Invariant soil water potential at zero microbial respiration explained by hydrological discontinuity in dry soils

Soil microbial respiration rates decrease with soil drying, ceasing below water potentials around -15-MPa. A proposed mechanism for this pattern is that under dry conditions, microbes are substrate limited because solute diffusivity is halted due to breaking of water film continuity. However, pore connectivity estimated from hydraulic conductivity and solute diffusivity (at Darcy's scale) is typically interrupted at much less negative water potentials than microbial respiration (-0.1 to -1-MPa). It is hypothesized here that the more negative respiration thresholds than at the Darcy's scale emerge because microbial activity is restricted to microscale soil patches that retain some hydrological connectivity even when it is lost at the macroscale. This hypothesis is explored using results from percolation theory and meta-analyses of respiration-water potential curves and hydrological percolation points. When reducing the spatial scale from macroscale to microscale, hydrological and respiration thresholds become consistent, supporting the proposed hypothesis. Key Points Microbial respiration stops at -15 MPa - less than diffusivity at Darcy scaleDownscaling diffusivity with percolation theory decreases percolation pointsStable percolation points suggest substrate-limited respiration in dry soils

Duke Scholars

Author Gabriel G. Katul Civil and Environmental Engineering