Satellite Symposium 1: Optimisation
Description
In the UK, approximately 90 million tonnes of animal manure containing ca 450,000 tonnes of nitrogen (N) are recycled to agricultural land each year. The efficient utilisation of manure N can save farmers money and reduce diffuse air (ammonia) and water (nitrate) pollution. For slurries, bandspreading techniques (e.g. trailing shoe and trailing hose) can improve N utilisation by reducing ammonia volatilisation losses compared with conventional broadcast applications. They also provide increased spreading opportunities in spring/summer as slurry is placed in a band on the soil surface limiting herbage contamination, which can reduce the need to apply slurry in the autumn/early winter period that can exacerbate nitrate leaching losses. However, spring/summer application timings (when temperatures are higher and soils are drier) may lead to increased ammonia emissions compared with autumn/winter applications under cooler and moister soil conditions. This paper reports results from a project to investigate the effects of contrasting slurry application timings on ammonia volatilisation and nitrate leaching losses and grass N utilisation.
Included in
Maximising Slurry Crop Available Nitrogen Utilisation in Grassland Systems
In the UK, approximately 90 million tonnes of animal manure containing ca 450,000 tonnes of nitrogen (N) are recycled to agricultural land each year. The efficient utilisation of manure N can save farmers money and reduce diffuse air (ammonia) and water (nitrate) pollution. For slurries, bandspreading techniques (e.g. trailing shoe and trailing hose) can improve N utilisation by reducing ammonia volatilisation losses compared with conventional broadcast applications. They also provide increased spreading opportunities in spring/summer as slurry is placed in a band on the soil surface limiting herbage contamination, which can reduce the need to apply slurry in the autumn/early winter period that can exacerbate nitrate leaching losses. However, spring/summer application timings (when temperatures are higher and soils are drier) may lead to increased ammonia emissions compared with autumn/winter applications under cooler and moister soil conditions. This paper reports results from a project to investigate the effects of contrasting slurry application timings on ammonia volatilisation and nitrate leaching losses and grass N utilisation.
