Effect of Mechanical Alleviation of Soil Compaction on Grassland Yields, Soil Structure and Nitrous Oxide Emissions

Thirty-two % of European soils are thought to suffer soil structural damage by compaction. Temperate agricultural grasslands are particularly vulnerable. Larger vehicles, coupled with extended periods of grazing, and greater soil moisture, result in soil compaction: a component of poor soil health. This reduction in soil health reduces yields and increases emissions of nitrous oxide (N2O) from N application. As grass swards are not tilled regularly, mechanical improvement of structure is restricted. We assessed two non-inversion methods of grassland soil alleviation: mechanical slitting of the surface and shallow soil lifting. These were tested on two contrasting soils (sandy, free draining and silty clay loam, imperfectly drained) for dry matter (DM) yields over three annual silage cuts and emissions of N2O. Alleviation decreased soil bulk density, especially for the clay soil, but gave limited improvement in yield; as the sward lifter reduced the first cut DM yield for both soil types. N2O emissions were enhanced by alleviation, especially, the sandier soil, up to 94% more than the uncompacted control with implications for the potential short-term release of N2O from grassland, (up to 243 kg) associated with improvements to the physical aspects of soil health, for a 150 ha dairy farm.