Enzyme activities down the soil profile: a meta-analysis

Soil enzymes are major contributors the decomposition of soil organic matter. They are believed to reflect microbial nutrient and energy acquisition strategies and limitations. Whilst enzyme activities in surface soil layers have been widely studied, activities down the soil profile have received far less attention. Here, we present the results of a meta-analysis of hydrolase and oxidoreductase activities involved in the C, N and P cycles as a function of soil depth. The aim of the analysis was to understand how the relationship between microbial communities and their nutritional environment changes with depth. We assembled a database of ~1500 soil profiles from diverse locations, soil types, land uses and climates. In order to compare activity profiles, we used Gaussian process regression, followed by hierarchical clustering. Our results show that, when expressed per soil mass, the majority of hydrolase activities decrease with increasing soil depth. Proportionally more oxidoreductase activities, however, remained stable with depth, possibly indicative of changes in microbial community resource acquisition strategies with depth. Microbial biomass specific enzyme activities tended to increase with soil depth, suggesting an increase in microbial allocation to resource acquisition in response to decreased resource (C, N and P) availability and/or an increased enzyme stabilization on mineral and organic surfaces.