Journal of Integrative Agriculture (Nov 2019)
Soil macroaggregates and organic-matter content regulate microbial communities and enzymatic activity in a Chinese Mollisol
Abstract
The formation and turnover of macroaggregates are critical processes influencing the dynamics and stabilization of soil organic carbon (SOC). Soil aggregate size distribution is directly related to the makeup and activity of microbial communities. We incubated soils managed for >30 years as restored grassland (GL), farmland (FL) and bare fallow (BF) for 60 days using both intact and reduced aggregate size distributions (intact aggregate distribution (IAD)0.25 mm) by 34.7% in GL soil with no substrate additions increased the abundance of PLFAs (average increase of 15.7%) and activities of β-glucosidase (increase of 17.4%) and N-acetyl-β-glucosaminidase (increase of 7.6%). The addition of C substrates increased PLFA abundance in FL and BF by averages of 18.8 and 33.4%, respectively, but not in GL soil. The results show that the effect of habitat destruction on microorganisms depends on the soil aggregates, due to a release of bioavailable C, and the addition of substrates for soils with limited nutrient availability. The protection of SOC is promoted by larger size soil aggregate structures that are important to different aggregate size classes in affecting soil C stabilization and microbial community structure and activity.
