Your search keyword '"Kros, Johannes"' showing total 2 results

1. Impacts of model structure and data aggregation on European wide predictions of nitrogen and green house gas fluxes in response to changes in livestock, land cover, and land management

Author

de Vries, Wim, Lesschen, Jan P., Oudendag, Diti A., Kros, Johannes, Voogd, Jan C., Stehfest, Elke, Bouwman, Alex F., non-UU output of UU-AW members, and non-UU output of UU-AW members

Subjects

CB - Bodemkwaliteit en Nutriënten, Scale (ratio), Reactive nitrogen, Nitrogen, Land management, Land cover, Atmospheric sciences, Earth System Science, Environmental Science(all), Renewable Energy, Wageningen Environmental Research, SS - Soil Quality and Nutrients, LEI INT BELEID - Landbouwbeleid, General Environmental Science, Sustainability and the Environment, Land use, Impact assessment, Renewable Energy, Sustainability and the Environment, SS - Soil Chemistry and Nature, Environmental and Occupational Health, Empirical modelling, Environmental engineering, Modeling, Public Health, Environmental and Occupational Health, Model comparison, CB - Bodemchemie en Natuur, Green house gases, Greenhouse gas, Leerstoelgroep Aardsysteemkunde, Environmental science, Public Health

Abstract

Various model approaches have been developed for assessing emissions of different forms of reactive nitrogen in various parts of Europe at various geographic resolutions and for various time periods. The modeling approaches include emission factor approaches, empirical models, simple process-based models, and detailed ecosystem models. In this study, we compared three relatively simple process-based models, developed for the national scale (Integrated NITrogen Impact AssessmenT model On a Regional Scale (INITIATOR2)), European scale (MITERRA) and global scale (integrated model to assess the global environment (IMAGE)), with respect to their response to structural and technological changes in the agricultural systems based on the IPCC B2 baseline scenario for the period 2000-2030. Changes are predicted by the IMAGE model and relate to crop yield, crop area, animal numbers, and N fertilizer inputs. The predicted relative changes by IMAGE are used in INITIATOR2 and MITERRA while relating the animal categories and crop categories in IMAGE to those in the latter models. A comparison was made of NH3, N2O and NOx emissions and N leaching to ground water. We compared predictions for the years 2000 and 2030 for: (i) the Netherlands between INITIATOR2 and MITERRA and (ii) Europe (EU-27 countries) between MITERRA and IMAGE. The results of the comparison are presented and evaluated in view of differences in model structure and the effect of aggregating input data at larger spatial scales.

Published

2010

2. Assessment of the impact of various mitigation options on nitrous oxide emissions caused by the agricultural sector in Europe.

Author

Kros, Johannes, de Vries, Wim, Reinds, GertJan, Lesschen, JanPeter, and Velthof, GerardL.

Subjects

*GREENHOUSE gas mitigation, *AGRICULTURE & the environment, *NITROUS oxide, *EMISSIONS (Air pollution), *NITROGEN, *LAND use, *MANURES

Abstract

A European Union (EU-27) wide N2O emission estimate for the agricultural sector is presented, using the INTEGRATOR model, combined with detailed GIS-based environmental data and farming data. INTEGRATOR links various modules, calculating NH3, NOx, N2O, CO2, and CH4 emissions from housing and manure storage systems, agricultural and non-agricultural soils and surface waters, while accounting for the interaction between agricultural and non-agricultural systems through an emission-deposition model for NH3 and NOx. This study is limited to N2O emissions from housing and manure storage systems and agricultural soils. All emissions are based on N2O emission factors which depend on environment (weather and soil conditions), land use (grassland, arable land, crop residues), and management (type of manure and fertilizer, etc). We assessed the plausibility by a comparison of calculated present nitrous oxide emissions at country level with those derived by more simple emission factor approaches and detailed ecosystem models. The model was used to assess the impact of various farming practice packages to mitigate N2O emissions. For the agricultural sector of the EU-27, a total N2O emission of 347 kton N2O-N is calculated for the year 2000, which is comparable to other estimates. The overall achievable reduction in N2O emissions with the evaluated mitigation measures is about 25%. For the EU-27, the most effective measures are balanced fertilization and maximum manure application, but this is highly variable per country. [ABSTRACT FROM AUTHOR]

Published

2010