A proposed EU Earth Observation Science Service: bridging the last-mile to policy needs

Earth Observation

Why an EU Earth Observation Science Service?

Earth Observation (EO) data has become an indispensable asset for informing critical decisions across multiple domains. The EU Space Programme explicitly recognizes its transformative potential for societies and citizens' lives, particularly through Copernicus, Europe's flagship EO programme. Copernicus is user- and policy-driven, and it is enabled by Services with significant investments and world-leading capabilities.

Despite this, a persistent gap remains between specific policy needs and available products and services. This “last-mile” reflects a critical disconnect whereby raw EO data and core services require additional tailoring to become directly usable for policy implementation, monitoring, and evaluation, as policymakers lack standardized, validated tools to translate observations into the reporting indicators, compliance metrics, risk assessments, or impact evaluations required by specific legal frameworks.

These gaps, repeatedly identified in policy uptake assessments conducted through the Knowledge Centre on Earth Observation (KCEO), indicate two key aspects that require attention. The first relates to prototyping tailored policy applications, and the second concerns their long-term sustainability. The latter can be envisaged either within or outside of Copernicus. A coordinated approach is required for the former, taking advantage of Europe's broad research competencies, and it should be developed closely with Copernicus entities and partners to ensure an effective transition from research to operations and sustainability. These elements are also related to "last mile" prototyping were identified and remain central to the Earth Observation Strategic Research and Innovation Agenda (SRIA), which guides European R&I priorities required for efficient Copernicus evolution.

A longer-term ambition that would address this need for a coordinated approach to the prototyping of these types of applications would be to establish an EU Earth Observation science service. This service would bring together an EO competence network covering different thematic areas that could address specific requests and provide technical specifications and prototypes for implementation in operations. This science service should leverage existing networks in Europe, such as the EuroGEO community and its Action Groups, as well as Copernicus uptake activities at national and European scale. The KCEO could act at the interface, to the science service, in providing the policy application needs from the Directorates-General (DGs) as the basis for defining technical specifications and prototypes and ensuring that the EO science service develops truly fit-for-purpose applications.

Graphic illustration of the last mile gap in Copernicus data uptake in EU policies (© JRC-KCEO)

As a forward-looking vision for this ambition the KCEO and EO science service should play a central role in accomplishing the following objectives:

Addressing the "Last Mile" Gap: bridge the critical gap between raw EO data and policy-ready applications, enabling the transformation of research and innovation into operational, sustainable solutions for European and international policy needs.
Prototyping Applications Ensuring Sustainability: foster the prototyping of tailored EO applications and ensure their long-term sustainability through diverse scenarios.
Leveraging Existing Expertise: integrate lessons learned and best practices to maximise the impact of Earth Intelligence (e.g. e-shape).
Empowering EuroGEO Action Groups: driving the shift from research to operation (R2O) and supporting the development and scaling of sustainable solutions in thematic areas.
Driving Downstream Commercialisation: demonstrating policy-relevant use cases, reducing barriers with open data and standards, and providing trusted prototypes.

Comprehensive implementation of these objectives is a long-term development that must be carried out incrementally. The open 2025-26 Horizon Europe call provides an immediate opportunity to begin building the foundations of such a science service with anticipated continuation in the 2026 work programme. Successful proposals should contribute to organising scientific knowledge supporting European and international frameworks, address cross-cutting policy needs using EO, and develop and validate EO-based intelligence solutions and datasets to bridge the “last-mile” gap, while supporting the update of a policy-driven EO R&I Roadmap for the next Multiannual Financial Framework, under the guidance of the KCEO.

The remainder of this article will highlight the KCEO resources, as well as potential roles and interfaces, that will ensure that this common effort can be built to effectively support the needs for EO-based “last-mile” policy applications.

KCEO Resources for Prioritisation

To bridge the ‘last mile’ gap, develop fit-for-purpose applications, and support decision-making, the KCEO conducts its assessments using a systematic inverse value chain approach, beginning with a data-agnostic identification of policy and decision-making needs. These are then translated into requirements for applications and services, subsequently into product specifications, and ultimately into requirements for the observation system itself, thereby ensuring strong traceability throughout the entire value chain (EU policies and Earth Observation | Knowledge for policy). To this end, the KCEO employs the following approaches:

Deep Dives Assessments: Tools to enhance EO uptake in EU policies focused on specific needs and use of EO in particular policy areas. Each deep dive follows a four-part methodology: (1) examining established EO applications where satellite monitoring is operationally mature across major policy areas; (2) exploring emerging EO applications through detailed use cases; (3) performing a systematic gap analysis of technical, institutional, and operational limitations; and (4) reviewing cross-cutting implementation requirements. So far, thematic deep dives on Biodiversity and Urban Climate Adaptation have been produced, with a deep dive on Compliance Assurance currently under development (with publication planned for Q2 2026). As a state-of-the-art example in this type of assessment, the following use cases are covered within the Compliance Assurance Deep Dive:

