An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource : = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek
Surface displacement at volcanic edifices is related to subsurface processes associated with magma movements, fluid transfers within the volcano edifice and gravity-driven deformation processes. Understanding of associated ground displacements is of importance for assessment of volcanic hazards. For...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Vasyura-Bathke, Hannes [verfasserIn] Walter, Thomas R. - 1972- [betreuer] |
|---|---|
| Hochschulschrift: |
Potsdam, Univ., Diss., 2014 |
| Format: |
E-Book |
|---|---|
| Sprache: |
Englisch |
| Erschienen: |
2014 |
|---|
| Schlagwörter: |
Vulkan / Erdoberfläche / Absenkung / Verwerfung / Synthetische Apertur / Interferometrie Chile / Ostanatolien / Hebung, Geologie / Geomorphographie / Vulkan / Eruption Vulkangebiet / Magmakammer / Relief, Geografie / Vulkanismus |
|---|---|
| Formangabe: |
Hochschulschrift |
| Anmerkung: |
Volltext: PDF |
|---|---|
| Umfang: |
Online-Ressource (PDF-Datei: 84055 KB, XIII, 134 S.) ; Ill., graph. Darst. |
| Weitere Ausgabe: |
Druckausg. Vasyura-Bathke, Hannes: An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes - Potsdam, 2014 |
|---|
| Links: |
|---|
| DOI / URN: |
urn:nbn:de:kobv:517-opus-70522 |
|---|
| Katalog-ID: |
788333216 |
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| 245 | 1 | 3 | |a An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource |b = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek |c Hannes Bathke. Betreuer: Thomas R. Walter |
| 246 | 1 | |i Parallelsacht. |a Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek | |
| 246 | 3 | 1 | |a Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek |
| 246 | 3 | 3 | |a Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek |
| 264 | 1 | |c 2014 | |
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| 502 | |a Potsdam, Univ., Diss., 2014 | ||
| 520 | |a Surface displacement at volcanic edifices is related to subsurface processes associated with magma movements, fluid transfers within the volcano edifice and gravity-driven deformation processes. Understanding of associated ground displacements is of importance for assessment of volcanic hazards. For example, volcanic unrest is often preceded by surface uplift, caused by magma intrusion and followed by subsidence, after the withdrawal of magma. Continuous monitoring of the surface displacement at volcanoes therefore might allow the forecasting of upcoming eruptions to some extent. In geophysics, the measured surface displacements allow the parameters of possible deformation sources to be estimated through analytical or numerical modeling. This is one way to improve the understanding of subsurface processes acting at volcanoes. Although the monitoring of volcanoes has significantly improved in the last decades (in terms of technical advancements and number of monitored volcanoes), the forecasting of volcanic eruptions remains puzzling. In this work I contribute towards the understanding of the subsurface processes at volcanoes and thus to the improvement of volcano eruption forecasting. I have investigated the displacement field of Llaima volcano in Chile and of Tendürek volcano in East Turkey by using synthetic aperture radar interferometry (InSAR). Through modeling of the deformation sources with the extracted displacement data, it was possible to gain insights into potential subsurface processes occurring at these two volcanoes that had been barely studied before. The two volcanoes, although of very different origin, composition and geometry, both show a complexity of interacting deformation sources. At Llaima volcano, the InSAR technique was difficult to apply, due to the large decorrelation of the radar signal between the acquisition of images. I developed a model-based unwrapping scheme, which allows the production of reliable displacement maps at the volcano that I used for deformation source modeling. The modeling results show significant differences in pre- and post-eruptive magmatic deformation source parameters. Therefore, I conjecture that two magma chambers exist below Llaima volcano: a post-eruptive deep one and a shallow one possibly due to the pre-eruptive ascent of magma. Similar reservoir depths at Llaima have been confirmed by independent petrologic studies. These reservoirs are interpreted to be temporally coupled. At Tendürek volcano I have found long-term subsidence of the volcanic edifice, which can be described by a large, magmatic, sill-like source that is subject to cooling contraction. The displacement data in conjunction with high-resolution optical images, however, reveal arcuate fractures at the eastern and western flank of the volcano. These are most likely the surface expressions of concentric ring-faults around the volcanic edifice that show low magnitudes of slip over a long time. This might be an alternative mechanism for the development of large caldera structures, which are so far assumed to be generated during large catastrophic collapse events. To investigate the potential subsurface geometry and relation of the two proposed interacting sources at Tendürek, a sill-like magmatic source and ring-faults, I have performed a more sophisticated numerical modeling approach. The optimum source geometries show, that the size of the sill-like source was overestimated in the simple models and that it is difficult to determine the dip angle of the ring-faults with surface displacement data only. However, considering physical and geological criteria a combination of outward-dipping reverse faults in the west and inward-dipping normal faults in the east seem to be the most likely. Consequently, the underground structure at the Tendürek volcano consists of a small, sill-like, contracting, magmatic source below the western summit crater that causes a trapdoor-like faulting along the ring-faults around the volcanic edifice. Therefore, the magmatic source and the ring-faults are also interpreted to be temporally coupled. In addition, a method for data reduction has been improved. The modeling of subsurface deformation sources requires only a relatively small number of well distributed InSAR observations at the earth’s surface. Satellite radar images, however, consist of several millions of these observations. Therefore, the large amount of data needs to be reduced by several orders of magnitude for source modeling, to save computation time and increase model flexibility. I have introduced a model-based subsampling approach in particular for heterogeneously-distributed observations. It allows a fast calculation of the data error variance-covariance matrix, also supports the modeling of time dependent displacement data and is, therefore, an alternative to existing method | ||
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An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Hannes Bathke. Betreuer: Thomas R. Walter |
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= Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek |
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investigation of complex deformation patterns detected by using insar at llaima and tendürek volcanoes$nelektronische ressource = eine untersuchung von komplexen erdoberflächenverformungen gemessen mit insar, an den vulkanen llaima und tendürek |
| title_auth |
An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek |
| abstract |
Surface displacement at volcanic edifices is related to subsurface processes associated with magma movements, fluid transfers within the volcano edifice and gravity-driven deformation processes. Understanding of associated ground displacements is of importance for assessment of volcanic hazards. For example, volcanic unrest is often preceded by surface uplift, caused by magma intrusion and followed by subsidence, after the withdrawal of magma. Continuous monitoring of the surface displacement at volcanoes therefore might allow the forecasting of upcoming eruptions to some extent. In geophysics, the measured surface displacements allow the parameters of possible deformation sources to be estimated through analytical or numerical modeling. This is one way to improve the understanding of subsurface processes acting at volcanoes. Although the monitoring of volcanoes has significantly improved in the last decades (in terms of technical advancements and number of monitored volcanoes), the forecasting of volcanic eruptions remains puzzling. In this work I contribute towards the understanding of the subsurface processes at volcanoes and thus to the improvement of volcano eruption forecasting. I have investigated the displacement field of Llaima volcano in Chile and of Tendürek volcano in East Turkey by using synthetic aperture radar interferometry (InSAR). Through modeling of the deformation sources with the extracted displacement data, it was possible to gain insights into potential subsurface processes occurring at these two volcanoes that had been barely studied before. The two volcanoes, although of very different origin, composition and geometry, both show a complexity of interacting deformation sources. At Llaima volcano, the InSAR technique was difficult to apply, due to the large decorrelation of the radar signal between the acquisition of images. I developed a model-based unwrapping scheme, which allows the production of reliable displacement maps at the volcano that I used for deformation source modeling. The modeling results show significant differences in pre- and post-eruptive magmatic deformation source parameters. Therefore, I conjecture that two magma chambers exist below Llaima volcano: a post-eruptive deep one and a shallow one possibly due to the pre-eruptive ascent of magma. Similar reservoir depths at Llaima have been confirmed by independent petrologic studies. These reservoirs are interpreted to be temporally coupled. At Tendürek volcano I have found long-term subsidence of the volcanic edifice, which can be described by a large, magmatic, sill-like source that is subject to cooling contraction. The displacement data in conjunction with high-resolution optical images, however, reveal arcuate fractures at the eastern and western flank of the volcano. These are most likely the surface expressions of concentric ring-faults around the volcanic edifice that show low magnitudes of slip over a long time. This might be an alternative mechanism for the development of large caldera structures, which are so far assumed to be generated during large catastrophic collapse events. To investigate the potential subsurface geometry and relation of the two proposed interacting sources at Tendürek, a sill-like magmatic source and ring-faults, I have performed a more sophisticated numerical modeling approach. The optimum source geometries show, that the size of the sill-like source was overestimated in the simple models and that it is difficult to determine the dip angle of the ring-faults with surface displacement data only. However, considering physical and geological criteria a combination of outward-dipping reverse faults in the west and inward-dipping normal faults in the east seem to be the most likely. Consequently, the underground structure at the Tendürek volcano consists of a small, sill-like, contracting, magmatic source below the western summit crater that causes a trapdoor-like faulting along the ring-faults around the volcanic edifice. Therefore, the magmatic source and the ring-faults are also interpreted to be temporally coupled. In addition, a method for data reduction has been improved. The modeling of subsurface deformation sources requires only a relatively small number of well distributed InSAR observations at the earth’s surface. Satellite radar images, however, consist of several millions of these observations. Therefore, the large amount of data needs to be reduced by several orders of magnitude for source modeling, to save computation time and increase model flexibility. I have introduced a model-based subsampling approach in particular for heterogeneously-distributed observations. It allows a fast calculation of the data error variance-covariance matrix, also supports the modeling of time dependent displacement data and is, therefore, an alternative to existing method Volltext: PDF |
