyphosphere microorganisms. NanoSIMS imaging revealed hyphae and roots had similar 13 C enrichment. SOM density fractionation, 13 C NMR, and IRMS showed AMF transferred 0.77 mg C g -1 of soil (increasing total C by 2% relative to non-mycorrhizal controls); 33% was found in occluded or mineral-associated pools. In the AMF hyphosphere, there was no overall change in community diversity but 36 bacterial ASVs significantly changed in relative abundance. With stable isotope probing (SIP)-enabled shotgun sequencing, we found taxa from the Solibacterales, Sphingobacteriales, Myxococcales, and Nitrososphaerales (ammonium oxidizing archaea) were highly enriched in AMF-imported 13 C (> 20 atom%). Mapping sequences from 13 C-SIP metagenomes to total ASVs showed at least 92 bacteria and archaea were significantly 13 C-enriched. Our results illustrate the quantitative and ecological impact of hyphal C transport on the formation of potentially protective SOM pools and microbial roles in the AMF hyphosphere soil food web.
Keyphrases
  • organic matter
  • high resolution
  • plant growth
  • microbial community
  • healthcare
  • single cell
  • human health
  • magnetic resonance
  • candida albicans
  • climate change
  • risk assessment
  • amino acid
  • transition metal