Detecting, Modelling and Responding to Effusive Eruptions
CONTAINS OPEN ACCESS
For effusive volcanoes in resource-poor regions, there is a pressing need for a crisis response-chain bridging the global scientific community to allow provision of standard products for timely humanitarian response. As a first step in attaining this need, this Special Publication provides a complete directory of current operational capabilities for monitoring effusive eruptions. This volume also reviews the state-of-the-art in terms of satellite-based volcano hot-spot tracking and lava-flow simulation. These capabilities are demonstrated using case studies taken from well-known effusive events that have occurred worldwide over the last two decades at volcanoes such as Piton de la Fournaise, Etna, Stromboli and Kilauea. We also provide case-type response models implemented at the same volcanoes, as well as the results of a community-wide drill used to test a fully-integrated response focused on an operational hazard-GIS. Finally, the objectives and recommendations of the ‘Risk Evaluation, Detection and Simulation during Effusive Eruption Disasters’ working group are laid out in a statement of community needs by its members.
Near-real-time service provision during effusive crises at Etna and Stromboli: basis and implementation of satellite-based IR operations
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Published:January 01, 2016
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CiteCitation
Peter I. Miller, Andrew J. L. Harris, 2016. "Near-real-time service provision during effusive crises at Etna and Stromboli: basis and implementation of satellite-based IR operations", Detecting, Modelling and Responding to Effusive Eruptions, A. J. L. Harris, T. De Groeve, F. Garel, S. A. Carn
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Abstract
Using the NEODAAS-Dundee AVHRR receiving station (Scotland), NEODAAS-Plymouth can provide calibrated brightness temperature data to end users or interim users in near-real time. Between 2000 and 2009 these data were used to undertake volcano hot spot detection, reporting and time-average discharge rate dissemination during effusive crises at Mount Etna and Stromboli (Italy). Data were passed via FTP, within an hour of image generation, to the hot spot detection system maintained at Hawaii Institute of Geophysics and Planetology (HIGP, University of Hawaii at Manoa, Honolulu, USA). Final product generation and quality control were completed manually at HIGP once a day, so as to provide information to onsite monitoring agencies for their incorporation into daily reporting duties to Italian Civil Protection. We here describe the processing and dissemination chain, which was designed so as to provide timely, useable, quality-controlled and relevant information for ‘one voice’ reporting by the responsible monitoring agencies.
- algorithms
- automated analysis
- AVHRR
- case studies
- conversion
- data acquisition
- data bases
- data processing
- data retrieval
- data storage
- detection
- digital data
- equations
- eruptions
- Europe
- geologic hazards
- geophysical methods
- government agencies
- hot spots
- imagery
- information management
- information systems
- infrared methods
- instruments
- international cooperation
- Italy
- Lipari Islands
- monitoring
- Mount Etna
- natural hazards
- orbital observations
- pixels
- quality control
- remote sensing
- satellite methods
- Sicily Italy
- Southern Europe
- Stromboli
- volcanoes
- volcanology
- near-real-time methods
- NEODAAS
- time-averaged discharge rates