| abstractGer |
Surface displacement at volcanic edifices is related to subsurface processes associated with magma movements, fluid transfers within the volcano edifice and gravity-driven deformation processes. Understanding of associated ground displacements is of importance for assessment of volcanic hazards. For example, volcanic unrest is often preceded by surface uplift, caused by magma intrusion and followed by subsidence, after the withdrawal of magma. Continuous monitoring of the surface displacement at volcanoes therefore might allow the forecasting of upcoming eruptions to some extent. In geophysics, the measured surface displacements allow the parameters of possible deformation sources to be estimated through analytical or numerical modeling. This is one way to improve the understanding of subsurface processes acting at volcanoes. Although the monitoring of volcanoes has significantly improved in the last decades (in terms of technical advancements and number of monitored volcanoes), the forecasting of volcanic eruptions remains puzzling. In this work I contribute towards the understanding of the subsurface processes at volcanoes and thus to the improvement of volcano eruption forecasting. I have investigated the displacement field of Llaima volcano in Chile and of Tendürek volcano in East Turkey by using synthetic aperture radar interferometry (InSAR). Through modeling of the deformation sources with the extracted displacement data, it was possible to gain insights into potential subsurface processes occurring at these two volcanoes that had been barely studied before. The two volcanoes, although of very different origin, composition and geometry, both show a complexity of interacting deformation sources. At Llaima volcano, the InSAR technique was difficult to apply, due to the large decorrelation of the radar signal between the acquisition of images. I developed a model-based unwrapping scheme, which allows the production of reliable displacement maps at the volcano that I used for deformation source modeling. The modeling results show significant differences in pre- and post-eruptive magmatic deformation source parameters. Therefore, I conjecture that two magma chambers exist below Llaima volcano: a post-eruptive deep one and a shallow one possibly due to the pre-eruptive ascent of magma. Similar reservoir depths at Llaima have been confirmed by independent petrologic studies. These reservoirs are interpreted to be temporally coupled. At Tendürek volcano I have found long-term subsidence of the volcanic edifice, which can be described by a large, magmatic, sill-like source that is subject to cooling contraction. The displacement data in conjunction with high-resolution optical images, however, reveal arcuate fractures at the eastern and western flank of the volcano. These are most likely the surface expressions of concentric ring-faults around the volcanic edifice that show low magnitudes of slip over a long time. This might be an alternative mechanism for the development of large caldera structures, which are so far assumed to be generated during large catastrophic collapse events. To investigate the potential subsurface geometry and relation of the two proposed interacting sources at Tendürek, a sill-like magmatic source and ring-faults, I have performed a more sophisticated numerical modeling approach. The optimum source geometries show, that the size of the sill-like source was overestimated in the simple models and that it is difficult to determine the dip angle of the ring-faults with surface displacement data only. However, considering physical and geological criteria a combination of outward-dipping reverse faults in the west and inward-dipping normal faults in the east seem to be the most likely. Consequently, the underground structure at the Tendürek volcano consists of a small, sill-like, contracting, magmatic source below the western summit crater that causes a trapdoor-like faulting along the ring-faults around the volcanic edifice. Therefore, the magmatic source and the ring-faults are also interpreted to be temporally coupled. In addition, a method for data reduction has been improved. The modeling of subsurface deformation sources requires only a relatively small number of well distributed InSAR observations at the earth’s surface. Satellite radar images, however, consist of several millions of these observations. Therefore, the large amount of data needs to be reduced by several orders of magnitude for source modeling, to save computation time and increase model flexibility. I have introduced a model-based subsampling approach in particular for heterogeneously-distributed observations. It allows a fast calculation of the data error variance-covariance matrix, also supports the modeling of time dependent displacement data and is, therefore, an alternative to existing method Volltext: PDF |
| abstract_unstemmed |
Surface displacement at volcanic edifices is related to subsurface processes associated with magma movements, fluid transfers within the volcano edifice and gravity-driven deformation processes. Understanding of associated ground displacements is of importance for assessment of volcanic hazards. For example, volcanic unrest is often preceded by surface uplift, caused by magma intrusion and followed by subsidence, after the withdrawal of magma. Continuous monitoring of the surface displacement at volcanoes therefore might allow the forecasting of upcoming eruptions to some extent. In geophysics, the measured surface displacements allow the parameters of possible deformation sources to be estimated through analytical or numerical modeling. This is one way to improve the understanding of subsurface processes acting at volcanoes. Although the monitoring of volcanoes has significantly improved in the last decades (in terms of technical advancements and number of monitored volcanoes), the forecasting of volcanic eruptions remains puzzling. In this work I contribute towards the understanding of the subsurface processes at volcanoes and thus to the improvement of volcano eruption forecasting. I have investigated the displacement field of Llaima volcano in Chile and of Tendürek volcano in East Turkey by using synthetic aperture radar interferometry (InSAR). Through modeling of the deformation sources with the extracted displacement data, it was possible to gain insights into potential subsurface processes occurring at these two volcanoes that had been barely studied before. The two volcanoes, although of very different origin, composition and geometry, both show a complexity of interacting deformation sources. At Llaima volcano, the InSAR technique was difficult to apply, due to the large decorrelation of the radar signal between the acquisition of images. I developed a model-based unwrapping scheme, which allows the production of reliable displacement maps at the volcano that I used for deformation source modeling. The modeling results show significant differences in pre- and post-eruptive magmatic deformation source parameters. Therefore, I conjecture that two magma chambers exist below Llaima volcano: a post-eruptive deep one and a shallow one possibly due to the pre-eruptive ascent of magma. Similar reservoir depths at Llaima have been confirmed by independent petrologic studies. These reservoirs are interpreted to be temporally coupled. At Tendürek volcano I have found long-term subsidence of the volcanic edifice, which can be described by a large, magmatic, sill-like source that is subject to cooling contraction. The displacement data in conjunction with high-resolution optical images, however, reveal arcuate fractures at the eastern and western flank of the volcano. These are most likely the surface expressions of concentric ring-faults around the volcanic edifice that show low magnitudes of slip over a long time. This might be an alternative mechanism for the development of large caldera structures, which are so far assumed to be generated during large catastrophic collapse events. To investigate the potential subsurface geometry and relation of the two proposed interacting sources at Tendürek, a sill-like magmatic source and ring-faults, I have performed a more sophisticated numerical modeling approach. The optimum source geometries show, that the size of the sill-like source was overestimated in the simple models and that it is difficult to determine the dip angle of the ring-faults with surface displacement data only. However, considering physical and geological criteria a combination of outward-dipping reverse faults in the west and inward-dipping normal faults in the east seem to be the most likely. Consequently, the underground structure at the Tendürek volcano consists of a small, sill-like, contracting, magmatic source below the western summit crater that causes a trapdoor-like faulting along the ring-faults around the volcanic edifice. Therefore, the magmatic source and the ring-faults are also interpreted to be temporally coupled. In addition, a method for data reduction has been improved. The modeling of subsurface deformation sources requires only a relatively small number of well distributed InSAR observations at the earth’s surface. Satellite radar images, however, consist of several millions of these observations. Therefore, the large amount of data needs to be reduced by several orders of magnitude for source modeling, to save computation time and increase model flexibility. I have introduced a model-based subsampling approach in particular for heterogeneously-distributed observations. It allows a fast calculation of the data error variance-covariance matrix, also supports the modeling of time dependent displacement data and is, therefore, an alternative to existing method Volltext: PDF |