Overview of use cases and specific objectives covered in the Compliance Assurance Deep dive assessment (© JRC - KCEO)

KCEO Policy Survey and Assessment: The KCEO Survey provides a comprehensive overview of opportunities and ongoing challenges in Copernicus uptake across European Commission Directorate-Generals, by applying a structured framework to bridge the “last-mile” gap between EO capabilities and policy needs. The elicitation phase systematically captures EO requirements across all Directorate-Generals through a multi-channel approach, and co-design, followed by a five-step methodology - (1) identification of application needs, (2) product inventory, (3) assessment of match level, (4) gap analysis, and (5) definition of improvements. This methodology translates needs into user requirements, supported by iterative feedback and validation from Policy Directorate-Generals to ensure relevance and accuracy in the recommendations for the Copernicus Programme evolution.

DG	Unit	Policy File Description
AGRI	AGRI.A.2	Regulation (EU) 2021/2115 - CAP Context/Impact Indicator "C.21/I.21 Enhancing provision of ecosystem services: Share of agricultural land covered with landscape features". EO HR crop mapping is relevant for C.22/I.22 and GAEC7. Potential relevance for C.05, C.19, C.41/I.13, C.17, C.21/I.21. Deriving spatially explicit risk indicator by integrating farmers declarations, statistics and Earth Observations. → C.49/I.18 Sustainable and reduced use of pesticides: Risks, use and impacts of pesticides
AGRI	AGRI.A.4	Data Governance, IACS Data Sharing (Art.67/Reg.2021/2116, Spatial Agricultural Information System-SAIS), Interoperability/Data Space (EIF, DEP), CAP Indicators (CAP, APR)
AGRI	AGRI.C.1	Common Agricultural Policy implementation (2023-2027) - Integrated Administration and Control System (IACS). Manages €40 billion annual CAP aid. Includes: Land Parcel Identification System (LPIS), Geo-spatial Application (GSA), Area Monitoring System (AMS). Uses VHR satellite imagery and Copernicus Sentinel data. Legal references: Articles 24, 68, 69, 70 of Regulation (EU) 2021/2116; Articles 8, 10, 11, 12 of Commission Implementing Regulation (EU) 2022/1173; Articles 2, 3, 4, 5 of Commission Delegated Regulation (EU) 2022/1172
AGRI	AGRI.D.1	Long-term vision for rural areas (LTVRA), The LTVRA communication: EUR-Lex - 52021DC0345 - EN - EUR-Lex
CLIMA	CLIMA.A.2	Cross-cutting support on modelling targets, reporting GHG emissions ETS (B2)/ESR(A3)/LULUCF(C3). Unit within CLIMA in charge of methane with DG ENER is C1
CLIMA	CLIMA.B.1	EU Emission Trading System, Directive 2003/87/EC establishing a system for greenhouse gas emission allowance trading within the Union
CLIMA	CLIMA.B.4	Non-CO2 aviation effects on climate
CLIMA	CLIMA.B.4	Climate Action, Mobility: Air, Rail, Water and Intermodal Policy: REGULATION (EU) 2023/957 amending Regulation (EU) 2015/757 ("MRV Regulation"); Directive (EU) 2023/959 amending Directive 2003/87/EC ("ETS extension to maritime")
CLIMA	CLIMA.C.1	F-Gases and ODS regulations (full legislative responsibility), digital, energy and cleantech files (consulted)
CLIMA	CLIMA.C.3	Proposal for a Regulation on a monitoring framework for resilient European forests, COM(2023) 728 final ('Forest Monitoring Law', FML)
CLIMA	CLIMA.C.3	REGULATION OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL establishing a Union certification framework for permanent carbon removals, carbon farming and carbon storage in products
CLIMA	CLIMA.C.3	LULUCF Regulation
CLIMA	CLIMA.D.2	/
CLIMA	CLIMA.E.1	Adaptation to Climate Change - Resilience Building
CLIMA	CLIMA.E.2	Global and European Covenant of Mayors for Climate and Energy, supporting climate action in cities
ECHO	ECHO.A.2	CEMS (Copernicus Emergency Management Service) established via Commission Implementing Decision (EU) 2018/620 on technical specifications for Copernicus service component
ENER	ENER.A.4	All relevant Energy policy files requiring analytical support: Green Deal, REPowerEU
ENER	ENER.B.1	Local Initiatives (Covenant of Mayors, Smart Cities Marketplace, Clean Energy for EU Islands, Energy Poverty Advisory Hub, Coal Regions in Transition), Just Transition, Consumers, Smart Consumer Services & Data. Linked with Fit-for-55 package, e.g. Electricity Market Directive (IMED, directive (EU) 2019/944)
ENER	ENER.B.2	Implementation of the Energy Efficiency Directive
ENER	ENER.B.3	Energy performance of buildings, Energy Performance of Buildings Directive EU/2024/1275, Energy products related legislation, notably Ecodesign and Energy Labelling Directives
ENER	ENER.B.4	Risk-preparedness in the electricity sector regulation - Regulation (EU) 2019/941
