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.
Synergistic use of satellite thermal detection and science: a decadal perspective using ASTER
(e-mail: [email protected])
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Published:January 01, 2016
Abstract
Many volcanoes around the world are poorly monitored and new eruptions increase the need for rapid ground-based monitoring, which is not always available in a timely manner. Initial observations therefore are commonly provided by orbital remote sensing instruments at different temporal, spatial and wavelength scales. Even at well-monitored volcanoes, satellite data still play an important role. The ASTER (Advanced Spaceborne Thermal Emission Radiometer) orbital sensor provides moderately high spatial resolution images in multiple wavelength regions; however, because ASTER is a scheduled instrument, the data are not acquired over specific targets every orbit. Therefore, in an attempt to improve the temporal frequency of ASTER specifically for volcano observations and to have the images integrate synergistically with high temporal resolution data, the Urgent Request Protocol (URP) system was developed in 2004. Now integrated with both the AVHRR (Advanced Very High Resolution Radiometer) and MODIS (Moderate Resolution Imaging Spectroradiometer) hotspot monitoring programmes, the URP acquires an average of 24 volcanic datasets every month and planned improvements will allow this number to increase in the future. New URP data are sent directly to investigators responding to the ongoing eruption, and the large archive is also being used for retrospective science and operational studies for future instruments. The URP Program has been very successful over the past decade and will continue until at least 2017 or as long as the ASTER sensor is operational. Several volcanic science examples are given here that highlight the various stages of the URP development. However, not all are strictly focused on effusive eruptions. Rather, these examples were chosen to demonstrate the wide range of applications, as well as the general usefulness of the higher resolution, multispectral data of ASTER.
- applications
- ash clouds
- Asia
- ASTER instrument
- automated analysis
- AVHRR
- Commonwealth of Independent States
- data acquisition
- data integration
- data processing
- detection
- Earth Observing System
- effusion
- eruptions
- Far East
- global
- high-resolution methods
- imagery
- Indonesia
- infrared spectra
- instruments
- Java
- Kamchatka Peninsula
- Kamchatka Russian Federation
- lava
- lava domes
- lava flows
- mapping
- Merapi
- MODIS
- monitoring
- multispectral analysis
- orbital observations
- pixels
- precursors
- pyroclastic flows
- radiometers
- remote sensing
- Russian Federation
- Russian Pacific region
- satellite methods
- Sheveluch
- spectra
- statistical analysis
- thermal emission
- thermal infrared spectra
- time factor
- time series analysis
- Tolbachik
- volcanoes
- volcanology
- expedited data system
- Urgent Request Protocol Program