Frontiers in Microbiology (Aug 2016)

Soil fungal:bacterial ratios are linked to altered carbon cycling

  • Ashish A. Malik,
  • Ashish A. Malik,
  • Somak Chowdhury,
  • Veronika Schlager,
  • Anna Oliver,
  • Jeremy Puissant,
  • Perla Griselle Mellado Vázquez,
  • Nico Jehmlich,
  • Martin von Bergen,
  • Robert Iwan Griffiths,
  • Gerd Gleixner

DOI
https://doi.org/10.3389/fmicb.2016.01247
Journal volume & issue
Vol. 7

Abstract

Read online

Despite several lines of observational evidence, there is a lack of consensus on whether higher fungal:bacterial (F:B) ratios directly cause higher soil carbon (C) storage. We employed RNA sequencing, protein profiling and isotope tracer techniques to evaluate whether differing F:B ratios are associated with differences in C storage. A mesocosm 13C labeled foliar litter decomposition experiment was performed in two soils that were similar in their physico-chemical properties but differed in microbial community structure, specifically their F:B ratio (determined by PLFA analyses, RNA sequencing and protein profiling; all three corroborating each other). Following litter addition, we observed a consistent increase in abundance of fungal phyla; and greater increases in the fungal dominated soil; implicating the role of fungi in litter decomposition. Litter derived 13C in respired CO2 was consistently lower, and residual 13C in bulk SOM was higher in high F:B soil demonstrating greater C storage potential in the fungal:bacterial dominated soil. We conclude that in this soil system, the increased abundance of fungi in both soils and the altered C cycling patterns in the fungal:bacterial dominated soils highlight the significant role of fungi in litter decomposition and indicate that F:B ratios are linked to higher C storage potential.

Keywords