ENER	ENER.C.1	Renewable Energy Directive (EU) 2018/2001 on promotion of renewable energy sources (amended in 2021, 2023, 2024)
ENER	ENER.E.1	Euratom Safeguards
ENV	ENV.C	Zero Pollution Monitoring and Outlook
ENV	ENV.C.1	Water Resilience (emerging policy area/future commission priority)
ENV	ENV.C.1	Floods Directive
ENV	ENV.C.1	Water Framework Directive (2000/60/EC), Environmental Quality Standards Directive (2008/105/EC), Groundwater Directive (2006/118/EC)
ENV	ENV.C.2	Marine Strategy Framework Directive - 2008/56/EC
ENV	ENV.C.2	Directive (EU) 2016/802 ("Sulphur Directive")
ENV	ENV.C.2	Bathing Water Directive (2006/7)
ENV	ENV.C.3	Air quality
ENV	ENV.C.4	Industrial emissions and safety, Directive 2010/75/eu
ENV	ENV.D.1	Forest Monitoring Law proposal COM(2023)728
ENV	ENV.D.1	Soil Strategy COM(2021) 699 // Soil Monitoring Law COM(2023) 416
ENV	ENV.D.2	EU Biodiversity Strategy for 2030 - COM(2020)380
ENV	ENV.D.2	Nature Restoration Law
ENV	ENV.D.2	EU Pollinators Initiative
ENV	ENV.D.3	Habitats directive (2011/484/UE) - Birds directive 79/409/EEC
ENV	ENV.E.3	All EU environmental legislation
ENV	ENV.F.1	Deforestation-free supply chain REGULATION (EU) 2023/1115
HOME	HOME.B.1	Frontex operations - Regulation (EU) 2019/1896 on European Border and Coast Guard, Commission Implementing Regulation (EU) 2021/581 on EUROSUR situational pictures, Regulation (EU) 2021/696 establishing Union Space Programme
HOME	HOME.C.5	Situational Awareness, Early Warning; Commission Recommendation (EU) 2020/1366 on EU mechanism for preparedness and management of crises related to migration
INTPA	INTPA.A.2	Africa - EU partnerships: regional and multi-country programmes for Sub-Saharan Africa (NDICI Africa 2021 - 2027). Regulation (EU) 2021/947 establishing the Neighbourhood, Development and International Cooperation Instrument – Global Europe
INTPA	INTPA.F.1	Sustainable energy, EU Global Gateway Strategy, Africa-EU Energy Partnership
INTPA	INTPA.F.1	Climate adaptation and Disaster risk reduction, Green deal, UN Early Warning System for All, EU disaster resilience goals
INTPA	INTPA.F.2	The Planet component of the European consensus on Development - focus on biodiversity in its external dimension
INTPA	INTPA.F.3	EU Deforestation Regulation - impact on 3rd countries
INTPA	INTPA.F.4	Urban development in the Global South (SWM, Urban planning, Housing, Urban mobility, Climate change adaptation). Regulation (EU) 2021/947 NDICI – Global Europe
INTPA	INTPA.F.4	Sustainable transport under the Global Gateway strategy
INTPA	INTPA.F.5	Digital transformation aspect of EU cooperation, connecting other Units needs with Copernicus data. NDICI-GE Regulation (EU) 2021/947
MARE	MARE.A.1	Marine Knowledge - C(2023) 7584 final, COM(2010) 461 final
MARE	MARE.A.2	Aquaculture policy - Article 34 of the Common Fisheries Policy Regulation
MARE	MARE.A.2	Maritime spatial planning directive 2014/89
MARE	MARE.B.4	Policy to prevent, deter and eliminate Illegal, Unreported and Unregulated (IUU) fishing. COUNCIL REGULATION (EC) No 1005/2008
MARE	MARE.C.1	Delegated Regulation 2017/118, Delegated Regulation 2017/117 and Annex XIII of Regulation (EU) 2019/1241
MOVE	MOVE.B.1	Military Mobility - Action Plan 2.0, Council Military Requirements - Requirements for Transport Infrastructure, TEN-T Regulation
MOVE	MOVE.B.1	Climate adaptation/climate proofing of transport infrastructure projects on Trans-European Transport Network (TEN-T), based on Regulation (EU) 2024/1679
MOVE	MOVE.D.2	Directive 2002/59/EC establishing Community vessel traffic monitoring and information system as part of Union Maritime Information and Exchange System providing Integrated Maritime Surveillance (IMS). Related: Directive 2005/35/EC on ship-source pollution, Directive (EU) 2019/883 on port reception facilities, Regulation (EU) 2023/1805 on renewable and low-carbon fuels in maritime transport
REFORM	REFORM.A.3	Aid Programme for the Turkish Cypriot community - Council Regulation 389/2006
REGIO	REGIO.A.1	Communication on EU's outermost regions - COM/2022/198 final "Putting people first, securing sustainable and inclusive growth, unlocking the potential of the EU's outermost regions"
REGIO	REGIO.B.1	Development of EU's cohesion policy (Regulation 2021/1060) and cohesion report (Article 175 TFEU)
SANTE	SANTE.B.1	Policies on serious cross-border threats to health, EU Climate and Health Observatory, One Health approach. Monitoring health risks from climate change. Regulation (EU) 2022/2371 on serious cross-border threats to health
SANTE	SANTE.F.3	Sustainable Use of Pesticides Directive (Directive 2009/128/EC. Future potential for geospatial tools to superimpose pesticide use data on vegetation types
SANTE	SANTE.G.1	Plant health, Regulation (EU) 2016/2031, in particular surveillance

