Aggregation of a degraded lowland soil during restoration with different cropping and drainage regimes

Abstract

Rate of change of surface soil aggregation under different cropping and subsurface drainage regimes was studied on a badly degraded lowland soil in the Lower Fraser Valley, British Columbia, Canada. The soil was the silty clay loam Humic Luvic Gleysol. Two cropping practices — continued spring-sown barley underseeded with clover for winter cover cropping and a 3 year grass ley — were established in a subsurface drained site and a poorly drained (no subsurface drainage) site. Grass ley consistently improved surface aggregate stability of drained and undrained soils when compared to cash-winter cover cropping integration. Improved aggregate stability with grass was significantly correlated with increasing soil organic carbon content. Aggregate stability and its correlation with organic carbon varied with time of sampling, being lower in the early spring and higher in the fall. Seasonal variation in aggregate stability was attributed to soil water content at sampling.