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14,O06 dnb 1051530148 DE-101 urn:nbn:de:kobv:517-opus-70522 urn (DE-627)788333216 (DE-576)9788333214 (DE-599)DNB1051530148 (OCoLC)881631625 DE-627 ger DE-627 rakwb eng XA-DE-BB 550 DNB 38.03 bkl 38.37 bkl Vasyura-Bathke, Hannes verfasserin (DE-588)1074444922 (DE-627)832198358 (DE-576)442696574 aut An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Hannes Bathke. Betreuer: Thomas R. Walter Parallelsacht. Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek 2014 Online-Ressource (PDF-Datei: 84055 KB, XIII, 134 S.) Ill., graph. Darst. Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Volltext: PDF Potsdam, Univ., Diss., 2014 Surface displacement at volcanic edifices is related to subsurface processes associated with magma movements, fluid transfers within the volcano edifice and gravity-driven deformation processes. Understanding of associated ground displacements is of importance for assessment of volcanic hazards. For example, volcanic unrest is often preceded by surface uplift, caused by magma intrusion and followed by subsidence, after the withdrawal of magma. Continuous monitoring of the surface displacement at volcanoes therefore might allow the forecasting of upcoming eruptions to some extent. In geophysics, the measured surface displacements allow the parameters of possible deformation sources to be estimated through analytical or numerical modeling. This is one way to improve the understanding of subsurface processes acting at volcanoes. Although the monitoring of volcanoes has significantly improved in the last decades (in terms of technical advancements and number of monitored volcanoes), the forecasting of volcanic eruptions remains puzzling. In this work I contribute towards the understanding of the subsurface processes at volcanoes and thus to the improvement of volcano eruption forecasting. I have investigated the displacement field of Llaima volcano in Chile and of Tendürek volcano in East Turkey by using synthetic aperture radar interferometry (InSAR). Through modeling of the deformation sources with the extracted displacement data, it was possible to gain insights into potential subsurface processes occurring at these two volcanoes that had been barely studied before. The two volcanoes, although of very different origin, composition and geometry, both show a complexity of interacting deformation sources. At Llaima volcano, the InSAR technique was difficult to apply, due to the large decorrelation of the radar signal between the acquisition of images. I developed a model-based unwrapping scheme, which allows the production of reliable displacement maps at the volcano that I used for deformation source modeling. The modeling results show significant differences in pre- and post-eruptive magmatic deformation source parameters. Therefore, I conjecture that two magma chambers exist below Llaima volcano: a post-eruptive deep one and a shallow one possibly due to the pre-eruptive ascent of magma. Similar reservoir depths at Llaima have been confirmed by independent petrologic studies. These reservoirs are interpreted to be temporally coupled. At Tendürek volcano I have found long-term subsidence of the volcanic edifice, which can be described by a large, magmatic, sill-like source that is subject to cooling contraction. The displacement data in conjunction with high-resolution optical images, however, reveal arcuate fractures at the eastern and western flank of the volcano. These are most likely the surface expressions of concentric ring-faults around the volcanic edifice that show low magnitudes of slip over a long time. This might be an alternative mechanism for the development of large caldera structures, which are so far assumed to be generated during large catastrophic collapse events. To investigate the potential subsurface geometry and relation of the two proposed interacting sources at Tendürek, a sill-like magmatic source and ring-faults, I have performed a more sophisticated numerical modeling approach. The optimum source geometries show, that the size of the sill-like source was overestimated in the simple models and that it is difficult to determine the dip angle of the ring-faults with surface displacement data only. However, considering physical and geological criteria a combination of outward-dipping reverse faults in the west and inward-dipping normal faults in the east seem to be the most likely. Consequently, the underground structure at the Tendürek volcano consists of a small, sill-like, contracting, magmatic source below the western summit crater that causes a trapdoor-like faulting along the ring-faults around the volcanic edifice. Therefore, the magmatic source and the ring-faults are also interpreted to be temporally coupled. In addition, a method for data reduction has been improved. The modeling of subsurface deformation sources requires only a relatively small number of well distributed InSAR observations at the earth’s surface. Satellite radar images, however, consist of several millions of these observations. Therefore, the large amount of data needs to be reduced by several orders of magnitude for source modeling, to save computation time and increase model flexibility. I have introduced a model-based subsampling approach in particular for heterogeneously-distributed observations. It allows a fast calculation of the data error variance-covariance matrix, also supports the modeling of time dependent displacement data and is, therefore, an alternative to existing method Langzeitarchivierung gewährleistet pdager Hochschulschrift (DE-588)4113937-9 (DE-627)105825778 (DE-576)209480580 gnd-content s (DE-588)4128339-9 (DE-627)10571805X (DE-576)209601280 Vulkan gnd s (DE-588)4113458-8 (DE-627)105829331 (DE-576)209476648 Erdoberfläche gnd s (DE-588)4315323-9 (DE-627)126509867 (DE-576)211171875 Absenkung gnd s (DE-588)4136115-5 (DE-627)104161663 (DE-576)209666447 Verwerfung gnd s (DE-588)4195782-9 (DE-627)105209155 (DE-576)210103388 Synthetische Apertur gnd s (DE-588)4027296-5 (DE-627)10628522X (DE-576)20897024X Interferometrie gnd (DE-627) g (DE-588)4090389-8 (DE-627)106018752 (DE-576)209271914 Chile Süd gnd g (DE-588)4075725-0 (DE-627)10461658X (DE-576)209199199 Ostanatolien gnd s (DE-588)4317123-0 (DE-627)126724911 (DE-576)211189480 Hebung Geologie gnd s (DE-588)4690536-4 (DE-627)349529590 (DE-576)215066804 Geomorphographie gnd s (DE-588)4128339-9 (DE-627)10571805X (DE-576)209601280 Vulkan gnd s (DE-588)4138666-8 (DE-627)105640964 (DE-576)209687991 Eruption gnd (DE-627) s (DE-588)4473894-8 (DE-627)236094084 (DE-576)212805886 Vulkangebiet gnd s (DE-588)4168517-9 (DE-627)105417009 (DE-576)209916141 Magmakammer gnd s (DE-588)4177700-1 (DE-627)104261722 (DE-576)209979526 Relief Geografie gnd s (DE-588)4064081-4 (DE-627)106125346 (DE-576)209151617 Vulkanismus gnd (DE-627) Walter, Thomas R. 1972- betreuer (DE-588)12391017X (DE-627)706470559 (DE-576)29393827X oth Potsdam (DE-588)4046948-7 (DE-627)106196332 (DE-576)209071575 uvp Druckausg. Vasyura-Bathke, Hannes An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes Potsdam, 2014 xiii, 134 Seiten (DE-627)832552690 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 2014-06-18 Resolving-System Volltext http://d-nb.info/1051530148/34 2014-06-18 Langzeitarchivierung Nationalbibliothek Volltext http://opus.kobv.de/ubp/volltexte/2014/7052/ 2014-06-18 Verlag kostenfrei Volltext GBV-ODiss GBV_ILN_20 ISIL_DE-84 SYSFLAG_1 GBV_KXP SSG-OPC-GEO SSG-OPC-GGO GBV_ILN_21 ISIL_DE-46 GBV_ILN_22 ISIL_DE-18 GBV_ILN_23 ISIL_DE-830 GBV_ILN_30 ISIL_DE-104 GBV_ILN_40 ISIL_DE-7 GBV_ILN_60 ISIL_DE-705 GBV_ILN_63 ISIL_DE-Wim2 GBV_ILN_70 ISIL_DE-89 GBV_ILN_105 ISIL_DE-841 GBV_ILN_110 ISIL_DE-Luen4 GBV_ILN_132 ISIL_DE-959 GBV_ILN_151 ISIL_DE-546 GBV_ILN_161 ISIL_DE-960 GBV_ILN_285 ISIL_DE-517 GBV_ILN_293 ISIL_DE-960-3 GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2027 ISIL_DE-105 38.03 Methoden und Techniken der Geowissenschaften (DE-627)106411284 38.37 Magmatismus Vulkanologie (DE-627)106407139 BO 20 01 0084 1489730400 x 20-07-14 21 01 0046 1489754601 z 20-07-14 22 01 0018 1489776249 SUBolrd xu 20-07-14 23 01 0830 1489791302 olr-d x 20-07-14 30 01 0104 1489801413 z 20-07-14 40 01 0007 1489820965 xsn 20-07-14 60 01 0705 1489842462 OLRD z 20-07-14 63 01 3401 1595853537 ORD x 21-01-16 70 01 0089 1489872612 zdo 20-07-14 105 01 0841 1596665912 z 21-01-16 110 01 3110 1489858008 x 20-07-14 132 01 0959 1498564674 OLR-DISS x 14-08-14 151 01 0546 3594265080 OLR-ODISS z 13-02-20 161 01 0960 1597659118 ORD x 28-01-16 285 01 0517 1560630353 00 9300 --%%-- s --%%-- z 31-07-15 293 01 3293 1598176412 ORD xf 28-01-16 370 01 4370 148986251X x 20-07-14 2027 01 DE-105 3729409832 00 --%%-- Dn --%%-- --%%-- l01 27-07-20 20 01 0084 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 21 01 0046 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 22 01 0018 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 23 01 0830 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 30 01 0104 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 40 01 0007 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 60 01 0705 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 63 01 3401 E-Book https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 LF 70 01 0089 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 105 01 0841 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 110 01 3110 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 132 01 0959 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 151 01 0546 Volltext https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 161 01 0960 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 285 01 0517 http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 293 01 3293 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 370 01 4370 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 2027 01 DE-105 00 s ebook 40 00 DE-7 00 (DE-627)623605406 TQI 000 Satelliten-Geophysik 40 00 DE-7 01 (DE-627)625045998 VAD 100 Methodik in der Vulkanologie {Geologie} 40 00 DE-7 02 (DE-627)625046056 VAD 700 Regionaler Vulkanismus {Geologie} 40 00 DE-7 03 (DE-627)623606615 TSI 000 Vorderasien {Geophysik} 40 00 DE-7 04 (DE-627)623606976 TSX 500 Chile {Geophysik} 60 01 0705 10 ho 285 00 DE-517 00 TF 04999 285 00 DE-517 00 UT 2250 285 00 DE-517 00 UT 2700 2027 01 DE-105 00 (DE-627)1292965673 DK 621.396.96 2027 01 DE-105 00 (DE-627)1297626184 DK 551.4.044 2027 01 DE-105 00 (DE-627)1298207878 DK 551.432.7 2027 01 DE-105 00 (DE-627)1294815296 DK 551.213 2027 01 DE-105 00 (DE-627)1297065239 DK 551.4.03 2027 01 DE-105 00 (DE-627)1292433272 DK 528.8 2027 01 DE-105 00 (DE-627)129278105X DK 378.245 2027 01 DE-105 00 (DE-627)1293799726 DK 918.3 2027 01 DE-105 00 (DE-627)1294225766 DK 915.60 20 01 0084 OLRD 110 01 3110 OLRD 370 01 4370 OLRD 22 01 0018 SUBolrd 23 01 0830 olr-d 60 01 0705 OLRD 63 01 3401 ORD 132 01 0959 OLR-DISS 151 01 0546 OLR-ODISS 161 01 0960 ORD 293 01 3293 ORD 23 01 0830 2014-07-20:15:40:20 |
| spelling |
14,O06 dnb 1051530148 DE-101 urn:nbn:de:kobv:517-opus-70522 urn (DE-627)788333216 (DE-576)9788333214 (DE-599)DNB1051530148 (OCoLC)881631625 DE-627 ger DE-627 rakwb eng XA-DE-BB 550 DNB 38.03 bkl 38.37 bkl Vasyura-Bathke, Hannes verfasserin (DE-588)1074444922 (DE-627)832198358 (DE-576)442696574 aut An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Hannes Bathke. Betreuer: Thomas R. Walter Parallelsacht. Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek 2014 Online-Ressource (PDF-Datei: 84055 KB, XIII, 134 S.) Ill., graph. Darst. Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Volltext: PDF Potsdam, Univ., Diss., 2014 Surface displacement at volcanic edifices is related to subsurface processes associated with magma movements, fluid transfers within the volcano edifice and gravity-driven deformation processes. Understanding of associated ground displacements is of importance for assessment of volcanic hazards. For example, volcanic unrest is often preceded by surface uplift, caused by magma intrusion and followed by subsidence, after the withdrawal of magma. Continuous monitoring of the surface displacement at volcanoes therefore might allow the forecasting of upcoming eruptions to some extent. In geophysics, the measured surface displacements allow the parameters of possible deformation sources to be estimated through analytical or numerical modeling. This is one way to improve the understanding of subsurface processes acting at volcanoes. Although the monitoring of volcanoes has significantly improved in the last decades (in terms of technical advancements and number of monitored volcanoes), the forecasting of volcanic eruptions remains puzzling. In this work I contribute towards the understanding of the subsurface processes at volcanoes and thus to the improvement of volcano eruption forecasting. I have investigated the displacement field of Llaima volcano in Chile and of Tendürek volcano in East Turkey by using synthetic aperture radar interferometry (InSAR). Through modeling of the deformation sources with the extracted displacement data, it was possible to gain insights into potential subsurface processes occurring at these two volcanoes that had been barely studied before. The two volcanoes, although of very different origin, composition and geometry, both show a complexity of