Assessment of internal treaties and commitments: The KCEO has developed an ongoing initiative to enhance EO's contribution to international frameworks such as the 2030 Development Agenda, UNFCCC, CBD, and SDGs. The assessment focuses on a systematic process to align policy needs with EO capabilities: (1) extracting policy targets from international treaties using AI-assisted analysis; (2) translating them into concrete EO requirements (resolution, frequency, extent); (3) validating needs with expert reviewers; (4) compiling a unified catalogue of global EO products from Copernicus, JRC, NASA, CEOS, and others; (5) matching needs to existing data using a suitability score; and (6) identifying priority gaps and best-available EO solutions for policy reporting. This exercise encompasses more than 30 international treaties and conventions (see full list below).

Roles, Responsibilities and Interoperability

The EO science service and the KCEO should engage with the Copernicus Entrusted Entities, Member States, as well as European and global GEO initiatives within its governance framework. This will ensure longer-term sustainability and facilitate the upscaling of the KCEO policy assessments. The different roles, responsibilities, and mutual interfaces among the actors would ensure operational flexibility and scalability, strategic alignment, efficient resource mobilisation, and coordinated contributions to European priorities and international commitments, building on existing European EO structures. The following key interfaces are conceptualized:

Key Interfaces of the EO science service (© JRC-KCEO)

The 2025-26 Horizon Europe call provides the first concrete opportunity to implemnt key components of the EO science service. Successful proposals will address elected elements of the science–policy interface by engaging the research community, in particular in activities related to prototyping tailored EO applications based on KCEO-identified policy needs, while contributing to the evolution of the Strategic Research and Innovation Agenda (SRIA). These foundational projects will establish the methodologies, governance structures, and validation frameworks required for the further development and consolidation of the EO science service under the next Multiannual Financial Framework and future initiatives.

The functional workflow between the KCEO and the EO science service will be a continuous, iterative process designed to ensure that EO applications are developed with direct policy relevance and user needs at their core. This systematic interface is essential for bridging the gap between data and intelligence, ensuring that research and innovation (R&I) translate into operational services.

Workflow between KCEO and the European Earth Observation Science Service This schematic highlights the core interaction: KCEO identifies and translates policy needs, which the Science Service then develops into prototypes and operational solutions. Feedback from the Science Service informs KCEO continuous refinement of requirements and guides the long-term sustainability of the applications (© JRC - KCEO)

Resources

Initial Science Service Call

Contact

permalink: Main URL

Contact: EC-KCEO@ec.europe.eu

Originally Published \| Last Updated	27 Jan 2026 \| 12 Feb 2026
Knowledge service \| Metadata	Earth Observation \| EU policies and Earth Observation Research & Innovation Fitness for purpose of EO products

Why an EU Earth Observation Science Service?

KCEO Resources for Prioritisation

Roles, Responsibilities and Interoperability

Resources

Biodiversity Deep Dive

Urban Climate Adaptation Deep Dive

Compliance Assurance Deep Dive

Initial Science Service Call

Calls for proposals

Contact

More information and links