Tectonic processes Depositional processes … covering the macro- to micro- and nano-scales Geo-resources and hazards
HPT Experimental LaboratoriesUU, NERC, INGV, LMU, ETH, CNRS Electron Microscopy, Micro- beam Analysis NERC, CSIC, UBI, UU, CNRS Physical Analogue Modelling Laboratories UU, RM3, GFZ, LMU, CSIC, CNRS Paleomagnetism LaboratoriesINGV, CNRS, ETH, CSIC, RM3, UU
Time Space nano-scale plate-scale seismic cycle plate velocity Electron Microscopy Micro-beam Analysis HPT Experimental Laboratories Paleomagnetism Laboratories Physical Analogue Modelling Laboratories
1.Collect and harmonize available and emerging laboratory data - on the properties and processes controlling rock system behaviour at multiple scales - to generate accessible and interoperable products/services 2. Co-ordinate the development, integration and trans-national usage of the main solid Earth Science lab centres and networks 3. Provide products and services supporting research into Geo-resources and Geo-storage, Geo-hazards and Earth System Evolution
Tasks Strategic activities, governance, coordination and interaction with community, interoperability with EPOS ICS and testing Leader: UU UU, RM3, GFZ, INGV, NERC, LMU, CNRS, UBI, CSIC, ETH & wider Lab community UU, RM3, GFZ, INGV, NERC, LMU, CNRS, UBI, CSIC, ETH & wider Lab community Task 16.4 Data Services Leader: RM3 Task 16.5 Proof of concept and testing phase Leader: GFZ
Task 16.1: Strategic Activities and Governance (Leader: UU; cooperation WP4) Coordinate strategic activities to establish governance structure OF IMPORTANCE FOR : The long-term sustainability of the RIs for the data provision through EPOS Developing existing EPOS legal and IP framework to provide access and data sharing rules rules (TNA and virtual) Task 16.2: Coordination and interaction with community (Leader: UU; cooperation WP2) Establishing communication channels for interaction with whole TCS community Coordinate activities on measuring impact of the services and data provided Task 16.3: Interoperability with EPOS ICS and testing (Leader: UU, cooperation WP6 & 7) Coordinate activities to guarantee access to lab data OF IMPORTANCE FOR : Contributing to the EPOS communication strategy Monitoring and evaluating the impact of implemented services OF IMPORTANCE FOR : Validation and testing of the EPOS ICS system
Rock properties Physical and chemical properties on: - volcanic ash from eruptions - magmas - (fault)rock systems Rock history Rock system behavior - natural/induced subsidence, seismicity + hazards - modelling geo- storage containment capacity - crustal & upper mantle rheology - reservoir rock composition, poroperm + frackability - repository of analogue models - Paleomagnetic data - Analogue models
Task 16.4: Data Services (Leader: RM3) Physical and chemical properties on: a) volcanic ash from eruptions (INGV, LMU, CSIC) b) magmas (LMU, INGV, CSIC) c) rock systems (UBI, CSIC) Experimental data on rock properties relevant to: a) natural/induced subsidence, seismicity + hazards (INGV, NERC, UU) b) modelling geo- storage containment capacity (NERC, UBI, UU) c) crustal & upper mantle rheology (ETH, UU) d) reservoir rock composition, poroperm + frackability (NERC, INGV, ETH, UU) Repository of analogue models on tectonic processes, from plate to reservoir scale (RM3, GFZ, UU, CNRS) Paleomagnetic data (INGV, CNRS, CSIC, ETH, RM3, UU). OF IMPORTANCE FOR: aviation industry, meteorological and government institutes eruption and lava-flow hazard evaluation mineral exploration and mining operations modelling sedimentary basin formation and crustal stress distributions unconventional resources and geothermal energy exploration understanding Earth dynamics, geo- hazards and geo-energy understanding the evolution of sedimentary basins & associated resources charting geo-hazard frequency
Task 16.5: Proof of concept and testing phase (Leader: GFZ) Establishing mechanisms for trans-national access (TNA) of -researchers to key multi-scale laboratories -SMEs and business partners (GFZ plus all labs listed). Virtual access to metadata and raw data. (GFZ plus all labs listed) OF IMPORTANCE FOR : testing, validating and consolidating the services identified and implemented Proving viability of services to be offered beyond the Implementation Phase.