interacting deformation sources. At Llaima volcano, the InSAR technique was difficult to apply, due to the large decorrelation of the radar signal between the acquisition of images. I developed a model-based unwrapping scheme, which allows the production of reliable displacement maps at the volcano that I used for deformation source modeling. The modeling results show significant differences in pre- and post-eruptive magmatic deformation source parameters. Therefore, I conjecture that two magma chambers exist below Llaima volcano: a post-eruptive deep one and a shallow one possibly due to the pre-eruptive ascent of magma. Similar reservoir depths at Llaima have been confirmed by independent petrologic studies. These reservoirs are interpreted to be temporally coupled. At Tendürek volcano I have found long-term subsidence of the volcanic edifice, which can be described by a large, magmatic, sill-like source that is subject to cooling contraction. The displacement data in conjunction with high-resolution optical images, however, reveal arcuate fractures at the eastern and western flank of the volcano. These are most likely the surface expressions of concentric ring-faults around the volcanic edifice that show low magnitudes of slip over a long time. This might be an alternative mechanism for the development of large caldera structures, which are so far assumed to be generated during large catastrophic collapse events. To investigate the potential subsurface geometry and relation of the two proposed interacting sources at Tendürek, a sill-like magmatic source and ring-faults, I have performed a more sophisticated numerical modeling approach. The optimum source geometries show, that the size of the sill-like source was overestimated in the simple models and that it is difficult to determine the dip angle of the ring-faults with surface displacement data only. However, considering physical and geological criteria a combination of outward-dipping reverse faults in the west and inward-dipping normal faults in the east seem to be the most likely. Consequently, the underground structure at the Tendürek volcano consists of a small, sill-like, contracting, magmatic source below the western summit crater that causes a trapdoor-like faulting along the ring-faults around the volcanic edifice. Therefore, the magmatic source and the ring-faults are also interpreted to be temporally coupled. In addition, a method for data reduction has been improved. The modeling of subsurface deformation sources requires only a relatively small number of well distributed InSAR observations at the earth’s surface. Satellite radar images, however, consist of several millions of these observations. Therefore, the large amount of data needs to be reduced by several orders of magnitude for source modeling, to save computation time and increase model flexibility. I have introduced a model-based subsampling approach in particular for heterogeneously-distributed observations. It allows a fast calculation of the data error variance-covariance matrix, also supports the modeling of time dependent displacement data and is, therefore, an alternative to existing method Langzeitarchivierung gewährleistet pdager Hochschulschrift (DE-588)4113937-9 (DE-627)105825778 (DE-576)209480580 gnd-content s (DE-588)4128339-9 (DE-627)10571805X (DE-576)209601280 Vulkan gnd s (DE-588)4113458-8 (DE-627)105829331 (DE-576)209476648 Erdoberfläche gnd s (DE-588)4315323-9 (DE-627)126509867 (DE-576)211171875 Absenkung gnd s (DE-588)4136115-5 (DE-627)104161663 (DE-576)209666447 Verwerfung gnd s (DE-588)4195782-9 (DE-627)105209155 (DE-576)210103388 Synthetische Apertur gnd s (DE-588)4027296-5 (DE-627)10628522X (DE-576)20897024X Interferometrie gnd (DE-627) g (DE-588)4090389-8 (DE-627)106018752 (DE-576)209271914 Chile Süd gnd g (DE-588)4075725-0 (DE-627)10461658X (DE-576)209199199 Ostanatolien gnd s (DE-588)4317123-0 (DE-627)126724911 (DE-576)211189480 Hebung Geologie gnd s (DE-588)4690536-4 (DE-627)349529590 (DE-576)215066804 Geomorphographie gnd s (DE-588)4128339-9 (DE-627)10571805X (DE-576)209601280 Vulkan gnd s (DE-588)4138666-8 (DE-627)105640964 (DE-576)209687991 Eruption gnd (DE-627) s (DE-588)4473894-8 (DE-627)236094084 (DE-576)212805886 Vulkangebiet gnd s (DE-588)4168517-9 (DE-627)105417009 (DE-576)209916141 Magmakammer gnd s (DE-588)4177700-1 (DE-627)104261722 (DE-576)209979526 Relief Geografie gnd s (DE-588)4064081-4 (DE-627)106125346 (DE-576)209151617 Vulkanismus gnd (DE-627) Walter, Thomas R. 1972- betreuer (DE-588)12391017X (DE-627)706470559 (DE-576)29393827X oth Potsdam (DE-588)4046948-7 (DE-627)106196332 (DE-576)209071575 uvp Druckausg. Vasyura-Bathke, Hannes An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes Potsdam, 2014 xiii, 134 Seiten (DE-627)832552690 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 2014-06-18 Resolving-System Volltext http://d-nb.info/1051530148/34 2014-06-18 Langzeitarchivierung Nationalbibliothek Volltext http://opus.kobv.de/ubp/volltexte/2014/7052/ 2014-06-18 Verlag kostenfrei Volltext GBV-ODiss GBV_ILN_20 ISIL_DE-84 SYSFLAG_1 GBV_KXP SSG-OPC-GEO SSG-OPC-GGO GBV_ILN_21 ISIL_DE-46 GBV_ILN_22 ISIL_DE-18 GBV_ILN_23 ISIL_DE-830 GBV_ILN_30 ISIL_DE-104 GBV_ILN_40 ISIL_DE-7 GBV_ILN_60 ISIL_DE-705 GBV_ILN_63 ISIL_DE-Wim2 GBV_ILN_70 ISIL_DE-89 GBV_ILN_105 ISIL_DE-841 GBV_ILN_110 ISIL_DE-Luen4 GBV_ILN_132 ISIL_DE-959 GBV_ILN_151 ISIL_DE-546 GBV_ILN_161 ISIL_DE-960 GBV_ILN_285 ISIL_DE-517 GBV_ILN_293 ISIL_DE-960-3 GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2027 ISIL_DE-105 38.03 Methoden und Techniken der Geowissenschaften (DE-627)106411284 38.37 Magmatismus Vulkanologie (DE-627)106407139 BO 20 01 0084 1489730400 x 20-07-14 21 01 0046 1489754601 z 20-07-14 22 01 0018 1489776249 SUBolrd xu 20-07-14 23 01 0830 1489791302 olr-d x 20-07-14 30 01 0104 1489801413 z 20-07-14 40 01 0007 1489820965 xsn 20-07-14 60 01 0705 1489842462 OLRD z 20-07-14 63 01 3401 1595853537 ORD x 21-01-16 70 01 0089 1489872612 zdo 20-07-14 105 01 0841 1596665912 z 21-01-16 110 01 3110 1489858008 x 20-07-14 132 01 0959 1498564674 OLR-DISS x 14-08-14 151 01 0546 3594265080 OLR-ODISS z 13-02-20 161 01 0960 1597659118 ORD x 28-01-16 285 01 0517 1560630353 00 9300 --%%-- s --%%-- z 31-07-15 293 01 3293 1598176412 ORD xf 28-01-16 370 01 4370 148986251X x 20-07-14 2027 01 DE-105 3729409832 00 --%%-- Dn --%%-- --%%-- l01 27-07-20 20 01 0084 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 21 01 0046 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 22 01 0018 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 23 01 0830 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 30 01 0104 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 40 01 0007 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 60 01 0705 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 63 01 3401 E-Book https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 LF 70 01 0089 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 105 01 0841 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 110 01 3110 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 132 01 0959 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 151 01 0546 Volltext https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 161 01 0960 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 285 01 0517 http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 293 01 3293 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 370 01 4370 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 2027 01 DE-105 00 s ebook 40 00 DE-7 00 (DE-627)623605406 TQI 000 Satelliten-Geophysik 40 00 DE-7 01 (DE-627)625045998 VAD 100 Methodik in der Vulkanologie {Geologie} 40 00 DE-7 02 (DE-627)625046056 VAD 700 Regionaler Vulkanismus {Geologie} 40 00 DE-7 03 (DE-627)623606615 TSI 000 Vorderasien {Geophysik} 40 00 DE-7 04 (DE-627)623606976 TSX 500 Chile {Geophysik} 60 01 0705 10 ho 285 00 DE-517 00 TF 04999 285 00 DE-517 00 UT 2250 285 00 DE-517 00 UT 2700 2027 01 DE-105 00 (DE-627)1292965673 DK 621.396.96 2027 01 DE-105 00 (DE-627)1297626184 DK 551.4.044 2027 01 DE-105 00 (DE-627)1298207878 DK 551.432.7 2027 01 DE-105 00 (DE-627)1294815296 DK 551.213 2027 01 DE-105 00 (DE-627)1297065239 DK 551.4.03 2027 01 DE-105 00 (DE-627)1292433272 DK 528.8 2027 01 DE-105 00 (DE-627)129278105X DK 378.245 2027 01 DE-105 00 (DE-627)1293799726 DK 918.3 2027 01 DE-105 00 (DE-627)1294225766 DK 915.60 20 01 0084 OLRD 110 01 3110 OLRD 370 01 4370 OLRD 22 01 0018 SUBolrd 23 01 0830 olr-d 60 01 0705 OLRD 63 01 3401 ORD 132 01 0959 OLR-DISS 151 01 0546 OLR-ODISS 161 01 0960 ORD 293 01 3293 ORD 23 01 0830 2014-07-20:15:40:20 |
| allfields_unstemmed |
14,O06 dnb 1051530148 DE-101 urn:nbn:de:kobv:517-opus-70522 urn (DE-627)788333216 (DE-576)9788333214 (DE-599)DNB1051530148 (OCoLC)881631625 DE-627 ger DE-627 rakwb eng XA-DE-BB 550 DNB 38.03 bkl 38.37 bkl Vasyura-Bathke, Hannes verfasserin (DE-588)1074444922 (DE-627)832198358 (DE-576)442696574 aut An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Hannes Bathke. Betreuer: Thomas R. Walter Parallelsacht. Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek 2014 Online-Ressource (PDF-Datei: 84055 KB, XIII, 134 S.) Ill., graph. Darst. Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Volltext: PDF Potsdam, Univ., Diss., 2014 Surface displacement at volcanic edifices is related to subsurface processes associated with magma movements, fluid transfers within the volcano edifice and gravity-driven deformation processes. Understanding of associated ground displacements is of importance for assessment of volcanic hazards. For example, volcanic unrest is often preceded by surface uplift, caused by magma intrusion and followed by subsidence, after the withdrawal of magma. Continuous monitoring of the surface displacement at volcanoes therefore might allow the forecasting of upcoming eruptions to some extent. In geophysics, the measured surface displacements allow the parameters of possible deformation sources to be estimated through analytical or numerical modeling. This is one way to improve the understanding of subsurface processes acting at volcanoes. Although the monitoring of volcanoes has significantly improved in the last decades (in terms of technical advancements and number of monitored volcanoes), the forecasting of volcanic eruptions remains puzzling. In this work I contribute towards the understanding of the subsurface processes at volcanoes and thus to the improvement of volcano eruption forecasting. I have investigated the displacement field of Llaima volcano in Chile and of Tendürek volcano in East Turkey by using synthetic aperture radar interferometry (InSAR). Through modeling of the deformation sources with the extracted displacement data, it was possible to gain insights into potential subsurface processes occurring at these two volcanoes that had been barely studied before. The two volcanoes, although of very different origin, composition and geometry, both show a complexity of interacting deformation sources. At Llaima volcano, the InSAR technique was difficult to apply, due to the large decorrelation of the radar signal between the acquisition of images. I developed a model-based unwrapping scheme, which allows the production of reliable displacement maps at the volcano that I used for deformation source modeling. The modeling results show significant differences in pre- and post-eruptive magmatic deformation source parameters. Therefore, I conjecture that two magma chambers exist below Llaima volcano: a post-eruptive deep one and a shallow one possibly due to the pre-eruptive ascent of magma. Similar reservoir depths at Llaima have been confirmed by independent petrologic studies. These reservoirs are interpreted to be temporally coupled. At Tendürek volcano I have found long-term subsidence of the volcanic edifice, which