1. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources

2. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources

3. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources To facilitate a step-change in the IS research perspective from the present, technology-oriented approach, to one centred on physical problem, without losing touch with technological conditions of IS generation; To intensify scientific international cooperation; To Improve research efficiency by facilitating instantaneous access to data, results, interpretations and methodologies; To strengthen cooperation between industry and science.

4. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources I N D U T S R Y S C I E N C E  Diverse data sets  Technical support  Posed problems of practical value  Production knowledge  Scientific expertise  Methodologies and ready-to-use solutions to manage seismic hazard Benefits  Solutions to manage IS hazard at an economically appropriate level and to increase the economic viability of the industrial production  Increased public awareness of real IS risks  Reservoir characterisationBenefits  Perspective of practicioners  Experiments under different tectonic and technological conditions  Practical feedback. Tests of applicability of solutions in the course of real-time technological activity

5. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources Comprehensive Episode

6. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources S E I M S I C D A T A Comprehensive Episode

7. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources G E O D A T A Comprehensive Episode

8. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources P R O T A D U C T I O N D A Comprehensive Episode

9. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources Mining Induced Seismicity Reservoir Induced Seismicity CE Injection / Extraction Induced Seismicity Cases In Debate CE

10. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources MIS - Mining Induced Seismicity IIS - Injection / Extraction Induced Seismicity RIS - Reservoir Induced Seismicity MIS IIS MIS RIS IIS MIS IIS RIS

11. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources

12. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources

13. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources

14. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources IS as a characterization tool for production enhancement Similarities and particularities of seismic processes induced by different technological activities Optimization of IS monitoring strategies Discrimination between the induced and natural seismicity IS response to technological activity in a long and short time-scale From time-dependent seismic hazard assessment to hazard management. Optimizing production for hazard control. THAIS initiative Testing procedures and benchmark tests IS and public concern

15. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources

16. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources Phase 1: Implementation Milestone ISN1-1 Milestone ISN1-1: Coordination structure and essential staff in place Milestone ISN1-2 Milestone ISN1-2: Data repositories are operational Milestone ISN1-3 Milestone ISN1-3: Process for integration of off-line sources in place, integration activity established Milestone ISN1-4 Milestone ISN1-4: Process for integration of on-line sources in place Milestone ISN1-5 Milestone ISN1-5: Science gateway in place with data management module and at least 2 scientific pipelines integrated Milestone ISN1-6 Milestone ISN1-6: All IS Node services are operational, user registration open, pilot sources integrated Phase 2: Integration Milestone ISN2-1: Milestone ISN2-1: At least 15 on-line stations are integrated Milestone ISN2-2: Milestone ISN2-2: Integration of 10 off-line data sources completed Milestone ISN2-3: Milestone ISN2-3: At least 30 on-line stations are integrated Phase 3: Maintainance and evolution Milestone ISN3-1: Milestone ISN3-1: Sustainability and development plan

17. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources Science Industry Public 1 2 3

18. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources Quality of research based on the IS NODE is important, and will be evaluated by other stakeholders. To serve the scientific sector and advance research in IS field is a major task. Quality of research based on the IS NODE is important, and will be evaluated by other stakeholders. Possible parameters:  No. of comprehensive case studies  No. of data/software/reports/services provided  No. of downloads of data/software  No. of peer reviewed papers acknowledging the IS Node  No. of conference sessions, workshops, etc. on IS subject  No. of cooperation links based on IS Node (industry, universities, research assoc.)  No. of expertises based on IS Node

19. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources The industry sector is of strategic relevance. IS may influence the operation plan. Therefore managing seismic hazard at an economically appropriate level is crucial. Possible parameters:  Total economic value of integrated RI provided by industry  Total economic value of industrial stakeholders  Number of industrial data providers  Readiness of industrial partners to disseminate data, measured by a level of comprehensiveness of the uploaded data cases;  Number of disseminated solutions for the use by industrial stakeholders  Total economic value of science-industry collaborative projects;  Total economic value of expertise provided

20. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources ISN aims to increase public understanding and realistic evaluation of hazards due to IS by providing expert knowledge and background information. Possible parameters:  Number of public users of ISN;  Quality of the information portal increasing awareness, graded by users;  Number of inquiries on anthropogenic seismic hazards and risks;  Number of downloads of instructive materials on anthropogenic seismicity.

21. A Roadmap for Earth Science in Europe: The next generation of Geophysical Research Infrastructures, Erice 2013 WG10 Infrastructure for Georesources