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- AGEO Deliverable 4.2: Status report on the stakeholder requirements on the use of Copernicus EMS in the participating regionsPublication . Quental, Lídia; Gonçalves, Pedro; Machado, SusanaABSTRACT: This work shows stakeholders requirements and needs related to the Copernicus data and products, focused on the Copernicus Emergency Management Service (EMS). The EMS is the space dedicated service for the management of natural or human-induced disasters and humanitarian crisis and provides a wealth of information to support all phases of the emergency management cycle gathering different actors. Among the several components for emergency response, the on-demand mapping component (EMSR) provides rapid maps for emergency response and risk and recovery maps (EMSN) for prevention and planning. Another component relates to the early warning and monitoring providing continuous alerts about fires, floods and drought. In this work an overview of the various type of products in the EMS is given. The stakeholders impressions and requirements were gathered through different sources, including: a) open data and information available through public portals, b) country information acquired over time related to Copernicus data and services and national institutions, and c) interaction with stakeholders groups, e.g. national civil protection authority, researchers, and public bodies with competences in geohazard risk management, including thematic dedicated Copernicus sessions within the AGEO project. Most of the impressions related to Copernicus EMS were gathered within specialised stakeholders related to geohazards, with or without experience in Copernicus services. From the experts, very few are involved in the development and implementation of any tool for these services. The identified requirements are related to: 1) ACCESS TO DATA FOR ADDED-VALUE PRODUCTS, 2) SCALE, 3) InSAR /PSInSAR, 4) DELIVERY OF THE SERVICE, 5) NEAR REAL TIME INFORMATION, and 6) EDUCATIONAL CONTENTS. Some of these requirements can have a partial response by mechanisms within Copernicus EMS, but it implies the activation of the service, EMSR or EMSN, for 1), 2) and 3). In 5), the pre-tasking of the satellites, issued by an alert from EFAS concerning river floods and based on its potential impact, requires more interaction with national entities (EFAS partner and Civil protection authority) for more detailed comprehension of the workflow. Another possibility to minimise the time issues in 5) is to use UAV, already adopted in some activations. Ongoing developments of other Copernicus services, as well as using information of those services, can benefit geohazards analysis and monitoring. The EU-Ground Motion Service has the main objective of measure ground displacements and deformation. The first product in the European space will be available to users in Q1 2022, providing a useful tool to support geohazards. The EU-Ground Motion Service can partially fulfil part of the stakeholders requirements, in 3), with a yearly update about the European space. Concerning educational contents, in 6), there are dedicated platforms for knowledge and uptake of Copernicus data, but potentially could be developed more information related to geohazards.
- AGEO Deliverable D4.1: Status report on the use of Copernicus EMS in the participating regionsPublication . Quental, Lídia; Machado, SusanaABSTRACT: This works aims to establish the status of the Copernicus Emergency Management Service (EMS) in Portugal, based on multiple sources. EMS supports all phases of the emergency management cycle: preparedness, prevention, disaster risk reduction, emergency response and recovery, providing civil protection authorities and Humanitarian Aid Agencies, with timely and accurate geo-spatial information derived from satellite remote sensing and completed by available in situ or open data sources. It is composed of an on-demand mapping component providing rapid maps for emergency response (EMSR) and risk and recovery maps for prevention and planning (EMSN), as well as an early warning and monitoring component. Of the 20 activations in Portugal until now, the predominant type of disaster is fire, followed by floods in EMSR and multiple hazard in EMSN, among others. The products have different formats and are available online. Geohazards, in the s.s. as disasters of geological origin, whether related to internal or external geodynamic processes, correspond to very few activations of EMSN, and exceptionally floods, as mixed natural hazard in EMSR activation. A stakeholder survey designed by IGME to check the level of engagement with service provider’s, still with a limited number of respondents, highlights that the majority of the stakeholders, both individual or organizations, demonstrate a medium to high knowledge about Copernicus EMS and had already requested Copernicus data. This was considered useful as well as the experience with the service. Although most of the stakeholders are not involved in the development or implementation of tools dedicated to geohazards, the overall engagement with these dedicated tools is remarkable. Other activities such as a dedicated Copernicus workshop for AGEO increased the knowledge of Copernicus EMS through experts from the European Commission and Portuguese focal point and Authorised User to activate the service. A few bottlenecks were identified through the Copernicus EMS activation chain such as time issues that can compromise the performance of the service and its effective support to the users for the disaster management. Another one is related to the availability of ancillary data that can compromise the result of the final product, relying solely on open access data or provided by the user. Best practices of the Copernicus EMS were are also identified at several levels, i.e. concerning pre-tasking of satellite images using early warning systems and linking the two main components of EMS (monitoring and on demand), data sources, scale, easiness of activation and data accessibility.
