Editing SuPeRBE Wiki (section)

===  Future Climate Prediction ===
{| class="wikitable sortable"
|+ Future climate prediction
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! Region / State !! Portal Provider  !! Information !!   Link 
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| Germany ||Climate Service Center Germany|| GAGERICS (Climate Service Center Germany) has published climate outlooks for all 401 German counties, districts, and independent cities. Each report summarizes key climate indicators such as temperature, heat days, dry days, and heavy rain days over a few pages. The projections cover the 21st century, offering three scenarios: one with significant climate protection (RCP2.6), one with moderate climate protection (RCP4.5), and one without effective climate measures i.e High emissions scenario (RCP8.5)||[https://www.gerics.de/products_and_publications/fact_sheets/landkreise/index.php.de Klimaausblicke für Landkreise]
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| Germany || Potsdam Institute for Climate Impact Research (PIK) || This portal illustrates the potential impacts of climate change on Germany across various sectors, including climate, agriculture and forestry, water, energy, tourism, and health. Users can explore various parameters such as temperatures, crop yields, or wildfire risks. The portal provides data for the period 1901-2010 (observed data from the German Weather Service) and 2011-2100 (simulated data from the Impact2c project). Selected parameters are displayed as color-coded maps of Germany, with three integrated zoom levels offering more detailed views at the state or county level.
The portal includes three future climate scenarios (RCP 2.6, RCP 4.5, and RCP 8.5), based on different levels of greenhouse gas emissions for the period 2011-2100. These scenarios help visualize how varying levels of emissions might affect different regions and sectors in Germany
|| [https://kfo.pik-potsdam.de/ger/index_en.html?language_id=en klimafolgen online] 
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| Piedmont Region/Italy || ARPA Piemonte (Regional Agency for Environmental Protection - Piedmont) || As part of the activities related to the construction of the Regional Strategy on Climate Change, the Piedmont Region and Arpa Piemonte have drawn up two research reports that illustrate in detail the trend of the main climate variables in the Piedmont area: the first allows the analysis of climate change from 1981 to 2010 and the second, through the use of an ensemble of latest generation regional climate models,  appropriately treated to adapt them to the climate of the regional territory, allows us to trace a projection of the climatic evolution of Piedmont up to the end of the century. The regional climate report on the future the RCP4.5 scenario has been considered, which represents a scenario with mitigation actions (linked, for example, to the commitments of the Paris Agreement), such as to allow a decrease in GHG emissions after 2070 and stabilization by 2100, and the RCP8.5 scenario, which represents the high-emission scenario, the trend scenario without effective mitigation policies. || [https://www.arpa.piemonte.it/scheda-informativa/scenari-climatici-futuri-piemonte Future climate scenarios in Piedmont] 
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| Croatia || DHMZ (Croatian Meteorological and Hydrological Service) || The simulations of regional climate models used in this analysis resulted from: simulations performed for the purpose of developing the Climate Change Adaptation Strategy in the Republic of Croatia for the period until 2040 with a view to 2070, simulations performed for research purposes within the Meteorological Research and Development Sector at DHMZ and simulations available through the international EURO-CORDEX initiatives. Simulations of regional climate models were analyzed for the period 1971 to 2070 at a spatial resolution of 12.5 km. The simulation includes three future climate scenarios (RCP 2.6, RCP 4.5, and RCP 8.5) ||  [https://meteo.hr/klima.php?section=klima_modeli&param=klima_simulacije&Grad=Sibenik&Scenarij=RCP1&Val=pr Simulations of regional climate models] 
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| Croatia || Hrvatske vode || The model shows river basin management plan for the period from 2022-2027. It shows coverage and depth of the floods for low, medium and high probability scenarios including floods due to possible collapses of embankments on larger watercourses and collapse of high dams. || [https://preglednik.voda.hr/gis-web/rest/services/short/eJ8 Fluvial flood GeoPortal] 
