On the lack of InSAR observations of magmatic deformation at Central American volcanoes
Identifieur interne : 000024 ( Main/Exploration ); précédent : 000023; suivant : 000025On the lack of InSAR observations of magmatic deformation at Central American volcanoes
Auteurs : S. K. Ebmeier [Royaume-Uni] ; J. Biggs [Royaume-Uni, États-Unis] ; T. A. Mather [Royaume-Uni] ; F. Amelung [États-Unis]Source :
- Journal of Geophysical Research: Solid Earth [ 2169-9313 ] ; 2013-05.
Descripteurs français
- Wicri :
- geographic : Nicaragua.
- topic : Sciences de la terre.
English descriptors
- KwdEn :
- Acquisition date, Active volcanoes, Alos data, Amelung, Andes, Aperture radar, Arenal, Atmospheric noise, Band data, Biggs, Caldera, Carr, Cava, Cava table, Central america, Central american, Central american volcanoes, Central andes, Chaussard, Coherence, Complete degassing, Conduit, Costa rica, Crust, Deformation, Deformation events, Deformation measurements, Deforming, Degassing, Dyke, Dzurisin, Earth planet, Earth sciences, Ebmeier, Eruption, Exact test, Explosive eruptions, Fournier, Fuego, Fumerolic, Geochem, Geodetic expression, Geophys, Geophysical, Geosyst, Geotherm, Global volcanism network, Ground deformation, Insar, Insar data, Insar measurement, Insar measurements, Insar observations, Insar survey, Insar surveys, Interferograms, Interferometric, Interferometry, Lava, Lett, Localized, Localized accumulation, Locke, Lundgren, Magma, Magma movement, Magma reservoirs, Magma storage, Magma sulphur content, Magmatic, Magmatic deformation, Masaya, Masaya caldera, Mather, Mogi, Nicaragua, Null hypothesis, Pacaya, Poor coherence, Pritchard, Radar interferometry, Radar path delay, Remote sens, Santiaguito, Shallow crust, Smithsonian institution, Southern andes, Standard deviation, Subduction, Subsidence, Such processes, Sulphur content, Supplementary table, Surface deformation, Synthetic aperture radar interferometry, Systematic survey, Telica, Temporal resolution, Time series, Tropospheric water vapor, Uxes, Volatile content, Volcanic, Volcanic activity, Volcanic arcs, Volcanic deformation, Volcanism, Volcano, Volcano deformation, Volcanol, Volume change, Volume changes, Water vapor.
- Teeft :
- Acquisition date, Active volcanoes, Alos data, Amelung, Andes, Aperture radar, Arenal, Atmospheric noise, Band data, Biggs, Caldera, Carr, Cava, Cava table, Central america, Central american, Central american volcanoes, Central andes, Chaussard, Coherence, Complete degassing, Conduit, Costa rica, Crust, Deformation, Deformation events, Deformation measurements, Deforming, Degassing, Dyke, Dzurisin, Earth planet, Earth sciences, Ebmeier, Eruption, Exact test, Explosive eruptions, Fournier, Fuego, Fumerolic, Geochem, Geodetic expression, Geophys, Geophysical, Geosyst, Geotherm, Global volcanism network, Ground deformation, Insar, Insar data, Insar measurement, Insar measurements, Insar observations, Insar survey, Insar surveys, Interferograms, Interferometric, Interferometry, Lava, Lett, Localized, Localized accumulation, Locke, Lundgren, Magma, Magma movement, Magma reservoirs, Magma storage, Magma sulphur content, Magmatic, Magmatic deformation, Masaya, Masaya caldera, Mather, Mogi, Nicaragua, Null hypothesis, Pacaya, Poor coherence, Pritchard, Radar interferometry, Radar path delay, Remote sens, Santiaguito, Shallow crust, Smithsonian institution, Southern andes, Standard deviation, Subduction, Subsidence, Such processes, Sulphur content, Supplementary table, Surface deformation, Synthetic aperture radar interferometry, Systematic survey, Telica, Temporal resolution, Time series, Tropospheric water vapor, Uxes, Volatile content, Volcanic, Volcanic activity, Volcanic arcs, Volcanic deformation, Volcanism, Volcano, Volcano deformation, Volcanol, Volume change, Volume changes, Water vapor.
Abstract
A systematic survey of 3 years of L band interferometric synthetic aperture radar (InSAR) measurements of the Central American Volcanic Arc shows a striking lack of magmatic deformation. We make measurements at 20 of the 26 historically active volcanoes and demonstrate that none were deforming magmatically (2007–2010), although we do measure shallow subsidence associated with flow deposits and edifice loading at three volcanoes. The minimum detection rates for our survey, as estimated from the variance in time series of radar path delay, are relatively high due to strong variability of tropospheric water vapor. We compare the average detection threshold (2.4 cm/yr) to published InSAR measurements and show that the majority (~78%) of deformation events would have been measurable with the same level of noise as Central America. We calculate that if magmatic volcano deformation were spread evenly across historically active volcanoes worldwide, the probability of none of Central America's 26 volcanoes deforming would be < 1%. The lack of magmatic deformation in Central America may be indicative of differences in magma storage relative to other well‐studied continental arcs. The high proportion of basalts that ascend directly from depth relative to andesites stored in the shallow crust may limit the potential for high magnitude deformation. Magma stored in vertically elongated reservoirs and high parental melt volatile contents that result in bubble‐rich, compressible magmas at shallow depths may also reduce surface deformation. We consider the measurement and analysis of a lack of deformation at active volcanoes to be essential for realizing the potential of regional scale InSAR surveys.
