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GEOCARBON – Operational Global Carbon Observing System

The main objective of this project is to coordinate the contribution of European and international leading research institutes toward the development of an Operational Global Integrated Carbon Observation and Analysis System.

GEOCEP – Global Excellence in Modeling Climate and Energy Policies

GEOCEP is a project on climate and energy policy modelling and an international network for knowledge transfers. GEOCEP identifies institutional and political obstacles to implementing the first-best solutions to control for the global carbon externality and, consequently, investigates an array of second-best energy and climate mitigation policies focused on increasing energy efficiency, on reducing emissions and related environmental and health externalities and on promoting renewable energy. GEOCEP has is funded from the European Union’s Horizon 2020 research and innovation programme.

Germ of Life: Digital Drought Risk Management enabling the drought mitigation and adaptation strategies for the restoration of the ecosystem equilibrium in Mediterranean European Countries

The Germ of Life project aims at developing, test and uptake a drought risk management preventive approach based on a set of jointly developed and adapted solutions based on: (i) newly available data, (ii) drought risk prediction for the territorial monitoring systems and timely warning of drought conditions, (iii) a vulnerability assessment tool enhancing the coordination and cooperation of stakeholders, and (iv) an innovation procurement platform for innovative NBS and technological solutions supporting risk-adaptation strategies.

Global Physical Reanalysis Lot 2

The Monitoring and Forecasting Centre for the global Ocean (GLO MFC), coordinated by Mercator Ocean International is part of the seven Monitoring and Forecasting Centres (MFCs), and generates model-based products, providing operational analysis and forecasts together with long-term physical and biogeochemical Reanalyses covering the satellite altimetry era. The Reanalysis component shall produce an ensemble of Reanalyses generated by state-of-the-art ocean modeling and data assimilation components, extensively validated, and disseminated at high temporal and spatial resolutions. These global ocean Reanalysis products will be compiled in order to quantify the state of the ocean and its uncertainty using an ensemble approach.

GLORAN – COPERNICUS MARINE – PRODUCTION PROVISION AND ANALYSIS OF REANALYSIS PRODUCTS FOR THE GLOBAL OCEAN

This is a supply of oceanic reanalysis products that will be integrated into the Copernicus marine service. The service will provide at different times and on a monthly basis,  physical (ocean and sea ice) and biological (micronekton) model products for the global ocean. The quality of these reanalyses will be analyzed and the relative performances compared in the context of the developing indicators of ocean variability.  

GoNEXUS – Innovative tools and solutions for governing the water-energy-food-ecosystems NEXUS under global change

GoNEXUS aims to develop a framework for designing and assessing innovative solutions for an efficient and sustainable coordinated governance of the water-energy-food-ecosystems (WEFE) nexus. Solutions will combine policy changes and soft path options with technical and infrastructure measures for a more resilient future. To achieve this objective, the project will build a powerful model toolbox and creative participatory Nexus Dialogues. The model toolbox will include forefront global/continental and river basin models, innovatively establishing a functional link between them. At global and continental scales, the toolbox will include the individual WEFE element models CAPRI (food, agri-environment), LISFLOOD-EPIC and PCR-GLOBWB (water), PRIMES and PROMETHEUS (energy), GLOBIO (environment), and GEM-E3 (macroeconomics), some of them used in EU policies. River basin models will include nested strategic WEFE management models (including behavioral modelling) and hydrological simulation models to expand the analysis of resilience at basin scale, including impacts on ecosystems. Nexus Dialogues will co- design scenarios, models, and solutions for a joint governance of the WEFE nexus. The solutions will be evaluated using the model toolbox through a set of novel nexus indicators and criteria (based on relevant SDGs metrics) to assess trade-offs between water status, and food and energy security. GoNEXUS will be applied at global and EU levels and to six river basins representing different features and WEFE challenges in Europe (Danube, Como, Jucar, Tagus-Segura) and Africa (Zambezi, Senegal). The innovative combination of models and Nexus Dialogues will provide more accurate evaluations of future scenarios, enabling knowledge sharing and brokerage, and improving WEFE

