Abstract
AbstractThis study compared the effects on nitrate leaching of slurry application to ley in early autumn (15 September), late autumn (1 November) and spring (April) under Swedish growing conditions. In two separate two‐year experiments, started in autumn 2009 and 2010, on a sandy loam soil in south‐west Sweden, these three application times were compared with no slurry application in grass–clover and grass swards. Soil water was sampled with ceramic suction cups, and nitrate leaching was calculated from water nitrate concentrations and drain discharge. Plant measurements indicated that, during autumn, the grass took up at least 20 kg of the 50 kg nitrogen (N) applied with slurry in September. The mineral nitrogen level in the subsoil (30–90 cm) in December was around 2 kg N ha−1 higher in this treatment. Nitrate leaching was on average 5 and 6 kg N ha−1 year−1 higher after early and late autumn slurry application, respectively, than after spring application (p < .001), but the difference varied from 0 to 10 kg N ha−1 year−1 between experiments and sward types. Nitrate leaching losses in kg N ha−1 were lower from the grass sward, but higher if related to nitrogen inputs and dry matter yield. These results indicate that autumn application can increase the risk of nitrate leaching, but that early/late application within autumn is less important. It is more important to limit the amount of slurry applied in autumn and to consider other risks of nitrogen losses associated with time of application, such as ammonia emissions.
Highlights
High nitrogen leaching from agricultural soil via drainage water causes eutrophication of surface waters and contamination of drinking water
In April 2010, aboveground plant nitrogen concentration had decreased in all treatments, but was around 10 and 5 kg N ha−1 higher in the early and late autumn-m anured treatments, respectively, than in the unmanured treatments (Figure 2b)
There was no significant difference in nitrate leaching between early and late autumn application in either experiment
Summary
High nitrogen leaching from agricultural soil via drainage water causes eutrophication of surface waters and contamination of drinking water. | 437 assumption that earlier application results in more nitrogen being taken up by the grass When this restriction was implemented in Sweden in 2009, there was little scientific evidence that the risk of nitrate leaching is higher when slurry is applied in November rather than earlier in autumn. In the southern counties of Sweden (Skåne, Blekinge and Halland), slurry must be applied by band spreading underneath plant cover, followed by soil incorporation, with dilution of slurry with water prior to application or with irrigation within four hours after application. The aim of this study was to compare the nitrate leaching effects of cattle slurry application to grass ley and grass–clover ley in early autumn, late autumn and spring under Swedish growing conditions
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