InSAR survey of CAVA confirms lack of magmatic deformation, 2007‐2010Lack of magmatic deformation in CAVA is significant relative to other arcsMeasurement and analysis of lack of deformation at volcanoes yields useful data
Url:
DOI: 10.1002/jgrb.50195
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date</term><term>Active volcanoes</term><term>Alos data</term><term>Amelung</term><term>Andes</term><term>Aperture radar</term><term>Arenal</term><term>Atmospheric noise</term><term>Band data</term><term>Biggs</term><term>Caldera</term><term>Carr</term><term>Cava</term><term>Cava table</term><term>Central america</term><term>Central american</term><term>Central american volcanoes</term><term>Central andes</term><term>Chaussard</term><term>Coherence</term><term>Complete degassing</term><term>Conduit</term><term>Costa rica</term><term>Crust</term><term>Deformation</term><term>Deformation events</term><term>Deformation measurements</term><term>Deforming</term><term>Degassing</term><term>Dyke</term><term>Dzurisin</term><term>Earth planet</term><term>Earth sciences</term><term>Ebmeier</term><term>Eruption</term><term>Exact test</term><term>Explosive eruptions</term><term>Fournier</term><term>Fuego</term><term>Fumerolic</term><term>Geochem</term><term>Geodetic expression</term><term>Geophys</term><term>Geophysical</term><term>Geosyst</term><term>Geotherm</term><term>Global volcanism network</term><term>Ground deformation</term><term>Insar</term><term>Insar data</term><term>Insar measurement</term><term>Insar measurements</term><term>Insar observations</term><term>Insar survey</term><term>Insar surveys</term><term>Interferograms</term><term>Interferometric</term><term>Interferometry</term><term>Lava</term><term>Lett</term><term>Localized</term><term>Localized accumulation</term><term>Locke</term><term>Lundgren</term><term>Magma</term><term>Magma movement</term><term>Magma reservoirs</term><term>Magma storage</term><term>Magma sulphur content</term><term>Magmatic</term><term>Magmatic deformation</term><term>Masaya</term><term>Masaya caldera</term><term>Mather</term><term>Mogi</term><term>Nicaragua</term><term>Null hypothesis</term><term>Pacaya</term><term>Poor coherence</term><term>Pritchard</term><term>Radar interferometry</term><term>Radar path delay</term><term>Remote sens</term><term>Santiaguito</term><term>Shallow crust</term><term>Smithsonian institution</term><term>Southern andes</term><term>Standard deviation</term><term>Subduction</term><term>Subsidence</term><term>Such processes</term><term>Sulphur content</term><term>Supplementary table</term><term>Surface deformation</term><term>Synthetic aperture radar interferometry</term><term>Systematic survey</term><term>Telica</term><term>Temporal resolution</term><term>Time series</term><term>Tropospheric water vapor</term><term>Uxes</term><term>Volatile content</term><term>Volcanic</term><term>Volcanic activity</term><term>Volcanic arcs</term><term>Volcanic deformation</term><term>Volcanism</term><term>Volcano</term><term>Volcano deformation</term><term>Volcanol</term><term>Volume change</term><term>Volume changes</term><term>Water vapor</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Acquisition date</term><term>Active volcanoes</term><term>Alos data</term><term>Amelung</term><term>Andes</term><term>Aperture radar</term><term>Arenal</term><term>Atmospheric noise</term><term>Band data</term><term>Biggs</term><term>Caldera</term><term>Carr</term><term>Cava</term><term>Cava table</term><term>Central america</term><term>Central american</term><term>Central american volcanoes</term><term>Central andes</term><term>Chaussard</term><term>Coherence</term><term>Complete degassing</term><term>Conduit</term><term>Costa rica</term><term>Crust</term><term>Deformation</term><term>Deformation events</term><term>Deformation measurements</term><term>Deforming</term><term>Degassing</term><term>Dyke</term><term>Dzurisin</term><term>Earth planet</term><term>Earth sciences</term><term>Ebmeier</term><term>Eruption</term><term>Exact test</term><term>Explosive eruptions</term><term>Fournier</term><term>Fuego</term><term>Fumerolic</term><term>Geochem</term><term>Geodetic expression</term><term>Geophys</term><term>Geophysical</term><term>Geosyst</term><term>Geotherm</term><term>Global volcanism network</term><term>Ground deformation</term><term>Insar</term><term>Insar data</term><term>Insar measurement</term><term>Insar measurements</term><term>Insar observations</term><term>Insar survey</term><term>Insar surveys</term><term>Interferograms</term><term>Interferometric</term><term>Interferometry</term><term>Lava</term><term>Lett</term><term>Localized</term><term>Localized accumulation</term><term>Locke</term><term>Lundgren</term><term>Magma</term><term>Magma