1. Global levels of volcanic hazards and risks 2. Seismic methods in volcano studies 3. Volcano geodesy 4. Geochemical methods and results in understanding deep volcanic systems and dynamics 5. Petrological methods and volcanic reconstructions aimed at understanding deep volcanic systems and dynamics 6. Numerical methods and results in understanding deep volcanic systems and dynamics 7. Unrest dynamics at Campi Flegrei 8. Unrest dynamics at Long Valley and Yellowstone 9. Laboratory determination of magma properties and processes 10. Volcano monitoring into the future: Krafla Magma Testbed 11. Materials basis of volcanic dynamics 12. Numerical models of magma ascent and eruption dynamics 13. Modelling / inter-comparison for ash dispersal and related hazards 14. Multi-parametric measurements and dynamics of explosive basaltic eruptions 15. Dynamics and impacts of basaltic eruptions in Iceland 16. Dynamics and impacts of basaltic eruptions at Mt. Etna 17. Volcanic hazards and risks in Chile 18. Volcanic hazards and risks in Ecuador 19. Volcanic hazards and risks in the Philippines 20. Volcanic hazards and risks in Indonesia 21. Volcanic hazards mapping in East Asia: the G-EVER approach 22. Hazards and risks from volcanic lakes 23. Remote sensing methods to monitor volcanic hazards and impact 24. Advances in mapping volcanic hazards 25. Building acceptable risk into hazard mapping 26. Crisis operations within volcano observatories 27. Volcanic hazard communications to civil authorities 28. Volcanic hazard communications to the media and the society 29. Raising awareness of populations living under volcanic risks 30. Quantifying volcanic risks 31. Improving resilience from volcanic eruptions 32. Volcanic emergency planning. 1. Vesuvius and Campi Flegrei 33. Volcanic emergency planning. 2. Yellowstone / Long Valley 34. Volcanic emergency planning. 3. Oakland, New Zealand 35. Volcanic emergency planning. 4. Sakurajima