A model‐based estimate of nitrate leaching in Germany for GHG reporting
Max Eysholdt, Ralf Kunkel, Claus Rösemann, Frank Wendland, Tim Wolters, Maximilian Zinnbauer, Roland Fuß
Abstract
Abstract Background Conversion of leached and runoff nitrate (NO 3 – ) from agricultural land into emissions of the greenhouse gas (GHG) nitrous oxide (N 2 O) by denitrification in water bodies has to be reported in national GHG inventories. The global IPCC default methodology for estimating these indirect N 2 O emissions assumes that a fixed fraction of nitrogen (N) inputs (Frac leach ) is lost through leaching and runoff. However, this method does not consider all relevant country‐specific conditions that may influence NO 3 – leaching. Aims The aim of this study was to apply a model‐based approach for estimating indirect N 2 O emissions through NO 3 – leaching and runoff from agricultural soils for use in Germany's national GHG inventory. Methods High‐resolution spatial data and a comprehensive model system (RAUMIS‐mGROWA‐DENUZ) were used to derive regionally differentiated and temporarily dynamic Frac leach values from N surplus and hydrogeological conditions. These were then used to estimate indirect N 2 O emissions in accordance with the IPCC methodology. Results The nationwide average of the new implied Frac leach values was 0.099 kg N (kg N input) −1 in 2019. The new estimate of indirect N 2 O emissions was 10.4 Gg N 2 O in 1990 and 5.7 Gg N 2 O in 2019, which are 27 and 52% less than the calculation based on the 2006 IPCC Tier 1 methodology. Conclusions The model‐based method for estimating Frac leach incorporates relevant factors that influence NO 3 – leaching and runoff and considers site‐specific, spatially varying conditions and differences in the agrarian structure. The use of N surplus as the model driver allows annual changes in cropping conditions and the effects of N‐regulating policies and mitigation measures to be represented.