Time (Month) TNA to WP 16 Laboratories Virtual access to data: - organizing access to community publications & supporting (meta)data Benchmarking protocols and standard banks Data Services (Task 16.4) - standardization of data and data products EPOS-OP
WP16TCS Implementation - Data 1/4 Data (1) Data organization (2) Metadata (3) Web Service /API (4) AAAI (5) Implem. success at M24 (6) level 0/1 raw data (analytical and properties data) relevant for: a. volcanic ash; b. magmas; c. rock systems for mineral exploration and mining directories on local RSIs (iii) to be doneiii) to be done medium level 0/1 raw data relevant to: a. rock and fault properties for modelling and forecasting hazard; b. rock and fault properties for storage of CO2, energy sources and wastes; c. lithosphere rheology; d. composition, porosity, permeability & frackability of reservoir rocks directories on local RSIs iii) to be done medium
WP16TCS Implementation - Data 1/4 Data (1) Data organization (2) Metadata (3) Web Service /API (4) AAAI (5) Implem. success at M24 (6) level 0 paleo- magnetic data directories on local RSIs iii) to be done medium (1) e.g. seismological waveform; GNSS data; magnetotelluric data (2) Choose among: (i) Structured directories (on disk); (ii) Database; (iii) other (3) Choose among: (i) Available (standard format or proprietary?); (ii) partially available (needs ICS support?); (iii) to be done (needs ICS support?) (4) Choose among: (i) Available and working (standard API or proprietary?); (ii) partially available (needs ICS support?); (iii) to be done (needs ICS support?) (5) Choose among: (i) Available (which standard?); (ii) partially available (needs ICS support?); (iii) to be done (needs ICS support?) AAAI: Authentication, Authorization, Accounting, Identification (6) Choose among: High – Medium – Low Legend: EXISTING PARTIALLY EXISTING ENVISIONED
WP16 2/4 Data products (1) Data organization (2) Metadata (3) Web Service /API (4) AAAI (5) Implem. success at M24 (6) Level 2/3 data relevant to describing: rock systems for mineral exploration and mining directories on local RSIs (iii) to be doneiii) to be done medium Level 2/3 data relevant to describing: rock and fault behavior forecasting hazard, storage of CO2, energy sources and wastes; lithosphere rheology; composition, porosity, permeability & frackability of reservoir rocks directories on local RSIs iii) to be done medium repository of analogue models directories on local RSIs iii) to be done high/medium TCS Implementation – Data Products
WP16 2/4 Data products (1) Data organization (2) Metadata (3) Web Service /API (4) AAAI (5) Implem. success at M24 (6) TCS Implementation – Data Products (1) e.g. seismological waveform; GNSS data; magnetotelluric data (2) Choose among: (i) Structured directories (on disk); (ii) Database; (iii) other (3) Choose among: (i) Available (standard format or proprietary?); (ii) partially available (needs ICS support?); (iii) to be done (needs ICS support?) (4) Choose among: (i) Available and working (standard API or proprietary?); (ii) partially available (needs ICS support?); (iii) to be done (needs ICS support?) (5) Choose among: (i) Available (which standard?); (ii) partially available (needs ICS support?); (iii) to be done (needs ICS support?) AAAI: Authentication, Authorization, Accounting, Identification (6) Choose among: High – Medium – Low Legend: EXISTING PARTIALLY EXISTING ENVISIONED
WP16 TCS Implementation - Services 3/4 Services (1) User Access (2) AAAI (3) Implem. success at M24 (4) Transnational access to multi-scale facilities web interfaceto be done needs ICS support low (ready by M48) Virtual access to dataweb interface/APIto be done needs ICS support medium/high benchmarking protocols and standard banks web interfaceto be done needs ICS support medium/high (1) e.g. waveform processing services (2) Choose among: (i) web interface (GUI); (ii) API; (iii) other (3) Choose among: (i) Available (which standard?); (ii) partially available (needs ICS support?); (iii) to be done (needs ICS support?) AAAI: Authentication, Authorization, Accounting, Identification (4) Choose among: High – Medium – Low Legend: EXISTING PARTIALLY EXISTING ENVISIONED
WP16 TCS Implementation – TNA (if applicable) 4/4 Involved InfrastructuresType (e.g. experimental, analytical, analogue modeling, paleomagnetic labs, observatories) CountryLevel of involvement (e.g. ready now; ready by M24) UU-ESL and related laboratories HP-HT rock and fault rock physics, analogue modeling, electron microscopy & micro-beam analysis paleo- and rock magnetism lab NLready now R3-Laboratory of Experimental Tectonics Analogue modellingItready now GFZ-Experimental Tectonic Laboratory Analogue modellingGerready now INGV laboratoriesHP-HT, experimental volcanology, paleomagnetism Itready now NERC and UK laboratoriesHP-HT rock physics, electron microscopy & micro-beam analysis Ukready now LMU laboratoriesExperimental volcanology labGerready now CNRS laboratoriesPaleomagnetism, HP-HT rock physics,, electron microscopy & micro-beam analysis analogue modeling labs Frready now UBI(micro) analytical laboratories Electron microscopy & micro-beamPtready now
WP16 TCS Implementation – TNA (if applicable) 4/4 Involved InfrastructuresType (e.g. experimental, analytical, analogue modeling, paleomagnetic labs, observatories) CountryLevel of involvement (e.g. ready now; ready by M24) CSIC laboratoriesMicro-chemical and mineralogical analysis, paleomagnetism, analogue modeling labs Esready now ETH laboratoriesHP-HT rock deformation and rock physics, paleomagnetism labs Chready now Please answer to the followings: (1)Do you have an official agreed roadmap among institutions/countries? if yes, which kind of agreement (e.g. MoU)? if not, how will you deal with TNA? TNA will be regulated based on excess rules defined during EPOS PP by WG6. Implementation of TNA is planned for the second phase of EPOS-IP. (2) Data and data products created in the frame of TNA will be accessible trough EPOS? if yes, How? Through a web-interface/API (3) How will you manage the TNA, through a e-infrastructure? Yes if yes, did you start the e-infrastructure design? Not yet, but is foreseen for the second half of the project. if yes, which are its main features?
The UK Rock Deformation Network “BritRock”