GRACE: Growing Climate Resilience in Remote rural Areas through Community Empowerment

GRACE project focuses on addressing the needs of rural and small and medium communities localised in EU Remote Rural Areas (RRAs) to adapt and build resilience against Climate Change, by strengthening their capacities and empowering them to become actors of change and take transformative action. A consortium of 27 organizations from 16 countries implements the project, with 5 Demonstrator Regions (DRs) in Austria, Denmark, Italy, Portugal and Sweden co-developing innovative solutions centered on naturebased approaches. These solutions are designed to deliver  multifunctional, place-based social, environmental and economic benefits. In addition, circular economy principles will be embedded within these solutions to promote sustainable resource use, regenerative practices, and closed-loop systems, further enhancing local adaptation capacity. At the same time, the project will enhance local socio-economic activities, promote circular business models, maximize the value of natural capital, and help mitigate the challenges of depopulation and aging in RRAs. 5 Replicator Regions (RRs) in Greece, Ireland, Latvia, Slovakia and Ukraine will prepare for adopting the innovations developed by the DRs. Finally, GRACE will also engage Observer Regions (ORs) to follow and potentially replicate these solutions, fostering widespread CC adaptation across Europe’s rural areas. By integrating Nature-based Solutions (NBS), digital technologies, and inclusive community participation, GRACE will catalyze transformative adaptation in EU rural territories, ensuring that RRAs can successfully navigate climate challenges ahead and secure a sustainable, climate- resilient future.

GREEN BRIDGE: TERMOLI WIND FARM MONITORING

This proposal stems from the need to present a project for the realisation of a plant for the production of electricity through the exploitation of wind in the Adriatic Sea, specifically on the coast of the Molise Region.

GreenHeritage: The impact of Climate Change on the Intangible Cultural Heritage

GreenHeritage aims at developing a holistic, innovative and inclusive approach toward direct and indirect climate change (CC) impact on intangible cultural heritage (ICH), a topic which has received little or no attention at all. GreenHeritage is a large-scale project that fosters innovation through practice, by researching and adopting a new methodology that touches on different sectors, and policy, by disseminating research findings and impacting policies at national and European levels. The project will be implemented in 5 European countries (Belgium, Greece, Italy, Latvia and Spain).

GREP-4000: Provision of global physical reanalyses and production of the global reanalysis ensemble product (GREP)

Reanalyses are dynamical, observation-based reconstructions of past ocean state and are the principal way for exploring the existence of processes and trends not mapped by the observation networks. Beside the scientific importance, Reanalyses are growing in popularity within the artificially intelligence sector, being widely exploited as reference states for training ML-based forecasters or simulators. However, each Reanalysis is affected by systematic errors that intrinsically depends on the specific set up of the production system. In this context CMCC is leading an international Consortium that produces and maintains an ensemble of global Reanalyses within the Copernicus Marine Service. Several state-of-the-art products are available for a multitude of different applications from science studies to AI training, together with a day-by-day assessment of reliability and uncertainties of whole ensemble.

GREP: Provision of global physical reanalyses and production of the global reanalysis ensemble product

Reanalyses are dynamical, observation-based reconstructions of past ocean state and are the principal way for exploring the existence of processes and trends not mapped by the observation networks. Beside the scientific importance, Reanalyses are growing in popularity within the artificially intelligence sector, being widely exploited as reference states for training ML-based forecasters or simulators. However, each Reanalysis is affected by systematic errors that intrinsically depends on the specific set up of the production system. In this context CMCC is leading an international Consortium that produces and maintains an ensemble of global Reanalyses within the Copernicus Marine Service. Several state-of-the-art products are available for a multitude of different applications from science studies to AI training, together with a day-by-day assessment of reliability and uncertainties of whole ensemble.  

