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About the project

FUTUREVOLC is a collaborative project funded by the Environment programme of the FP7 programme of the European Commission, addressing topic “Long-term monitoring experiment in geologically active regions of Europe prone to natural hazards: the Supersite concept”. The project started 1 October 2012 and has a duration of 3.5 years.

Overview of the project and results from its different workpackages (as of November 2015) is found in a booklet prepared for a meeting of stakeholders of the FUTUREVOLC project held in Iceland on 5 November 2015. The booklet can be viewed here (pdf).

The main objectives of FUTUREVOLC are to establish an integrated volcanological monitoring system through European collaboration, develop new methods to evaluate volcanic crises, increase scientific understanding of magmatic processes and improve delivery of relevant information to civil protection and authorities. To reach these objectives the project combines broad European expertise in seismology, volcano deformation, volcanic gas and geochemistry, infrasound, eruption monitoring, physical volcanology, satellite studies of plumes, meteorology, ash dispersal forecasting, and civil defence. This European consortium leads the way for multi-national volcanological collaboration with the aim of mitigating the effects of major eruptions at a European level that pose cross-border hazards. Iceland is selected as a laboratory supersite area for demonstration because of (i) the relatively high rate of large eruptions with long ranging effects throughout Europe, and (ii) Iceland’s capability to produce the near full spectrum of volcano processes at its many different volcano types. Based on present monitoring networks and ongoing research, the project will bridge gaps and combine efforts for a coherent close-to-real-time evaluation of the state of Icelandic volcanoes and their unrest. The project will provide timely information on magma movements from combined interpretation of earthquake sources relocated in three-dimensional velocity models, magma sources inferred from ground and space geodetic data, and measurements of volcanic volatiles. For better response during eruptions, the project will develop operational models of magma discharge rate, contributing directly to improved forecasts of ash dispersion. They will help to minimise economic disruption on a European scale during eruptions. By integrating a Volcanic Ash Advisory Centre and a civil protection unit into the project, European citizens will benefit directly from the scientific work of FUTUREVOLC.

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