movement</term><term>Magma reservoirs</term><term>Magma storage</term><term>Magma sulphur content</term><term>Magmatic</term><term>Magmatic deformation</term><term>Masaya</term><term>Masaya caldera</term><term>Mather</term><term>Mogi</term><term>Nicaragua</term><term>Null hypothesis</term><term>Pacaya</term><term>Poor coherence</term><term>Pritchard</term><term>Radar interferometry</term><term>Radar path delay</term><term>Remote sens</term><term>Santiaguito</term><term>Shallow crust</term><term>Smithsonian institution</term><term>Southern andes</term><term>Standard deviation</term><term>Subduction</term><term>Subsidence</term><term>Such processes</term><term>Sulphur content</term><term>Supplementary table</term><term>Surface deformation</term><term>Synthetic aperture radar interferometry</term><term>Systematic survey</term><term>Telica</term><term>Temporal resolution</term><term>Time series</term><term>Tropospheric water vapor</term><term>Uxes</term><term>Volatile content</term><term>Volcanic</term><term>Volcanic activity</term><term>Volcanic arcs</term><term>Volcanic deformation</term><term>Volcanism</term><term>Volcano</term><term>Volcano deformation</term><term>Volcanol</term><term>Volume change</term><term>Volume changes</term><term>Water vapor</term></keywords><keywords scheme="Wicri" type="geographic" xml:lang="fr"><term>Nicaragua</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Sciences de la terre</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract">A systematic survey of 3 years of L band interferometric synthetic aperture radar (InSAR) measurements of the Central American Volcanic Arc shows a striking lack of magmatic deformation. We make measurements at 20 of the 26 historically active volcanoes and demonstrate that none were deforming magmatically (2007–2010), although we do measure shallow subsidence associated with flow deposits and edifice loading at three volcanoes. The minimum detection rates for our survey, as estimated from the variance in time series of radar path delay, are relatively high due to strong variability of tropospheric water vapor. We compare the average detection threshold (2.4 cm/yr) to published InSAR measurements and show that the majority (~78%) of deformation events would have been measurable with the same level of noise as Central America. We calculate that if magmatic volcano deformation were spread evenly across historically active volcanoes worldwide, the probability of none of Central America's 26 volcanoes deforming would be < 1%. The lack of magmatic deformation in Central America may be indicative of differences in magma storage relative to other well‐studied continental arcs. The high proportion of basalts that ascend directly from depth relative to andesites stored in the shallow crust may limit the potential for high magnitude deformation. Magma stored in vertically elongated reservoirs and high parental melt volatile contents that result in bubble‐rich, compressible magmas at shallow depths may also reduce surface deformation. We consider the measurement and analysis of a lack of deformation at active volcanoes to be essential for realizing the potential of regional scale InSAR surveys.</div><div type="abstract">InSAR survey of CAVA confirms lack of magmatic deformation, 2007‐2010Lack of magmatic deformation in CAVA is significant relative to other arcsMeasurement and analysis of lack of deformation at volcanoes yields useful data</div></front></TEI><affiliations><list><country><li>Royaume-Uni</li><li>États-Unis</li></country><region><li>Angleterre</li><li>Oxfordshire</li></region><settlement><li>Oxford</li></settlement><orgName><li>Université d'Oxford</li></orgName></list><tree><country name="Royaume-Uni"><region name="Angleterre"><name sortKey="Ebmeier, S K" sort="Ebmeier, S K" uniqKey="Ebmeier S" first="S. K." last="Ebmeier">S. K. Ebmeier</name></region><name sortKey="Biggs, J" sort="Biggs, J" uniqKey="Biggs J" first="J." last="Biggs">J. Biggs</name><name sortKey="Ebmeier, S K" sort="Ebmeier, S K" uniqKey="Ebmeier S" first="S. K." last="Ebmeier">S. K. Ebmeier</name><name sortKey="Ebmeier, S K" sort="Ebmeier, S K" uniqKey="Ebmeier S" first="S. K." last="Ebmeier">S. K. Ebmeier</name><name sortKey="Mather, T A" sort="Mather, T A" uniqKey="Mather T" first="T. A." last="Mather">T. A. Mather</name></country><country name="États-Unis"><noRegion><name sortKey="Biggs, J" sort="Biggs, J" uniqKey="Biggs J" first="J." last="Biggs">J. Biggs</name></noRegion><name sortKey="Amelung, F" sort="Amelung, F" uniqKey="Amelung F" first="F." last="Amelung">F. Amelung</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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