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Principal role of fungi in soil carbon stabilization during early pedogenesis in the high Arctic.

Juan Carlos Trejos-EspeletaJuan P Marin-JaramilloSteven K SchmidtPacifica SommersJames A BradleyWilliam D Orsi
Published in: Proceedings of the National Academy of Sciences of the United States of America (2024)
Climate warming is causing widespread deglaciation and pioneer soil formation over glacial deposits. Melting glaciers expose rocky terrain and glacial till sediment that is relatively low in biomass, oligotrophic, and depleted in nutrients. Following initial colonization by microorganisms, glacial till sediments accumulate organic carbon and nutrients over time. However, the mechanisms driving soil nutrient stabilization during early pedogenesis after glacial retreat remain unclear. Here, we traced amino acid uptake by microorganisms in recently deglaciated high-Arctic soils and show that fungi play a critical role in the initial stabilization of the assimilated carbon. Pioneer basidiomycete yeasts were among the predominant taxa responsible for carbon assimilation, which were associated with overall high amino acid use efficiency and reduced respiration. In intermediate- and late-stage soils, lichenized ascomycete fungi were prevalent, but bacteria increasingly dominated amino acid assimilation, with substantially decreased fungal:bacterial amino acid assimilation ratios and increased respiration. Together, these findings demonstrate that fungi are important drivers of pedogenesis in high-Arctic ecosystems that are currently subject to widespread deglaciation from global warming.
Keyphrases
  • amino acid
  • heavy metals
  • climate change
  • wastewater treatment
  • organic matter
  • saccharomyces cerevisiae
  • cell wall