Mitigation of greenhouse gas emissions from soil under silage production by use of organic manures or slow‐release fertilizer

Abstract

Abstract. Grassland is a major source of nitrous oxide (N 2 O) and methane (CH 4 ) emissions in the UK, resulting from high rates of fertilizer application. We studied the effects of substituting mineral fertilizer by organic manures and a slow‐release fertilizer in silage grass production on greenhouse gas emissions and soil mineral N content in a three‐year field experiment. The organic manures investigated were sewage sludge pellets and composted sewage sludge (dry materials), and digested sewage sludge and cattle slurry (liquid materials). The organic manures produced N 2 O and carbon dioxide (CO 2 ) consistently from time of application up to harvest. However, they mitigated N 2 O emissions by around 90% when aggregate emissions of 15.7 kg N ha −1 from NPK fertilizer were caused by a flux of up to 4.9 kg N ha −1 d −1 during the first 4 days after heavy rainfall subsequent to the NPK fertilizer application. CH 4 was emitted only for 2 or 3 days after application of the liquid manures. CH 4 and CO 2 fluxes were not significantly mitigated. Composting and dried pellets were useful methods of conserving nutrients in organic wastes, enabling slow and sustained release of nitrogen. NPK slow‐release fertilizer also maintained grass yields and was the most effective substitute for the conventional NPK fertilizer for mitigation of N 2 O fluxes.