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| Croatia || klimatskepromjene.hr, Sensum d.o.o || The platform enables predictions about sea level rise based on computer calculations. The presented extreme sea level forecast is estimated using dynamic simulation of the main hydrodynamic components of sea level (mean sea level, tides, wind gusts, wave height) from a set of 6 climate models. The data also included the impact of short but strong storm episodes (storm winds and wave heights). By clicking on the map, the expected deviation of sea level by 2100 at the selected location is displayed. || [https://klimatskepromjene.hr/interaktivna-mapa-razina-mora/ Platform: Sea level deviation] 
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| Croatia || klimatskepromjene.hr, Sensum d.o.o || The results of the regional climate model RegCM4 are obtained as part of the project "Strengthening the capacity of the Ministry of Environmental Protection and Energy for adaptation to climate change and preparation of the Draft Strategy for Adaptation to Climate Change", and were used in the development of this innovative platform, which is financed by the EU Transition Facility. Until 2005, simulations of measured (historical) values were presented, while from 2005 to 2050, the forecast of the selected climate element was presented. The platform covers two greenhouse gas concentration scenarios (RCP 4.5 and RCP 8.5) and five different climate elements (temperature, precipitation, wind speed, clouds, and solar radiation). || [https://klimatskepromjene.hr/en/interaktivna-mapa-klimatske-promjene/ Climate Impact - Assessment Platform]
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| Czechia || Research Institute for Soil and Water Conservation (VÚMOP)  || The presented GIS maps "Classification of the territory of the Czech Republic in terms of the potential occurrence of erosion events" are the interpretation of the results of the model proposed within the framework of the research project [https://www.isvavai.cz/cep?s=jednoduche-vyhledavani&ss=detail&h=QK1720289 NAZV No. QK1720289 - "Development of an automated tool for optimization of agricultural soil erosion monitoring using distance methods 2017-2019"]. To produce a set of maps, the model was run with different parameter variations. Individual maps were made for different rainfall amounts (10, 15, 20, 25, 30 mm) with a duration of 1 hour. || [https://me.vumop.cz/docs/Nmap_vznik_eroze.pdf Certified maps [CZ]]
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| Czechia || CzechGlobe || The Klimatická změna.cz platform offers climate scenarios for the Czech Republic for future years (2030, 2050, and 2090), based on different CO₂ emissions trajectories. It provides data on key climate indicators, such as the number of days with daily average temperatures exceeding 5°C and the average number of days with a heat index ≥27°C. The platform also analyzes the impact of vegetation on surface runoff and assesses potential climate risks across multiple time frames. It includes various thematic maps in areas like agriculture, water regimes, climate extremes, and forestry || [https://www.klimatickazmena.cz/en/ Klimatická změna]
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| Czechia || Ministry of Environment [CZ] and Czech Hydrometeorological Institute (CHMI) || The HAMR system HAMR system (Hydrology, Agronomy, Meteorology, and Retention) is a  platform that predicts and assesses drought and water scarcity, integrating models like SoilClim and Bilan to evaluate meteorological, agricultural, and hydrological conditions. It classifies drought into five types: meteorological, agricultural, hydrological surface, hydrological underground, and water scarcity, using advanced indices and historical data (1981–2010). The system provides forecasts For the entire country up to eight weeks ahead based on international meteorological models and offers valuable insights for drought management, water resource planning, and policy-making  || [https://hamr.chmi.cz/ HAMR platform]
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| Austria || Central Institution for Meteorology and Geodynamics (ZAMG)|| The ZMAG tool leverages advanced climate models, incorporating both global and regional simulations to project future climate developments under natural and anthropogenic influences. It enables detailed analysis of climate trends, including the integration of previously underrepresented components such as the cryosphere and biosphere.
The simulation results provide a critical foundation for policymakers to design measures to limit global warming and develop targeted adaptation strategies for regional climate changes.
|| https://www.zamg.ac.at/cms/de/klima/informationsportal-klimawandel/klimazukunft
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