AI Article Synopsis

  • Climate change is shifting forest lines globally, affecting soil organisms and carbon storage.
  • A study analyzed soil samples from subalpine forests to alpine heath, revealing a significant compositional change in soil biota at the forest line.
  • Below the forest line, fungi associated with carbon turnover predominated, while above, root-associated fungi that may improve carbon sequestration were more common; as forests move upward, this could lead to increased soil carbon release.

Article Abstract

Climate change is causing upward shift of forest lines worldwide, with consequences for soil biota and carbon (C) sequestration. We here analyse compositional changes in the soil biota across the forest line ecotone, an important transition zone between different ecosystems. We collected soil samples along transects stretching from subalpine mountain birch forests to alpine heath. Soil fungi and micro-eukaryotes were surveyed using DNA metabarcoding of the ITS2 and 18S markers, while ergosterol was used to quantify fungal biomass. We observed a strong shift in the soil biota across the forest line ecotone: Below the forest line, there were higher proportions of basidiomycetes and mucoromycetes, including ectomycorrhizal and saprotrophic fungi. Above it, we observed relatively more root-associated ascomycetes, including Archaeorhizomycetes, ericoid mycorrhizal fungi and dark septate endophytes. Ergosterol and percentage C content in soil correlated strongly and positively with the abundance of root-associated ascomycetes. The predominance of ectomycorrhizal and saprotrophic fungi below the forest line probably promote high C turnover, while root-associated ascomycetes above the forest line may enhance C sequestration. With further rise in forest lines, there will be a corresponding shift in the below-ground biota, probably leading to enhanced release of soil C.

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Source
http://dx.doi.org/10.1111/mec.16095DOI Listing

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