can be described by a large, magmatic, sill-like source that is subject to cooling contraction. The displacement data in conjunction with high-resolution optical images, however, reveal arcuate fractures at the eastern and western flank of the volcano. These are most likely the surface expressions of concentric ring-faults around the volcanic edifice that show low magnitudes of slip over a long time. This might be an alternative mechanism for the development of large caldera structures, which are so far assumed to be generated during large catastrophic collapse events. To investigate the potential subsurface geometry and relation of the two proposed interacting sources at Tendürek, a sill-like magmatic source and ring-faults, I have performed a more sophisticated numerical modeling approach. The optimum source geometries show, that the size of the sill-like source was overestimated in the simple models and that it is difficult to determine the dip angle of the ring-faults with surface displacement data only. However, considering physical and geological criteria a combination of outward-dipping reverse faults in the west and inward-dipping normal faults in the east seem to be the most likely. Consequently, the underground structure at the Tendürek volcano consists of a small, sill-like, contracting, magmatic source below the western summit crater that causes a trapdoor-like faulting along the ring-faults around the volcanic edifice. Therefore, the magmatic source and the ring-faults are also interpreted to be temporally coupled. In addition, a method for data reduction has been improved. The modeling of subsurface deformation sources requires only a relatively small number of well distributed InSAR observations at the earth’s surface. Satellite radar images, however, consist of several millions of these observations. Therefore, the large amount of data needs to be reduced by several orders of magnitude for source modeling, to save computation time and increase model flexibility. I have introduced a model-based subsampling approach in particular for heterogeneously-distributed observations. It allows a fast calculation of the data error variance-covariance matrix, also supports the modeling of time dependent displacement data and is, therefore, an alternative to existing method Langzeitarchivierung gewährleistet pdager Hochschulschrift (DE-588)4113937-9 (DE-627)105825778 (DE-576)209480580 gnd-content s (DE-588)4128339-9 (DE-627)10571805X (DE-576)209601280 Vulkan gnd s (DE-588)4113458-8 (DE-627)105829331 (DE-576)209476648 Erdoberfläche gnd s (DE-588)4315323-9 (DE-627)126509867 (DE-576)211171875 Absenkung gnd s (DE-588)4136115-5 (DE-627)104161663 (DE-576)209666447 Verwerfung gnd s (DE-588)4195782-9 (DE-627)105209155 (DE-576)210103388 Synthetische Apertur gnd s (DE-588)4027296-5 (DE-627)10628522X (DE-576)20897024X Interferometrie gnd (DE-627) g (DE-588)4090389-8 (DE-627)106018752 (DE-576)209271914 Chile Süd gnd g (DE-588)4075725-0 (DE-627)10461658X (DE-576)209199199 Ostanatolien gnd s (DE-588)4317123-0 (DE-627)126724911 (DE-576)211189480 Hebung Geologie gnd s (DE-588)4690536-4 (DE-627)349529590 (DE-576)215066804 Geomorphographie gnd s (DE-588)4128339-9 (DE-627)10571805X (DE-576)209601280 Vulkan gnd s (DE-588)4138666-8 (DE-627)105640964 (DE-576)209687991 Eruption gnd (DE-627) s (DE-588)4473894-8 (DE-627)236094084 (DE-576)212805886 Vulkangebiet gnd s (DE-588)4168517-9 (DE-627)105417009 (DE-576)209916141 Magmakammer gnd s (DE-588)4177700-1 (DE-627)104261722 (DE-576)209979526 Relief Geografie gnd s (DE-588)4064081-4 (DE-627)106125346 (DE-576)209151617 Vulkanismus gnd (DE-627) Walter, Thomas R. 1972- betreuer (DE-588)12391017X (DE-627)706470559 (DE-576)29393827X oth Potsdam (DE-588)4046948-7 (DE-627)106196332 (DE-576)209071575 uvp Druckausg. Vasyura-Bathke, Hannes An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes Potsdam, 2014 xiii, 134 Seiten (DE-627)832552690 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 2014-06-18 Resolving-System Volltext http://d-nb.info/1051530148/34 2014-06-18 Langzeitarchivierung Nationalbibliothek Volltext http://opus.kobv.de/ubp/volltexte/2014/7052/ 2014-06-18 Verlag kostenfrei Volltext GBV-ODiss GBV_ILN_20 ISIL_DE-84 SYSFLAG_1 GBV_KXP SSG-OPC-GEO SSG-OPC-GGO GBV_ILN_21 ISIL_DE-46 GBV_ILN_22 ISIL_DE-18 GBV_ILN_23 ISIL_DE-830 GBV_ILN_30 ISIL_DE-104 GBV_ILN_40 ISIL_DE-7 GBV_ILN_60 ISIL_DE-705 GBV_ILN_63 ISIL_DE-Wim2 GBV_ILN_70 ISIL_DE-89 GBV_ILN_105 ISIL_DE-841 GBV_ILN_110 ISIL_DE-Luen4 GBV_ILN_132 ISIL_DE-959 GBV_ILN_151 ISIL_DE-546 GBV_ILN_161 ISIL_DE-960 GBV_ILN_285 ISIL_DE-517 GBV_ILN_293 ISIL_DE-960-3 GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2027 ISIL_DE-105 38.03 Methoden und Techniken der Geowissenschaften (DE-627)106411284 38.37 Magmatismus Vulkanologie (DE-627)106407139 BO 20 01 0084 1489730400 x 20-07-14 21 01 0046 1489754601 z 20-07-14 22 01 0018 1489776249 SUBolrd xu 20-07-14 23 01 0830 1489791302 olr-d x 20-07-14 30 01 0104 1489801413 z 20-07-14 40 01 0007 1489820965 xsn 20-07-14 60 01 0705 1489842462 OLRD z 20-07-14 63 01 3401 1595853537 ORD x 21-01-16 70 01 0089 1489872612 zdo 20-07-14 105 01 0841 1596665912 z 21-01-16 110 01 3110 1489858008 x 20-07-14 132 01 0959 1498564674 OLR-DISS x 14-08-14 151 01 0546 3594265080 OLR-ODISS z 13-02-20 161 01 0960 1597659118 ORD x 28-01-16 285 01 0517 1560630353 00 9300 --%%-- s --%%-- z 31-07-15 293 01 3293 1598176412 ORD xf 28-01-16 370 01 4370 148986251X x 20-07-14 2027 01 DE-105 3729409832 00 --%%-- Dn --%%-- --%%-- l01 27-07-20 20 01 0084 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 21 01 0046 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 22 01 0018 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 23 01 0830 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 30 01 0104 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 40 01 0007 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 60 01 0705 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 63 01 3401 E-Book https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 LF 70 01 0089 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 105 01 0841 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 110 01 3110 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 132 01 0959 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 151 01 0546 Volltext https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 161 01 0960 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 285 01 0517 http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 293 01 3293 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 370 01 4370 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 2027 01 DE-105 00 s ebook 40 00 DE-7 00 (DE-627)623605406 TQI 000 Satelliten-Geophysik 40 00 DE-7 01 (DE-627)625045998 VAD 100 Methodik in der Vulkanologie {Geologie} 40 00 DE-7 02 (DE-627)625046056 VAD 700 Regionaler Vulkanismus {Geologie} 40 00 DE-7 03 (DE-627)623606615 TSI 000 Vorderasien {Geophysik} 40 00 DE-7 04 (DE-627)623606976 TSX 500 Chile {Geophysik} 60 01 0705 10 ho 285 00 DE-517 00 TF 04999 285 00 DE-517 00 UT 2250 285 00 DE-517 00 UT 2700 2027 01 DE-105 00 (DE-627)1292965673 DK 621.396.96 2027 01 DE-105 00 (DE-627)1297626184 DK 551.4.044 2027 01 DE-105 00 (DE-627)1298207878 DK 551.432.7 2027 01 DE-105 00 (DE-627)1294815296 DK 551.213 2027 01 DE-105 00 (DE-627)1297065239 DK 551.4.03 2027 01 DE-105 00 (DE-627)1292433272 DK 528.8 2027 01 DE-105 00 (DE-627)129278105X DK 378.245 2027 01 DE-105 00 (DE-627)1293799726 DK 918.3 2027 01 DE-105 00 (DE-627)1294225766 DK 915.60 20 01 0084 OLRD 110 01 3110 OLRD 370 01 4370 OLRD 22 01 0018 SUBolrd 23 01 0830 olr-d 60 01 0705 OLRD 63 01 3401 ORD 132 01 0959 OLR-DISS 151 01 0546 OLR-ODISS 161 01 0960 ORD 293 01 3293 ORD 23 01 0830 2014-07-20:15:40:20 |
| allfieldsGer |
14,O06 dnb 1051530148 DE-101 urn:nbn:de:kobv:517-opus-70522 urn (DE-627)788333216 (DE-576)9788333214 (DE-599)DNB1051530148 (OCoLC)881631625 DE-627 ger DE-627 rakwb eng XA-DE-BB 550 DNB 38.03 bkl 38.37 bkl Vasyura-Bathke, Hannes verfasserin (DE-588)1074444922 (DE-627)832198358 (DE-576)442696574 aut An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Hannes Bathke. Betreuer: Thomas R. Walter Parallelsacht. Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek 2014 Online-Ressource (PDF-Datei: 84055 KB, XIII, 134 S.) Ill., graph. Darst. Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Volltext: PDF Potsdam, Univ., Diss., 2014 Surface displacement at volcanic edifices is related to subsurface processes associated with magma movements, fluid transfers within the volcano edifice and gravity-driven deformation processes. Understanding of associated ground displacements is of importance for assessment of volcanic hazards. For example, volcanic unrest is often preceded by surface uplift, caused by magma intrusion and followed by subsidence, after the withdrawal of magma. Continuous monitoring of the surface displacement at volcanoes therefore might allow the forecasting of upcoming eruptions to some extent. In geophysics, the measured surface displacements allow the parameters of possible deformation sources to be estimated through analytical or numerical modeling. This is one way to improve the understanding of subsurface processes acting at volcanoes. Although the monitoring of volcanoes has significantly improved in the last decades (in terms of technical advancements and number of monitored volcanoes), the forecasting of volcanic eruptions remains puzzling. In this work I contribute towards the understanding of the subsurface processes at volcanoes and thus to the improvement of volcano eruption forecasting. I have investigated the displacement field of Llaima volcano in Chile and of Tendürek volcano in East Turkey by using synthetic aperture radar interferometry (InSAR). Through modeling of the deformation sources with the extracted displacement data, it was possible to gain insights into potential subsurface processes occurring at these two volcanoes that had been barely studied before. The two volcanoes, although of very different origin, composition and geometry, both show a complexity of interacting deformation sources. At Llaima volcano, the InSAR technique was difficult to apply, due to the large decorrelation of the radar signal between the acquisition of images. I developed a model-based unwrapping scheme, which allows the production of reliable displacement maps at the volcano that I used for deformation source modeling. The modeling results show significant differences in pre- and post-eruptive magmatic deformation source parameters. Therefore, I conjecture that two magma chambers exist below Llaima volcano: a post-eruptive deep one and a shallow one possibly due to the pre-eruptive ascent of magma. Similar reservoir depths at Llaima have been confirmed by independent petrologic studies. These reservoirs are interpreted to be temporally coupled. At Tendürek volcano I have found long-term subsidence of the volcanic edifice, which can be described by a large, magmatic, sill-like source that is subject to cooling contraction. The displacement data in conjunction with high-resolution optical images, however, reveal arcuate fractures at the eastern and western flank of the volcano. These are most likely the surface expressions of concentric ring-faults around the volcanic edifice that show low magnitudes of slip over a long time. This might be an alternative mechanism for the development of large caldera structures, which are so far assumed to be generated during large catastrophic collapse events. To investigate the potential subsurface geometry and relation of the two proposed interacting sources at Tendürek, a sill-like magmatic source and ring-faults, I have performed a more sophisticated numerical modeling approach. The optimum source geometries show, that the size of the sill-like