GRINS – Growing Resilient, INclusive and Sustainable

The green, digital and sustainable mobility transitions and the associated societal transformations require a far from trivial process of adaptation. The actors of the system, firms, households and public administrations, face complex and changing environments and need to make choices under uncertainty, often under limited information and often facing limitations in their ability to process it and use if proficiently. To respond to these needs – GRINS – Growing Resilient, INclusive and Sustainable Extended Partnership will offer tools to support fundamental and applied research for firms and households and for policy analysis and evaluation of the actions of public administrations. The project is designed following the priorities set by the Italian National Research Plan (PNR) and in strict adherence with the fundamental underline goals that inspire the whole EU-NRRP action: favouring resilient, inclusive, and sustainable growth.

HEATSAFE: Holistic EnvironmenTAl and Social Adaptation Framework for Extreme heat

HEATSAFE directly tackles the need to adapt against climate change adverse effects in the whole Mediterranean area. The intensity of heatwaves is amplified in urban areas by factors such as the configuration of the city, the lack of vegetation or the materials of urbanized surfaces, so the strategy to mitigate their effects must be designed specifically for each territory. Sociodemographic conditions must also be considered, as significant correlation between exposure to extreme heat and socioeconomic vulnerability has been shown, leading to nearly double the mortality risk in some deprived districts. This local complex planning cannot be addressed without a clear methodology. In this sense, HEATSAFE will address the most suitable ways to adapt these territories to these effects by developing key activities in Spain, Italy. Albania, Bulgaria and Greece, and with the aim of replicating project approach in the whole Mediterranean area. HEATSAFE will improve the prevention, mitigation and management of risks arising from increased frequency and intensity of extreme heat and heatwaves in the Mediterranean basin through the co-development of local action plans and the implementation of demonstrative pilot actions; complemented by a long-term strategy and opensource tools to establish heat vulnerability maps across the MED area.

HEXE – Opening the economy-climate modelling box to decision-makers

The HEXE project aims at strengthening the CMCC structure by supporting the long lasting fulfilment of its mission. CMCC has identified three main objectives to enhance its research potential, to better integrate its activities and to make its research work accessible to policy maker

HIGHLANDER – High performance computing to support smart land services

Through the use of High Performance Computing, HIGHLANDER will make it possible to process data and generating climate forecasts and projections to reduce the risks associated with climate change, for a more intelligent and sustainable management of natural resources and the territory.

HURRAY: HazelnUt Research on Resilient Areas for future Yields

In recent years, cooperation between enterprises and the scientific community has opened exploration of new climate services to understand emerging opportunities to enhance/stabilize agricultural production and reduce risks due to climate hazards. The information released by applied research on climate change can create benefits and opportunities, giving a wider vision of the future and facilitating strategic planning activities for different economic sectors, such as agribusiness. This information may relate to the  characterization and evolution of weather-climatic conditions and the use of agro-climate models.

I servizi ecosistemici marini: studio e analisi delle metodologie di valutazione biofisica ed economica, predisposizione di un tool per l’automazione del processo di valutazione

Il progetto è realizzato nell’ambito del quadro istituzionale della Direttiva europea sulla Strategia Marina e del suo recepimento normativo (D.lgs. n. 190 del 13 ottobre 2010), con il MASE (Ministero dell’Ambiente e della Sicurezza Energetica) quale autorità di riferimento e l’ISPRA (Istituto Superiore per la Protezione e la Ricerca Ambientale) come partner. L’iniziativa è finalizzata allo sviluppo e alla validazione di una metodologia integrata per la valutazione biofisica ed economica dei servizi ecosistemici marino-costieri e alla realizzazione di un tool informatizzato in ambiente GIS in grado di automatizzarne il calcolo e la restituzione cartografica. Il sistema consentirà di valutare in modo quantitativo servizi quali sequestro di carbonio, produzione di ossigeno, produzione di cibo, protezione dall’erosione e bioremediation, con applicazione in aree pilota e potenziale estensione a scala nazionale. Il progetto contribuisce a rafforzare le basi scientifiche a supporto delle attività di tutela, monitoraggio e ripristino degli ecosistemi marino-costieri.

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