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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

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.

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.  

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.

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.

IDEATION: InlanD watErs in the digitAl Twin OceaN

IDEATION (InlanD watErs in the digitAl Twin OceaN) is funded by the European Union’s Horizon Europe programme. IDEATION is based on a cross-border cooperation, involvement, and commitment of stakeholders at European level by following the Water-oriented Living Labs (WoLLs) approach. Stakeholders will be engaged via Multi-Stakeholder Forums (MSF), using a range of different engagement methodologies (e.g., focus groups, workshops, interviews, questionnaires) depending on goals of the engagement and specificities of the context. A comprehensive review will be performed to make an open knowledge inventory for inland water systems (OpenKIWAS). IDEATION will co-design the IDEATION reference architecture defining a set of building blocks, interfaces and standards to make data, models and technologies interoperable and integrable with the Digital Twin Ocean (DTO). Putting together all the results from the MSF, OpenKIWAS, and the IDEATION reference architecture, a roadmap for the integration of inland waters in the Digital Twin Ocean will be created providing a preliminary breakdown of the work, with priorities of implementation, into a stepped approach.

INDIGO-DataCloud – INtegrating Distributed data Infrastructures for Global ExplOitation

INDIGO-DataCloud (INtegrating Distributed data Infrastructures for Global ExplOitation) aims at developing a data/computing platform targeted at scientific communities, deployable on multiple hardware, and provisioned over hybrid (private or public) e-infrastructures. The project therefore aims at developing tools and platforms based on open source solutions addressing scientific challenges in the Cloud computing, storage and network areas. INDIGO will allow application development and execution on Cloud and Grid based infrastructures, as well as on HPC clusters.

INDO-MARECLIM – Indo-European research facilities for studies on marine ecosystem and climate in India

INDO-MARECLIM is a collaborative effort between European and Indian research centres with the aim to cooperate with India on marine eco system and climate reasearch studies, including impacts on society. CMCC is one of the European partners involved and it will focus on the study of the Indian monsoon variability, its teleconnections and of the Indian Ocean influence on the monsoon itself. CMCC will be involved in conferences and workshops of interest for the cooperation with India and to the organization of a summer school in India focused on the themes above.

interTwin – An interdisciplinary Digital Twin Engine for Science

interTwin co-designs and implements the prototype of an interdisciplinary Digital Twin Engine (DTE), an open-source platform that provides generic and tailored software components for modelling and simulation to integrate application-specific Digital Twins (DTs). Its specifications and implementation are based on a co-designed conceptual model – the DTE blueprint architecture – guided by the principles of open standards and interoperability. The ambition is to develop a common approach to the implementation of DTs that is applicable across the whole spectrum of scientific disciplines and beyond to facilitate developments and collaboration.  Co-design involves DT use cases for High energy physics, Radio astronomy, Astroparticle physics, Climate research, and Environmental monitoring, whose complex requirements are expected to significantly advance the state of the art of modelling and simulation using heterogeneous distributed digital infrastructures, advanced workflow composition, real-time data management and processing, quality and uncertainty tracing of models, data fusion and analytics. As a result, a consolidation of software technologies supporting research will emerge.  The validation of the technology with multiple infrastructure facilities will boost the accessibility of users to technological capacity and the support of AI uptake in research. interTwin builds on the capacities of experts from pan-European research infrastructures and the long tail of science, an Open-Source Community of technology providers that will deliver TRL 6/7 capabilities to implement the interdisciplinary DTE, experts of the European Centre of Excellence in Exascale Computing, and infrastructure providers from the EGI Federation, PRACE and EuroHPC supporting data and compute intensive science. interTwin key exploitable results will

IONIO – IONian Integrated marine Observatory

The project aims at designing and implementing an “IONian Integrated marine Observatory” (IONIO) that will produce environmental information about the Southern Adriatic and Northern Ionian (SANI) Programme Area for a safer maritime traffic.

IRIDE (Precursor phase)

The IRIDE program is an innovative project undertaken by the Italian government, in collaboration with the European Space Agency (ESA), to leverage resources from the National Recovery and Resilience Plan (PNRR).  The objective of the project is to implement a service portfolio, ready for operations, providing Geospatial Products and to set up the digital tools and the operational scenarios for the provision of the services to IRIDE users, by also taking care of designing and developing suitable exploitation solutions and interfaces with User Operational Systems exploiting the IRIDE Services outputs.  As a result, IRIDE Marketplace will host the service value chains developed within the Service Segment and guarantee a single access point for the Users. 

IRIDE Lot 1

The IRIDE program is an innovative project undertaken by the Italian government in collaboration with the European Space Agency (ESA) to leverage resources from the National Recovery and Resilience Plan (PNRR). Phase 2 of IRIDE Lot 1 started in October 2024 following the successful implementation of the IRIDE Precursor Phase. The main purpose of the project is to deliver an operational portfolio of geospatial services and develop digital tools for End and Pilot users within the Thematic Services S1-Coastal and Marine Monitoring, S2- Air Quality, S5- Hydro-Meteorological-Climate, S6- WaterManagement. The operational services allow mapping, monitoring and forecasting of various characteristics of coastal areas (including geomorphological, land use, flooding, habitats etc.) as well as operational model validation, operational air quality monitoring and forecast, pollutant emissions monitoring and assessment, re-analysis of air quality at national scale, hydro-meterological mapping and monitoring atmospheric structure, greenhouse gases and others essential climate variables monitoring, lightening monitoring, flood forecasting and sediment management, etc.

IRIDE Lot 4

The IRIDE program is an innovative project undertaken by the Italian government, in collaboration with the European Space Agency (ESA), to leverage resources from the National Recovery and Resilience Plan (PNRR). Following the successful implementation of the IRIDE Precursor Phase, the Phase 2 started in October 2024. The main purpose of the project is to deliver an operational portfolio of geospatial services and develop digital tools for End and Pilot users within the Thematic Services S7-Emergency and S8-Security. The operational services allow mapping, monitoring and forecasting of critical events such as earthquakes, floods, extreme weather events, wildfires, volcanic eruptions, landslides, avalanches, mudflows, tsunamis, and other natural or man-made disasters. Additionally, the program includes Maritime Surveillance, focusing on oil spill detection, sea pollution management, and vessel tracking, ensuring comprehensive support for emergency and security needs.

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