source was overestimated in the simple models and that it is difficult to determine the dip angle of the ring-faults with surface displacement data only. However, considering physical and geological criteria a combination of outward-dipping reverse faults in the west and inward-dipping normal faults in the east seem to be the most likely. Consequently, the underground structure at the Tendürek volcano consists of a small, sill-like, contracting, magmatic source below the western summit crater that causes a trapdoor-like faulting along the ring-faults around the volcanic edifice. Therefore, the magmatic source and the ring-faults are also interpreted to be temporally coupled. In addition, a method for data reduction has been improved. The modeling of subsurface deformation sources requires only a relatively small number of well distributed InSAR observations at the earth’s surface. Satellite radar images, however, consist of several millions of these observations. Therefore, the large amount of data needs to be reduced by several orders of magnitude for source modeling, to save computation time and increase model flexibility. I have introduced a model-based subsampling approach in particular for heterogeneously-distributed observations. It allows a fast calculation of the data error variance-covariance matrix, also supports the modeling of time dependent displacement data and is, therefore, an alternative to existing method Langzeitarchivierung gewährleistet pdager Hochschulschrift (DE-588)4113937-9 (DE-627)105825778 (DE-576)209480580 gnd-content s (DE-588)4128339-9 (DE-627)10571805X (DE-576)209601280 Vulkan gnd s (DE-588)4113458-8 (DE-627)105829331 (DE-576)209476648 Erdoberfläche gnd s (DE-588)4315323-9 (DE-627)126509867 (DE-576)211171875 Absenkung gnd s (DE-588)4136115-5 (DE-627)104161663 (DE-576)209666447 Verwerfung gnd s (DE-588)4195782-9 (DE-627)105209155 (DE-576)210103388 Synthetische Apertur gnd s (DE-588)4027296-5 (DE-627)10628522X (DE-576)20897024X Interferometrie gnd (DE-627) g (DE-588)4090389-8 (DE-627)106018752 (DE-576)209271914 Chile Süd gnd g (DE-588)4075725-0 (DE-627)10461658X (DE-576)209199199 Ostanatolien gnd s (DE-588)4317123-0 (DE-627)126724911 (DE-576)211189480 Hebung Geologie gnd s (DE-588)4690536-4 (DE-627)349529590 (DE-576)215066804 Geomorphographie gnd s (DE-588)4128339-9 (DE-627)10571805X (DE-576)209601280 Vulkan gnd s (DE-588)4138666-8 (DE-627)105640964 (DE-576)209687991 Eruption gnd (DE-627) s (DE-588)4473894-8 (DE-627)236094084 (DE-576)212805886 Vulkangebiet gnd s (DE-588)4168517-9 (DE-627)105417009 (DE-576)209916141 Magmakammer gnd s (DE-588)4177700-1 (DE-627)104261722 (DE-576)209979526 Relief Geografie gnd s (DE-588)4064081-4 (DE-627)106125346 (DE-576)209151617 Vulkanismus gnd (DE-627) Walter, Thomas R. 1972- betreuer (DE-588)12391017X (DE-627)706470559 (DE-576)29393827X oth Potsdam (DE-588)4046948-7 (DE-627)106196332 (DE-576)209071575 uvp Druckausg. Vasyura-Bathke, Hannes An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes Potsdam, 2014 xiii, 134 Seiten (DE-627)832552690 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 2014-06-18 Resolving-System Volltext http://d-nb.info/1051530148/34 2014-06-18 Langzeitarchivierung Nationalbibliothek Volltext http://opus.kobv.de/ubp/volltexte/2014/7052/ 2014-06-18 Verlag kostenfrei Volltext GBV-ODiss GBV_ILN_20 ISIL_DE-84 SYSFLAG_1 GBV_KXP SSG-OPC-GEO SSG-OPC-GGO GBV_ILN_21 ISIL_DE-46 GBV_ILN_22 ISIL_DE-18 GBV_ILN_23 ISIL_DE-830 GBV_ILN_30 ISIL_DE-104 GBV_ILN_40 ISIL_DE-7 GBV_ILN_60 ISIL_DE-705 GBV_ILN_63 ISIL_DE-Wim2 GBV_ILN_70 ISIL_DE-89 GBV_ILN_105 ISIL_DE-841 GBV_ILN_110 ISIL_DE-Luen4 GBV_ILN_132 ISIL_DE-959 GBV_ILN_151 ISIL_DE-546 GBV_ILN_161 ISIL_DE-960 GBV_ILN_285 ISIL_DE-517 GBV_ILN_293 ISIL_DE-960-3 GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2027 ISIL_DE-105 38.03 Methoden und Techniken der Geowissenschaften (DE-627)106411284 38.37 Magmatismus Vulkanologie (DE-627)106407139 BO 20 01 0084 1489730400 x 20-07-14 21 01 0046 1489754601 z 20-07-14 22 01 0018 1489776249 SUBolrd xu 20-07-14 23 01 0830 1489791302 olr-d x 20-07-14 30 01 0104 1489801413 z 20-07-14 40 01 0007 1489820965 xsn 20-07-14 60 01 0705 1489842462 OLRD z 20-07-14 63 01 3401 1595853537 ORD x 21-01-16 70 01 0089 1489872612 zdo 20-07-14 105 01 0841 1596665912 z 21-01-16 110 01 3110 1489858008 x 20-07-14 132 01 0959 1498564674 OLR-DISS x 14-08-14 151 01 0546 3594265080 OLR-ODISS z 13-02-20 161 01 0960 1597659118 ORD x 28-01-16 285 01 0517 1560630353 00 9300 --%%-- s --%%-- z 31-07-15 293 01 3293 1598176412 ORD xf 28-01-16 370 01 4370 148986251X x 20-07-14 2027 01 DE-105 3729409832 00 --%%-- Dn --%%-- --%%-- l01 27-07-20 20 01 0084 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 21 01 0046 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 22 01 0018 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 23 01 0830 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 30 01 0104 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 40 01 0007 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 60 01 0705 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 63 01 3401 E-Book https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 LF 70 01 0089 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 105 01 0841 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 110 01 3110 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 132 01 0959 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 151 01 0546 Volltext https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 161 01 0960 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 285 01 0517 http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 293 01 3293 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 370 01 4370 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 2027 01 DE-105 00 s ebook 40 00 DE-7 00 (DE-627)623605406 TQI 000 Satelliten-Geophysik 40 00 DE-7 01 (DE-627)625045998 VAD 100 Methodik in der Vulkanologie {Geologie} 40 00 DE-7 02 (DE-627)625046056 VAD 700 Regionaler Vulkanismus {Geologie} 40 00 DE-7 03 (DE-627)623606615 TSI 000 Vorderasien {Geophysik} 40 00 DE-7 04 (DE-627)623606976 TSX 500 Chile {Geophysik} 60 01 0705 10 ho 285 00 DE-517 00 TF 04999 285 00 DE-517 00 UT 2250 285 00 DE-517 00 UT 2700 2027 01 DE-105 00 (DE-627)1292965673 DK 621.396.96 2027 01 DE-105 00 (DE-627)1297626184 DK 551.4.044 2027 01 DE-105 00 (DE-627)1298207878 DK 551.432.7 2027 01 DE-105 00 (DE-627)1294815296 DK 551.213 2027 01 DE-105 00 (DE-627)1297065239 DK 551.4.03 2027 01 DE-105 00 (DE-627)1292433272 DK 528.8 2027 01 DE-105 00 (DE-627)129278105X DK 378.245 2027 01 DE-105 00 (DE-627)1293799726 DK 918.3 2027 01 DE-105 00 (DE-627)1294225766 DK 915.60 20 01 0084 OLRD 110 01 3110 OLRD 370 01 4370 OLRD 22 01 0018 SUBolrd 23 01 0830 olr-d 60 01 0705 OLRD 63 01 3401 ORD 132 01 0959 OLR-DISS 151 01 0546 OLR-ODISS 161 01 0960 ORD 293 01 3293 ORD 23 01 0830 2014-07-20:15:40:20 |
| allfieldsSound |
14,O06 dnb 1051530148 DE-101 urn:nbn:de:kobv:517-opus-70522 urn (DE-627)788333216 (DE-576)9788333214 (DE-599)DNB1051530148 (OCoLC)881631625 DE-627 ger DE-627 rakwb eng XA-DE-BB 550 DNB 38.03 bkl 38.37 bkl Vasyura-Bathke, Hannes verfasserin (DE-588)1074444922 (DE-627)832198358 (DE-576)442696574 aut An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Hannes Bathke. Betreuer: Thomas R. Walter Parallelsacht. Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek 2014 Online-Ressource (PDF-Datei: 84055 KB, XIII, 134 S.) Ill., graph. Darst. Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Volltext: PDF Potsdam, Univ., Diss., 2014 Surface displacement at volcanic edifices is related to subsurface processes associated with magma movements, fluid transfers within the volcano edifice and gravity-driven deformation processes. Understanding of associated ground displacements is of importance for assessment of volcanic hazards. For example, volcanic unrest is often preceded by surface uplift, caused by magma intrusion and followed by subsidence, after the withdrawal of magma. Continuous monitoring of the surface displacement at volcanoes therefore might allow the forecasting of upcoming eruptions to some extent. In geophysics, the measured surface displacements allow the parameters of possible deformation sources to be estimated through analytical or numerical modeling. This is one way to improve the understanding of subsurface processes acting at volcanoes. Although the monitoring of volcanoes has significantly improved in the last decades (in terms of technical advancements and number of monitored volcanoes), the forecasting of volcanic eruptions remains puzzling. In this work I contribute towards the understanding of the subsurface processes at volcanoes and thus to the improvement of volcano eruption forecasting. I have investigated the displacement field of Llaima volcano in Chile and of Tendürek volcano in East Turkey by using synthetic aperture radar interferometry (InSAR). Through modeling of the deformation sources with the extracted displacement data, it was possible to gain insights into potential subsurface processes occurring at these two volcanoes that had been barely studied before. The two volcanoes, although of very different origin, composition and geometry, both show a complexity of interacting deformation sources. At Llaima volcano, the InSAR technique was difficult to apply, due to the large decorrelation of the radar signal between the acquisition of images. I developed a model-based unwrapping scheme, which allows the production of reliable displacement maps at the volcano that I used for deformation source modeling. The modeling results show significant differences in pre- and post-eruptive magmatic deformation source parameters. Therefore, I conjecture that two magma chambers exist below Llaima volcano: a post-eruptive deep one and a shallow one possibly due to the pre-eruptive ascent of magma. Similar reservoir depths at Llaima have been confirmed by independent petrologic studies. These reservoirs are interpreted to be temporally coupled. At Tendürek volcano I have found long-term subsidence of the volcanic edifice, which can be described by a large, magmatic, sill-like source that is subject to cooling contraction. The displacement data in conjunction with high-resolution optical images, however, reveal arcuate fractures at the eastern and western flank of the volcano. These are most likely the surface expressions of concentric ring-faults around the volcanic edifice that show low magnitudes of slip over a long time. This might be an alternative mechanism for the development of large caldera structures, which are so far assumed to be generated during large catastrophic collapse events. To investigate the potential subsurface geometry and relation of the two proposed interacting sources at Tendürek, a sill-like magmatic source and ring-faults, I have performed a more sophisticated numerical modeling approach. The optimum source geometries show, that the size of the sill-like source was overestimated in the simple models and that it is difficult to determine the dip angle of the ring-faults with surface displacement data only. However, considering physical and geological criteria a combination of outward-dipping reverse faults in the west and inward-dipping normal faults in the east seem to be the most likely. Consequently, the underground structure at the Tendürek volcano consists of a small, sill-like, contracting, magmatic source below the western summit crater that causes a trapdoor-like faulting along the ring-faults around the volcanic edifice. Therefore, the magmatic source and the ring-faults are also interpreted to be temporally coupled. In addition, a method for data reduction has been improved. The modeling of subsurface deformation sources requires only a relatively small number of well distributed InSAR observations