Seasonal soil moisture thresholds inhibit bacterial activity and decomposition during drought in a tallgrass prairie

Author:

Lemoine Nathan P.12ORCID,Budny Michelle L.1,Rose Ethan1,Lucas Jane3ORCID,Marshall Christopher W.1ORCID

Affiliation:

1. Department of Biological Sciences, Marquette University Milwaukee WI USA

2. Department of Zoology, Milwaukee Public Museum Milwaukee WI USA

3. Cary Institute of Ecosystem Studies Millbrook NY USA

Abstract

Soil moisture reductions during drought often inhibit soil microbial activity and inhibit decomposition rates by reducing microbial biomass or by altering microbial communities. Evidence suggests that soil water must drop below a critical threshold to inhibit microbial activity. Thus, it is likely that the seasonal timing of drought will determine the extent to which belowground processes are adversely impacted by drought. Specifically, the effects of drought might be minimal during cool, wet periods typical of late spring but dramatic during hot summer months with high evapotranspiration rates that lower soil moisture levels below the critical threshold. Here, we present results from a study designed to quantify the effect of drought on soil microbial abundance, community composition, and soil water diffusion across four months, and to then assess how drought impacts the microbial decomposition of leaf matter. We imposed a season‐long drought in a Wisconsin tallgrass prairie and measured soil moisture, bacterial composition and abundance, microbial respiration, and decomposition rates throughout the growing season. Bacterial communities varied considerably among dates, but drought did not affect either bacterial abundance or community composition. Microbial respiration declined significantly during periods of drought when soil pores likely became hydrologically isolated, ultimately reducing cumulative microbial respiration by 10%. The reduction in microbial activity in drought treatments caused a 50% decline in the decomposition of refractory material. Our study highlights that sublethal effects of drought on microbial communities, occurring only when soil moisture declined below a tolerance threshold, can have large impacts on microbial carbon release or decomposition, highlighting the need to incorporate such measures into future studies.

Publisher

Wiley

Subject

Ecology, Evolution, Behavior and Systematics

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