EU-MACS project aims at identifying constraints and enablers in the market for climate services so as to clarify and illustrate how the supply of and demand for climate services can be optimally matched, while accounting for differentiation in climate service products and their production, as well in the user needs and capabilities regarding climate services.

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This contract will aim at carrying out the European Climate Risk Assessment 2 (EUCRA-2). EUCRA-2 will ensure that Europe’s climate risk knowledge stays up-to-date and actionable throughout high-level risk assessments and recommendations tailored to EU policy contexts.

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Europe’s urban areas face significant challenges to ensure the availability and consumption of healthy, affordable, safe and sustainably produced food. Such challenges converge within local food environments but are often neglected by public planners. Promising initiatives taken by municipalities to change the architecture of food choice often fail to become embedded in the wider policy context and to reach deprived and vulnerable groups. Key factors responsible for this are: (1) siloed ways of working and (2) fragmentation of knowledge on facilitators and barriers related to food system transformation. These factors hinder the development and implementation of integrated urban food policies. FOODCLIC aims to contribute to urban food environments that make healthy and sustainable food available, affordable and attractive to all citizens (including deprived and vulnerable groups).

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The EU target to significantly reduce its emissions by 2030 and become climate neutral by 2050 requires new mitigation measures within all sectors. Clear policy pathways are needed that outline alternative trajectories for European forests and the forest-based sector towards a climate-neutral and resilient society and economy. ForestPaths co-design, quantify and evaluate holistic forest-based policy pathways to optimize the contribution of forests and the forest-based sector to climate change mitigation, while considering the need to adapt forests to climate change, conserve biodiversity and sustain forest ecosystem services provisioning. ForestPaths goes beyond the state-of-the-art by finding feasible Climate & Biodiversity-Smart (CBS) options across Europe, suggesting effective mitigation actions, and analysing their co-benefits and trade-offs with biodiversity and ecosystem services. ForestPaths engages with policymakers, forest practitioners, regional and national authorities, forest-based sector, certification bodies, researchers, and civil society in a co-design process to develop policy pathways and CBS options and maximize their practical usability, transparency, and trustworthiness. Openly available through an online policy support platform, pathways are quantified based on a next-generation assessment framework of models, tools, and data. This framework considers forest growth, climate change risks, as well as interactions between forests and the forest-based sector and economic system, supported by state-of-the art monitoring of forest disturbances, composition, and structure. The multidisciplinary consortium consists of research institutes, universities, and SMEs from across Europe, with leading expertise on climate, energy and biodiversity policies, complex system modelling, life-cycle analysis, remote sensing, disturbance ecology, forest and GHG inventories, social sciences, stakeholder process and communications.

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For the first time, all major European modelling and infrastructure efforts are coordinated within a dedicated project to develop and deploy a sustainable and unified system for delivering future emissions and land-use scenarios, and climate and impact projections. This system is referred to hereafter as the’climate pathways system’. It is designed to support climate research, international assessments, and climate policy for the coming decades. FUTURA explores how to design a new cyclical scenario generation protocol built from process-resolving models complemented by emulator and AI approaches. It shifts from causal-chain modelling workflows to a unified system that unifies multi-annual process-driven iterations complemented by the ability to run fast annual iterations. We address how to best align this system with policy timeframes, and how to effectively leverage the model and data multiverse to advance understanding while supporting researchers, practitioners, and policymakers. The FUTURA climate pathways system represents a significant step towards the sustained and responsive delivery of climate projections in support of climate assessment and policy.

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High-Performance Computing (HPC) is a major enabler of progress in many domains of science, including UN Sustainable Development goals towards improving population health and climate action. HPC is driving breakthroughs in genomics, drug discovery, and personalized medicine, as well as geophysical hazard simulations, improving preparedness for disasters like earthquakes and tsunamis, and supports weather and climate predictions. Europe is among the world leaders in HPC and with initiatives such as EuroHPC JU is advancing the usage of exascale computer systems for research. India is expanding its HPC capabilities through the National Supercomputing Mission, focusing on indigenous technology and fostering academic, industrial, and governmental collaborations. Combining Europe’s advanced infrastructure with India’s growing expertise offers opportunities for innovation in those strategic areas of climate modeling, disaster management, and healthcare. Shared resources and expertise can enhance predictive models, accelerate responses to pandemics, and foster technological and economic growth. The GANANA project is establishing a long-term partnership collaboration by uniting European HPC centers of excellence (BioExcel, ChEESE, ESiWACE3) and Indian institutions (C-DAC, IMD, ISR, NII, AIRAWAT) with the objectives to: • Strengthen the links between research communities in the priority domains by supporting existing and establishing new collaborative activities. • Setup and operate a range of activities in support of expertise exchange, capacity building and sharing of computing resources. • Develop selected leading software packages by extending their functionality, optimise HPC performance and scalability, deploy on target architectures, improve usability and data integration. • Expand the outreach, broaden the participation of external collaborators and

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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.

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ECMWF has opened the Request for Proposal (RFP) DE_360_A1 to extend Agreement ECMWF/DESTINE/2022/DE_360 (hereafter “DE_360”) already ongoing with CINECA, in order to implement and demonstrate the interoperability between Destination Earth Digital Twin Engine and the GLORI implementation based on the ICON model.

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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.

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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.

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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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The overall objective of the project is to support the sustainable development of the country via improved environmental and climate change requirements and management by enabling Government Institutions to develop, implement and enforce environmental and climate change legislation to EU standards.