at the earth’s surface. Satellite radar images, however, consist of several millions of these observations. Therefore, the large amount of data needs to be reduced by several orders of magnitude for source modeling, to save computation time and increase model flexibility. I have introduced a model-based subsampling approach in particular for heterogeneously-distributed observations. It allows a fast calculation of the data error variance-covariance matrix, also supports the modeling of time dependent displacement data and is, therefore, an alternative to existing method Langzeitarchivierung gewährleistet pdager Hochschulschrift (DE-588)4113937-9 (DE-627)105825778 (DE-576)209480580 gnd-content s (DE-588)4128339-9 (DE-627)10571805X (DE-576)209601280 Vulkan gnd s (DE-588)4113458-8 (DE-627)105829331 (DE-576)209476648 Erdoberfläche gnd s (DE-588)4315323-9 (DE-627)126509867 (DE-576)211171875 Absenkung gnd s (DE-588)4136115-5 (DE-627)104161663 (DE-576)209666447 Verwerfung gnd s (DE-588)4195782-9 (DE-627)105209155 (DE-576)210103388 Synthetische Apertur gnd s (DE-588)4027296-5 (DE-627)10628522X (DE-576)20897024X Interferometrie gnd (DE-627) g (DE-588)4090389-8 (DE-627)106018752 (DE-576)209271914 Chile Süd gnd g (DE-588)4075725-0 (DE-627)10461658X (DE-576)209199199 Ostanatolien gnd s (DE-588)4317123-0 (DE-627)126724911 (DE-576)211189480 Hebung Geologie gnd s (DE-588)4690536-4 (DE-627)349529590 (DE-576)215066804 Geomorphographie gnd s (DE-588)4128339-9 (DE-627)10571805X (DE-576)209601280 Vulkan gnd s (DE-588)4138666-8 (DE-627)105640964 (DE-576)209687991 Eruption gnd (DE-627) s (DE-588)4473894-8 (DE-627)236094084 (DE-576)212805886 Vulkangebiet gnd s (DE-588)4168517-9 (DE-627)105417009 (DE-576)209916141 Magmakammer gnd s (DE-588)4177700-1 (DE-627)104261722 (DE-576)209979526 Relief Geografie gnd s (DE-588)4064081-4 (DE-627)106125346 (DE-576)209151617 Vulkanismus gnd (DE-627) Walter, Thomas R. 1972- betreuer (DE-588)12391017X (DE-627)706470559 (DE-576)29393827X oth Potsdam (DE-588)4046948-7 (DE-627)106196332 (DE-576)209071575 uvp Druckausg. Vasyura-Bathke, Hannes An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes Potsdam, 2014 xiii, 134 Seiten (DE-627)832552690 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 2014-06-18 Resolving-System Volltext http://d-nb.info/1051530148/34 2014-06-18 Langzeitarchivierung Nationalbibliothek Volltext http://opus.kobv.de/ubp/volltexte/2014/7052/ 2014-06-18 Verlag kostenfrei Volltext GBV-ODiss GBV_ILN_20 ISIL_DE-84 SYSFLAG_1 GBV_KXP SSG-OPC-GEO SSG-OPC-GGO GBV_ILN_21 ISIL_DE-46 GBV_ILN_22 ISIL_DE-18 GBV_ILN_23 ISIL_DE-830 GBV_ILN_30 ISIL_DE-104 GBV_ILN_40 ISIL_DE-7 GBV_ILN_60 ISIL_DE-705 GBV_ILN_63 ISIL_DE-Wim2 GBV_ILN_70 ISIL_DE-89 GBV_ILN_105 ISIL_DE-841 GBV_ILN_110 ISIL_DE-Luen4 GBV_ILN_132 ISIL_DE-959 GBV_ILN_151 ISIL_DE-546 GBV_ILN_161 ISIL_DE-960 GBV_ILN_285 ISIL_DE-517 GBV_ILN_293 ISIL_DE-960-3 GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2027 ISIL_DE-105 38.03 Methoden und Techniken der Geowissenschaften (DE-627)106411284 38.37 Magmatismus Vulkanologie (DE-627)106407139 BO 20 01 0084 1489730400 x 20-07-14 21 01 0046 1489754601 z 20-07-14 22 01 0018 1489776249 SUBolrd xu 20-07-14 23 01 0830 1489791302 olr-d x 20-07-14 30 01 0104 1489801413 z 20-07-14 40 01 0007 1489820965 xsn 20-07-14 60 01 0705 1489842462 OLRD z 20-07-14 63 01 3401 1595853537 ORD x 21-01-16 70 01 0089 1489872612 zdo 20-07-14 105 01 0841 1596665912 z 21-01-16 110 01 3110 1489858008 x 20-07-14 132 01 0959 1498564674 OLR-DISS x 14-08-14 151 01 0546 3594265080 OLR-ODISS z 13-02-20 161 01 0960 1597659118 ORD x 28-01-16 285 01 0517 1560630353 00 9300 --%%-- s --%%-- z 31-07-15 293 01 3293 1598176412 ORD xf 28-01-16 370 01 4370 148986251X x 20-07-14 2027 01 DE-105 3729409832 00 --%%-- Dn --%%-- --%%-- l01 27-07-20 20 01 0084 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 21 01 0046 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 22 01 0018 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 23 01 0830 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 30 01 0104 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 40 01 0007 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 60 01 0705 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 63 01 3401 E-Book https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 LF 70 01 0089 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 105 01 0841 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 110 01 3110 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 132 01 0959 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 151 01 0546 Volltext https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 161 01 0960 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 285 01 0517 http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 293 01 3293 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 370 01 4370 https://nbn-resolving.de/urn:nbn:de:kobv:517-opus-70522 2027 01 DE-105 00 s ebook 40 00 DE-7 00 (DE-627)623605406 TQI 000 Satelliten-Geophysik 40 00 DE-7 01 (DE-627)625045998 VAD 100 Methodik in der Vulkanologie {Geologie} 40 00 DE-7 02 (DE-627)625046056 VAD 700 Regionaler Vulkanismus {Geologie} 40 00 DE-7 03 (DE-627)623606615 TSI 000 Vorderasien {Geophysik} 40 00 DE-7 04 (DE-627)623606976 TSX 500 Chile {Geophysik} 60 01 0705 10 ho 285 00 DE-517 00 TF 04999 285 00 DE-517 00 UT 2250 285 00 DE-517 00 UT 2700 2027 01 DE-105 00 (DE-627)1292965673 DK 621.396.96 2027 01 DE-105 00 (DE-627)1297626184 DK 551.4.044 2027 01 DE-105 00 (DE-627)1298207878 DK 551.432.7 2027 01 DE-105 00 (DE-627)1294815296 DK 551.213 2027 01 DE-105 00 (DE-627)1297065239 DK 551.4.03 2027 01 DE-105 00 (DE-627)1292433272 DK 528.8 2027 01 DE-105 00 (DE-627)129278105X DK 378.245 2027 01 DE-105 00 (DE-627)1293799726 DK 918.3 2027 01 DE-105 00 (DE-627)1294225766 DK 915.60 20 01 0084 OLRD 110 01 3110 OLRD 370 01 4370 OLRD 22 01 0018 SUBolrd 23 01 0830 olr-d 60 01 0705 OLRD 63 01 3401 ORD 132 01 0959 OLR-DISS 151 01 0546 OLR-ODISS 161 01 0960 ORD 293 01 3293 ORD 23 01 0830 2014-07-20:15:40:20 |
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<?xml version="1.0" encoding="UTF-8"?><collection xmlns="http://www.loc.gov/MARC21/slim"><record><leader>01000cam a2200265 4500</leader><controlfield tag="001">788333216</controlfield><controlfield tag="003">DE-627</controlfield><controlfield tag="005">20230324225056.0</controlfield><controlfield tag="007">cr uuu---uuuuu</controlfield><controlfield tag="008">140618s2014 gw |||||om 00| ||eng c</controlfield><datafield tag="015" ind1=" " ind2=" "><subfield code="a">14,O06</subfield><subfield code="2">dnb</subfield></datafield><datafield tag="016" ind1="7" ind2=" "><subfield code="a">1051530148</subfield><subfield code="2">DE-101</subfield></datafield><datafield tag="024" ind1="7" ind2=" "><subfield code="a">urn:nbn:de:kobv:517-opus-70522</subfield><subfield code="2">urn</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(DE-627)788333216</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(DE-576)9788333214</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(DE-599)DNB1051530148</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(OCoLC)881631625</subfield></datafield><datafield tag="040" ind1=" " ind2=" "><subfield code="a">DE-627</subfield><subfield code="b">ger</subfield><subfield code="c">DE-627</subfield><subfield code="e">rakwb</subfield></datafield><datafield tag="041" ind1=" " ind2=" "><subfield code="a">eng</subfield></datafield><datafield tag="044" ind1=" " ind2=" "><subfield code="c">XA-DE-BB</subfield></datafield><datafield tag="082" ind1="0" ind2="4"><subfield code="a">550</subfield><subfield code="q">DNB</subfield></datafield><datafield tag="084" ind1=" " ind2=" "><subfield code="a">38.03</subfield><subfield code="2">bkl</subfield></datafield><datafield tag="084" ind1=" " ind2=" "><subfield code="a">38.37</subfield><subfield code="2">bkl</subfield></datafield><datafield tag="100" ind1="1" ind2=" "><subfield code="a">Vasyura-Bathke, Hannes</subfield><subfield code="e">verfasserin</subfield><subfield code="0">(DE-588)1074444922</subfield><subfield code="0">(DE-627)832198358</subfield><subfield code="0">(DE-576)442696574</subfield><subfield code="4">aut</subfield></datafield><datafield tag="245" ind1="1" ind2="3"><subfield code="a">An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource</subfield><subfield code="b"> = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek</subfield><subfield code="c">Hannes Bathke. Betreuer: Thomas R. Walter</subfield></datafield><datafield tag="246" ind1="1" ind2=" "><subfield code="i">Parallelsacht.</subfield><subfield code="a">Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek</subfield></datafield><datafield tag="246" ind1="3" ind2="1"><subfield code="a">Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek</subfield></datafield><datafield tag="246" ind1="3" ind2="3"><subfield code="a">Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek</subfield></datafield><datafield tag="264" ind1=" " ind2="1"><subfield code="c">2014</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">Online-Ressource (PDF-Datei: 84055 KB, XIII, 134 S.)</subfield><subfield code="b">Ill., graph. Darst.</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="a">Text</subfield><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="a">Computermedien</subfield><subfield code="b">c</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="a">Online-Ressource</subfield><subfield code="b">cr</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a">Volltext: PDF</subfield></datafield><datafield tag="502" ind1=" " ind2=" "><subfield code="a">Potsdam, Univ., Diss., 2014</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">Surface displacement at volcanic edifices is related to subsurface processes associated with magma movements, fluid transfers within the volcano edifice and gravity-driven deformation processes. Understanding of associated ground displacements is of importance for assessment of volcanic hazards. For example, volcanic unrest is often preceded by surface uplift, caused by magma intrusion and followed by subsidence, after the withdrawal of magma. Continuous monitoring of the surface displacement at volcanoes therefore might allow the forecasting of upcoming eruptions to some extent. In geophysics, the measured surface displacements allow the parameters of possible deformation sources to be estimated through analytical or numerical modeling. This is one way to improve the understanding of subsurface processes acting at volcanoes. Although the monitoring of volcanoes has significantly improved in the last decades (in terms of technical advancements and number of monitored volcanoes), the forecasting of volcanic eruptions remains puzzling. In this work I contribute towards the understanding of the subsurface processes at volcanoes and thus to the improvement of volcano eruption forecasting. I have investigated the displacement field of Llaima volcano in Chile and of Tendürek volcano in East Turkey by using synthetic aperture radar interferometry (InSAR). Through modeling of the deformation sources with the extracted displacement data, it was possible to gain insights into potential subsurface processes occurring at these two volcanoes that had been barely studied before. The two volcanoes, although of very different origin, composition and geometry, both show a complexity of interacting deformation sources. At Llaima volcano, the InSAR technique was difficult to apply, due to the large decorrelation of the radar signal between the acquisition of images. I developed a model-based unwrapping scheme, which allows the production of reliable displacement maps at the volcano that I used for deformation source modeling. The modeling results show significant differences in pre- and post-eruptive magmatic deformation source parameters. Therefore, I conjecture that two magma chambers exist below Llaima volcano: a post-eruptive deep one and a shallow one possibly due to the pre-eruptive ascent of magma. Similar reservoir depths at Llaima have been confirmed by independent petrologic studies. These reservoirs are interpreted to be temporally coupled. At Tendürek volcano I have found long-term subsidence of the volcanic edifice, which can be described by a large, magmatic, sill-like source that is subject to cooling contraction. The displacement data in conjunction with high-resolution optical images, however, reveal arcuate fractures at the eastern and western flank of the volcano. These are most likely the surface expressions of concentric ring-faults around the volcanic edifice that show low magnitudes of slip over a long time. This might be an alternative mechanism for the development of large caldera structures, which are so far assumed to be generated during large catastrophic collapse events. To investigate the potential subsurface geometry and relation of the two proposed interacting sources at Tendürek, a sill-like magmatic source and ring-faults, I have performed a more sophisticated numerical modeling approach. The optimum source geometries show, that the size of the sill-like source was overestimated in the simple models and that it is difficult to determine the dip angle of the ring-faults with surface displacement data only. However, considering physical and geological criteria a combination of outward-dipping reverse faults in the west and inward-dipping normal faults in the east seem to be the most likely. 