Microbial community assembly in soil aggregates: A dynamic interplay of stochastic and deterministic processes

Understanding how distinct processes operate in mediating community assembly is a long-standing theme in (microbial) ecology. Particularly in soil microbial communities, we still lack a fundamental appreciation of how assembly processes structure communities at the fine-scale level of soil aggregates. In this study, samples from a long-term agricultural field subjected to different fertilization regimes were used to quantify the relative influences of stochastic and deterministic processes on soil bacterial community assembly. First, we found bacterial communities to be more phylogenetically clustered in larger soil aggregates comparatively to small aggregates (Spearman?s r = -0.366, P < 0.05). Second, we found the overall relative influence of selection to gradually decrease with an increase of aggregate size (Mantel r = 0.161, P < 0.01). By partitioning aggregate sizes and fertilization regimes, we found that sites subjected to fertilization (including chemical, organic, and bio-organic fertilizers) displayed a stronger relaxation of selection and an increased influence of stochasticity with an increase in aggregate size; a pattern not significantly observed at the control (unfertilized) treatment. Collectively, our results highlight the importance of evaluating community assembly at the fine-scale levels of soil aggregates and illustrate how regional level disturbances (i.e., agricultural management) exert an influence on the dynamic interplay of stochastic and deterministic processes.

Automated summary

The assembly of soil bacterial communities is influenced by both stochastic and deterministic processes, with differences observed in patterns based on fertilization and aggregate size. Evaluating community assembly at the fine-scale levels of soil aggregates is crucial for understanding community structure.