{"id":"ad4af6af-29b8-42a5-945c-28e3598eb85c","uri":"https://data.inms.international/id/ad4af6af-29b8-42a5-945c-28e3598eb85c","type":"model","title":"IMAGE-GLOBIO Aquatic","description":"Main drivers are population, economic development (income), land use, livestock and crop production.Inputs for land use, population, diffuse and point sources of nutrients are from IMAGE; inputs for hydrology are from WBM. Inputs for future years were derived from IMAGE and WBM as well. These models quantitatively interpreted Millennium Ecosystem Assessment scenarios to produce the required inputs for Global NEWS-2.","metadataDate":"2024-11-04T09:30:55","resourceIdentifiers":[{"code":"https://data.inms.international/id/ad4af6af-29b8-42a5-945c-28e3598eb85c"}],"keywords":[{"value":"Nitrogen","uri":"http://vocabs.ceh.ac.uk/inms/wp/nitrogen"},{"value":"INMS","uri":"http://vocabs.ceh.ac.uk/inms/project/inms"}],"primaryPurpose":"Global NEWS-2 quantifies river export of different nutrients (N, P, C, Si) in different forms (dissolved inorganic, dissolved organic, particulate) for past (1970, 2000) and future (2030, 2050) years for more than 6000 river basins. The model quantifies the indicator for coastal eutrophication potential (ICEP).  GLOBIO uses all biophysical information from IMAGE, such as climate, vegetation, agricultural land use, and hydrology.","spatialDomain":"Basin","spatialResolution":"Basin inputs were aggregated from inputs (from IMAGE and WBM) of 0.5 by 0.5 degree","temporalResolutionMin":"Annual","inputVariables":[{"description":"Main inputs are land use, use of synthetic and organic fertilizers, atmospheric N deposition, biological N2 fixation, total population, population with sewage connection, nutrient removal during treatment, water discharges, runoff, dams."}],"outputVariables":[{"description":"Main outputs are N, P, C and Si export by rivers to coastal waters (river mouth) and ICEP for 1970, 2000, 2030 and 2050."}]}