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Vasyura-Bathke, Hannes ddc 550 bkl 38.03 bkl 38.37 gnd Vulkan gnd Erdoberfläche gnd Absenkung gnd Verwerfung gnd Synthetische Apertur gnd Interferometrie gnd Chile gnd Ostanatolien gnd Hebung gnd Geomorphographie gnd Eruption gnd Vulkangebiet gnd Magmakammer gnd Relief gnd Vulkanismus 2027 ebook An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek |
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An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek |
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Vasyura Bathke, Hannes Vasyura-Bathke, H. Bathke, Hannes Vasyura-Bathke, Hannes Hochschulschrift Vulkane Vulkan Erde / Oberfläche Erdoberfläche Senkung <Bauwesen> Absenkung Dislokation <Geologie> Paraklase Verschiebung <Geologie> Sprung <Geologie> Verwerfung Antennensynthese Apertursynthese Synthetische Apertur Interferometrie Südchile Chile (Süd) Anatolien (Ost) Türkei (Ost) Osttürkei Ostanatolien Hebung <Geologie> Morphographie <Geomorphologie> Reliefbeschreibung Formbeschreibung <Geomorphologie> Geomorphographie Vulkanausbruch Ausbruch <Vulkanismus> Eruption Vulkanisches Gebiet Vulkanlandschaft Vulkangebiet Vulkanherd Magmenkammer Magmakammer Georelief Oberflächenform <Geografie> Relief <Geografie> Vulkantätigkeit Vulkanismus Walter, Thomas Walter, Thomas Ingo Rafael Walter, Thomas R. Bostanium Postampium Poztupimi Potzdam Bostampium Potsdamum State Capital of Potsdam Stadtgemeinde Potsdam Residenzstadt Potsdam Potestampium Potsdam-Sanssouci Pozdam Potsdamm Landeshauptstadt Potsdam Potsdam |
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Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek |
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<?xml version="1.0" encoding="UTF-8"?><collection xmlns="http://www.loc.gov/MARC21/slim"><record><leader>01000cam a2200265 4500</leader><controlfield tag="001">788333216</controlfield><controlfield tag="003">DE-627</controlfield><controlfield tag="005">20230324225056.0</controlfield><controlfield tag="007">cr uuu---uuuuu</controlfield><controlfield tag="008">140618s2014 gw |||||om 00| ||eng c</controlfield><datafield tag="015" ind1=" " ind2=" "><subfield code="a">14,O06</subfield><subfield code="2">dnb</subfield></datafield><datafield tag="016" ind1="7" ind2=" "><subfield code="a">1051530148</subfield><subfield code="2">DE-101</subfield></datafield><datafield tag="024" ind1="7" ind2=" "><subfield code="a">urn:nbn:de:kobv:517-opus-70522</subfield><subfield code="2">urn</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(DE-627)788333216</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(DE-576)9788333214</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(DE-599)DNB1051530148</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(OCoLC)881631625</subfield></datafield><datafield tag="040" ind1=" " ind2=" "><subfield code="a">DE-627</subfield><subfield code="b">ger</subfield><subfield code="c">DE-627</subfield><subfield code="e">rakwb</subfield></datafield><datafield tag="041" ind1=" " ind2=" "><subfield code="a">eng</subfield></datafield><datafield tag="044" ind1=" " ind2=" "><subfield code="c">XA-DE-BB</subfield></datafield><datafield tag="082" ind1="0" ind2="4"><subfield code="a">550</subfield><subfield code="q">DNB</subfield></datafield><datafield tag="084" ind1=" " ind2=" "><subfield code="a">38.03</subfield><subfield code="2">bkl</subfield></datafield><datafield tag="084" ind1=" " ind2=" "><subfield code="a">38.37</subfield><subfield code="2">bkl</subfield></datafield><datafield tag="100" ind1="1" ind2=" "><subfield code="a">Vasyura-Bathke, Hannes</subfield><subfield code="e">verfasserin</subfield><subfield code="0">(DE-588)1074444922</subfield><subfield code="0">(DE-627)832198358</subfield><subfield code="0">(DE-576)442696574</subfield><subfield code="4">aut</subfield></datafield><datafield tag="245" ind1="1" ind2="3"><subfield code="a">An investigation of complex deformation patterns detected by using InSAR at Llaima and Tendürek volcanoes$nElektronische Ressource</subfield><subfield code="b"> = Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek</subfield><subfield code="c">Hannes Bathke. Betreuer: Thomas R. Walter</subfield></datafield><datafield tag="246" ind1="1" ind2=" "><subfield code="i">Parallelsacht.</subfield><subfield code="a">Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek</subfield></datafield><datafield tag="246" ind1="3" ind2="1"><subfield code="a">Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek</subfield></datafield><datafield tag="246" ind1="3" ind2="3"><subfield code="a">Eine Untersuchung von komplexen Erdoberflächenverformungen gemessen mit InSAR, an den Vulkanen Llaima und Tendürek</subfield></datafield><datafield tag="264" ind1=" " ind2="1"><subfield code="c">2014</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">Online-Ressource (PDF-Datei: 84055 KB, XIII, 134 S.)</subfield><subfield code="b">Ill., graph. Darst.</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="a">Text</subfield><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="a">Computermedien</subfield><subfield code="b">c</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="a">Online-Ressource</subfield><subfield code="b">cr</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a">Volltext: PDF</subfield></datafield><datafield tag="502" ind1=" " ind2=" "><subfield code="a">Potsdam, Univ., Diss., 2014</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">Surface displacement at volcanic edifices is related to subsurface processes associated with magma movements, fluid transfers within the volcano edifice and gravity-driven deformation processes. Understanding of associated ground displacements is of importance for assessment of volcanic hazards. For example, volcanic unrest is often preceded by surface uplift, caused by magma intrusion and followed by subsidence, after the withdrawal of magma. Continuous monitoring of the surface displacement at volcanoes therefore might allow the forecasting of upcoming eruptions to some extent. In geophysics, the measured surface displacements allow the parameters of possible deformation sources to be estimated through analytical or numerical modeling. This is one way to improve the understanding of subsurface processes acting at volcanoes. Although the monitoring of volcanoes has significantly improved in the last decades (in terms of technical advancements and number of monitored volcanoes), the forecasting of volcanic eruptions remains puzzling. In this work I contribute towards the understanding of the subsurface processes at volcanoes and thus to the improvement of volcano eruption forecasting. I have investigated the displacement field of Llaima volcano in Chile and of Tendürek volcano in East Turkey by using synthetic aperture radar interferometry (InSAR). Through modeling of the deformation sources with the extracted displacement data, it was possible to gain insights into potential subsurface processes occurring at these two volcanoes that had been barely studied before. The two volcanoes, although of very different origin, composition and geometry, both show a complexity of interacting deformation sources. At Llaima volcano, the InSAR technique was difficult to apply, due to the large decorrelation of the radar signal between the acquisition of images. I developed a model-based unwrapping scheme, which allows the production of reliable displacement maps at the volcano that I used for deformation source modeling. The modeling results show significant differences in pre- and post-eruptive magmatic deformation source parameters. Therefore, I conjecture that two magma chambers exist below Llaima volcano: a post-eruptive deep one and a shallow one possibly due to the pre-eruptive ascent of magma. Similar reservoir depths at Llaima have been confirmed by independent petrologic studies. These reservoirs are interpreted to be temporally coupled. At Tendürek volcano I have found long-term subsidence of the volcanic edifice, which can be described by a large, magmatic, sill-like source that is subject to cooling contraction. The displacement data in conjunction with high-resolution optical images, however, reveal arcuate fractures at the eastern and western flank of the volcano. These are most likely the surface expressions of concentric ring-faults around the volcanic edifice that show low magnitudes of slip over a long time. This might be an alternative mechanism for the development of large caldera structures, which are so far assumed to be generated during large catastrophic collapse events. To investigate the potential subsurface geometry and relation of the two proposed interacting sources at Tendürek, a sill-like magmatic source and ring-faults, I have performed a more sophisticated numerical modeling approach. The optimum source geometries show, that the size of the sill-like source was overestimated in the simple models and that it is difficult to determine the dip angle of the ring-faults with surface displacement data only. However, considering physical and geological criteria a combination of outward-dipping reverse faults in the west and inward-dipping normal faults in the east seem to be the most likely. Consequently, the underground structure at the Tendürek volcano consists of a small, sill-like, contracting, magmatic source below the western summit crater that causes a trapdoor-like faulting along the ring-faults around the volcanic edifice. Therefore, the magmatic source and the ring-faults are also interpreted to be temporally coupled. In addition, a method for data reduction has been improved. The modeling of subsurface deformation sources requires only a relatively small number of well distributed InSAR observations at the earth’s surface. Satellite radar images, however, consist of several millions of these observations. Therefore, the large amount of data needs to be reduced by several orders of magnitude for source modeling, to save computation time and increase model flexibility. I have introduced a model-based subsampling approach in particular for heterogeneously-distributed observations. 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