- Development of the operational model and methodology of collecting data, updating, and sharing methodologies to specific groups of stakeholdersPublication . Kochanska, Ewa; Adamkiewicz, Iwona; Wozniak, Katarzyna; Przygodzki, Zbigniew; Trippner-Hrabi, Justyna; Feltynowski, Marcin; Szafranska, Ewa; Jeziorska-Biel, Pamela; Nalej, Marta; Jażdżewska, Iwona; Adamus, Jagoda; Chadzyński, Jacek; Podgórski, Marcin; Bielinski, Dariusz; Siciński, Mariusz; Gozdek, Tomasz; Wręczycki, Jakub; Okraska, Michal; Benedetti, Vittoria; Menin, Lorenzo; Patuzzi, Francesco; Baratieri, Marco; Peppas, Antonis; Politi, Chrysa; Skendera, Doris; Lenssen, Jip; Turati, Daniele; Ravaglia, Pieter; Imiela, Mateusz; Eusebio, Ana; Reis, Alberto; Sousa Rocha, Cristina; Camocho, David; Alexandre, Jorge; Quental, Lídia; Moura, Patrícia; Patinha, Pedro; Lukasik, Rafal M.; Wozniak, Patrycja; Tyczkowski, Adam; Bergamin, Sara; Waszak, Lukasz; Laskowska, Agnieszka; Mirys, Magdalena; Pakowska, Anna; Kałucka, Diana; Straszyńska-Pięta, Katarzyna; Rocha, Monike; Pascale, Carmine; Meletis, Konstantinos; Kehri, Roula; Gazis, Nikos; Stamatakis, Andreas; Bos, Sander; Fonseca, Graca; Cabral, Alexandra; Wojdal, LailaABSTRACT: The overall objective of the FRONTSH1P project is to ensure the green and just transition of the Polish Lodzkie Region towards decarbonization and territorial regeneration through demonstration at TRL7 of four Circular Systemic Solutions (CSS), interconnected one each other and facing the identified regional challenges/opportunities. FRONTSH1P systemic approach will be enabled by a circular governance model that connects environmental policies with social justice through just transition ensuring environmental sustainability, jobs and social inclusion. The flexibility and modularity of the four CSSs guarantee a high replicability and scalability to other territories across Europe and beyond and this will be demonstrated with the involvement of four additional Regions across EU. This report – Deliverable 2.2 (D2.2) is the result of the work carried out under the Work Package 2 - Regional Systemic Circular Economic Approach, Task 2.2. - Regional Circularity Booster Toolkit. D2.2 meets the FRONTSH1P key enabler and requirement, presents the initial approach of the digital platform creation and methodology for data collection and sharing scheme elaboration. The EU General Data Protection Regulation and open data compliant frameworks have been addressed in D2.2 too.
- Estudo de concentrações ferruginosas da PreguiçaPublication . Quental, Lídia
- Descrição Petrográfica em amostras do Cortelho-Carvalhal, CaramuloPublication . Quental, Lídia
- Providing CRM data and intelligence to EURMKB (RM1) and the GeoERA information platform : Deliverable D3.4Publication . Sadeghi, Martiya; Pereira, Aurete; Quental, Lídia; Bertrand, Guillaume; de Oliveira, Daniel Pipa SoaresABSTRACT: The overall aim of FRAME project into the European Union Raw Materials Knowledge Base (EURMKB) is to provide data on CRM by extending the spatial coverage and higher accurate data from past and ongoing European projects on raw materials. The prime aim of work package (WP)3 in the FRAME project is to produce a map of strategic and critical raw materials (SCRM) for Europe. In cooperation with other FRAME WPs, there was a consensus on the methodology used for the identification and selection process of the SCRM to be included in that map (Arvanitidis, et al., 2019; Sadeghi et al., 2020a; Sadeghi et al, 2020b) linked mainly to information collected from existing databases, such as the ones of ProMine, Minerals4EU (M4EU), EURARE and European Geological Data Infrastructure (EGDI). WP3 also has a special focus to present the metallogenetic maps and updating databases on rare earth elements, graphite, cobalt, lithium, phosphor, niobium and tantalum in collaboration with the other work project packages (WP4, WP5 and WP6) and the Mineral Resource Expert Group (MREG) of EuroGeoSurveys. The digital version on metallogenetic areas have been prepared and delivered to EGDI (Sadeghi et al, 2020b). The occurrences dataset is harvested through national databases on structured data to be accessed in EDGI. A semi and non-structured datasets were also prepared and deliver to EGDI (EGDI, 2021a, 2021b). An overview on how this was done is given in Chapter 3 of this report – Data preparation and Delivery to EGDI.
- Provide INSPIRE-compliant harmonised data on deposits and prospects of natural graphite, lithium and cobalt : DELIVERABLE D5.6Publication . Gautneb, Håvard; Törmänen, Tuomo; Gloaguen, Eric; Pereira, AureteABSTRACT: D.5.6 is the last deliverable of the work package 5 of the FRAME project. The two previous deliverables D5.4 and the D5.5 report the deliverable of the final work package data and products. All these three deliverables are related to products and data where the main results are presented on the web only. D5.6 with the title: Provide INSPIRE-compliant harmonised data on deposits and prospects of natural graphite, lithium and cobalt aims to deliver the data collected by the work package, to the GeoEra consortium and to upload the raw data, as comma separated file (CSV) format, to the European Geological Data Infrastructure (EGDI). The CSV file can then be integrated and downloaded to be used individually or with other data sets and web applications. Data is harmonised according to INSPIRE data specifications as far as it is possible. Since the main product of this deliverable is the release of the raw data and its availability on the net, this deliverable will be very concise.