Temporal monitoring of Bardarbunga volcanic activity with TanDEM-X

On August 29, 2014, a volcanic activity started in the lava field of Holuhraun, at the north east of the Bardarbunga caldera in Iceland. The activity was declared finished on February 27, 2015, thus lasting for about 6 months. During these months the magma chamber below the caldera slowly emptied, c...

Full description

Bibliographic Details
Main Authors: Rossi, Cristian, Minet, Christian, Fritz, Thomas, Eineder, Michael, Erten, Esra
Format: Conference Object
Language:unknown
Published: 2015
Subjects:
SAR-Signalverarbeitung
Iceland
Online Access:https://elib.dlr.de/102463/
id ftdlr:oai:elib.dlr.de:102463
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:102463 2024-05-19T07:43:00+00:00 Temporal monitoring of Bardarbunga volcanic activity with TanDEM-X Rossi, Cristian Minet, Christian Fritz, Thomas Eineder, Michael Erten, Esra 2015-12 https://elib.dlr.de/102463/ unknown Rossi, Cristian und Minet, Christian und Fritz, Thomas und Eineder, Michael und Erten, Esra (2015) Temporal monitoring of Bardarbunga volcanic activity with TanDEM-X. AGU Fall Meeting 2015, 2015-12-14 - 2015-12-18, San Francisco. SAR-Signalverarbeitung Konferenzbeitrag NonPeerReviewed 2015 ftdlr 2024-04-25T00:36:21Z On August 29, 2014, a volcanic activity started in the lava field of Holuhraun, at the north east of the Bardarbunga caldera in Iceland. The activity was declared finished on February 27, 2015, thus lasting for about 6 months. During these months the magma chamber below the caldera slowly emptied, causing the rare event of caldera collapse. In this scenario, TanDEM-X remote sensing data is of particular interest. By producing high-resolution and accurate elevation models of the caldera, it is possible to evaluate volume losses and topographical changes useful to increase the knowledge about the volcanic activity dynamics. 5 TanDEM-X InSAR acquisitions have been commanded between August 01, 2014 and November 08, 2014. 2 acquisitions have been commanded before the eruption and 3 acquisitions afterwards. To fully cover the volcanic activity, also the lava flow area at the north-west of the caldera has been monitored and a couple of acquisitions have been employed to reveal the subglacial graben structure and the lava path. In this context, the expected elevation accuracy is studied on two levels. Absolute height accuracy is analyzed by inspecting the signal propagation at X-band in the imaged medium. Relative height accuracy is analyzed by investigating the InSAR system parameters and the local geomorphology. It is shown how the system is very well accurate with mean height errors below the meter. Moreover, neither InSAR processing issues, e.g. phase unwrapping errors, nor complex DEM calibration aspects are problems to tackle. Caldera is imaged in its entirety and new cauldron formations and, in general, the complete restructuring of the glacial volcanic system is well represented. An impressive caldera volume loss of about 1 billion cubic meters is measured in about two months. The dyke propagation from the Bardarbunga cauldron to the Holuhraun lava field is also revealed and a graben structure with a width of up to 1 km and a sinking of a few meters is derived. These results show how TanDEM-X mission is capable ... Conference Object Iceland German Aerospace Center: elib - DLR electronic library
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language unknown
topic SAR-Signalverarbeitung
spellingShingle SAR-Signalverarbeitung
Rossi, Cristian
Minet, Christian
Fritz, Thomas
Eineder, Michael
Erten, Esra
Temporal monitoring of Bardarbunga volcanic activity with TanDEM-X
topic_facet SAR-Signalverarbeitung
description On August 29, 2014, a volcanic activity started in the lava field of Holuhraun, at the north east of the Bardarbunga caldera in Iceland. The activity was declared finished on February 27, 2015, thus lasting for about 6 months. During these months the magma chamber below the caldera slowly emptied, causing the rare event of caldera collapse. In this scenario, TanDEM-X remote sensing data is of particular interest. By producing high-resolution and accurate elevation models of the caldera, it is possible to evaluate volume losses and topographical changes useful to increase the knowledge about the volcanic activity dynamics. 5 TanDEM-X InSAR acquisitions have been commanded between August 01, 2014 and November 08, 2014. 2 acquisitions have been commanded before the eruption and 3 acquisitions afterwards. To fully cover the volcanic activity, also the lava flow area at the north-west of the caldera has been monitored and a couple of acquisitions have been employed to reveal the subglacial graben structure and the lava path. In this context, the expected elevation accuracy is studied on two levels. Absolute height accuracy is analyzed by inspecting the signal propagation at X-band in the imaged medium. Relative height accuracy is analyzed by investigating the InSAR system parameters and the local geomorphology. It is shown how the system is very well accurate with mean height errors below the meter. Moreover, neither InSAR processing issues, e.g. phase unwrapping errors, nor complex DEM calibration aspects are problems to tackle. Caldera is imaged in its entirety and new cauldron formations and, in general, the complete restructuring of the glacial volcanic system is well represented. An impressive caldera volume loss of about 1 billion cubic meters is measured in about two months. The dyke propagation from the Bardarbunga cauldron to the Holuhraun lava field is also revealed and a graben structure with a width of up to 1 km and a sinking of a few meters is derived. These results show how TanDEM-X mission is capable ...
format Conference Object
author Rossi, Cristian
Minet, Christian
Fritz, Thomas
Eineder, Michael
Erten, Esra
author_facet Rossi, Cristian
Minet, Christian
Fritz, Thomas
Eineder, Michael
Erten, Esra
author_sort Rossi, Cristian
title Temporal monitoring of Bardarbunga volcanic activity with TanDEM-X
title_short Temporal monitoring of Bardarbunga volcanic activity with TanDEM-X
title_full Temporal monitoring of Bardarbunga volcanic activity with TanDEM-X
title_fullStr Temporal monitoring of Bardarbunga volcanic activity with TanDEM-X
title_full_unstemmed Temporal monitoring of Bardarbunga volcanic activity with TanDEM-X
title_sort temporal monitoring of bardarbunga volcanic activity with tandem-x
publishDate 2015
url https://elib.dlr.de/102463/
genre Iceland
genre_facet Iceland
op_relation Rossi, Cristian und Minet, Christian und Fritz, Thomas und Eineder, Michael und Erten, Esra (2015) Temporal monitoring of Bardarbunga volcanic activity with TanDEM-X. AGU Fall Meeting 2015, 2015-12-14 - 2015-12-18, San Francisco.
_version_ 1799482709266923520

Similar Items