What controls the shallow structure of divergent plate boundaries? Insights from field and modelling data

The interest in the role of magma in splitting plates at divergent plate boundaries through discrete rifting episodes has been re-invigorated. However, despite the renewed enthusiasm for this topic, the precise mechanism by which the magma affects the geometry, the kinematics, and the temporal evolu...

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Main Authors: TRIPPANERA, DANIELE, ACOCELLA, Valerio, RUCH, JOEL, NORINI, GIANLUCA, URBANI, STEFANO, Abebe, B., Thordarson, T., Gudmundsson, A. :
Other Authors: Trippanera, D., Acocella, V., Ruch, J., Abebe, B., Norini, G., Thordarson, T., Urbani, S., & Gudmundsson, A., Trippanera, Daniele, Acocella, Valerio, Ruch, Joel, Norini, Gianluca, Urbani, Stefano
Format: Conference Object
Language:English
Published: 2014
Subjects:
Rift
PIV
rifting
divergent plate boundaries
Álftafjörður
Eldgjá
Krafla
Laki
Sveinagjá
Iceland
Online Access:http://hdl.handle.net/11590/280644
http://meetingorganizer.copernicus.org/EGU2014/EGU2014-620.pdf
id ftunivroma3iris:oai:iris.uniroma3.it:11590/280644
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spelling ftunivroma3iris:oai:iris.uniroma3.it:11590/280644 2024-01-14T10:07:51+01:00 What controls the shallow structure of divergent plate boundaries? Insights from field and modelling data TRIPPANERA, DANIELE ACOCELLA, Valerio RUCH, JOEL NORINI, GIANLUCA URBANI, STEFANO Abebe, B. Thordarson, T. Gudmundsson, A. : Trippanera, D., Acocella, V., Ruch, J., Abebe, B., Norini, G., Thordarson, T., Urbani, S., & Gudmundsson, A., Trippanera, Daniele Acocella, Valerio Ruch, Joel Abebe, B. Norini, Gianluca Thordarson, T. Urbani, Stefano Gudmundsson, A. : 2014 http://hdl.handle.net/11590/280644 http://meetingorganizer.copernicus.org/EGU2014/EGU2014-620.pdf eng eng ispartofbook:Geophysical Research Abstracts EGU General Assembly volume:16 http://hdl.handle.net/11590/280644 http://meetingorganizer.copernicus.org/EGU2014/EGU2014-620.pdf Rift PIV rifting divergent plate boundaries info:eu-repo/semantics/conferenceObject 2014 ftunivroma3iris 2023-12-20T17:43:40Z The interest in the role of magma in splitting plates at divergent plate boundaries through discrete rifting episodes has been re-invigorated. However, despite the renewed enthusiasm for this topic, the precise mechanism by which the magma affects the geometry, the kinematics, and the temporal evolution of a rift is still poorly understood. Here we address several of the related issues, focusing on the surface deformation along plate boundaries, and then comparing the observed deformation with the results of analogue models on dike intrusion. We investigated surface deformation at divergent plate boundaries via field surveys in the Neovolcanic Zone of Iceland and the Main Ethiopian Rift, with focus on: 1) single eruptive fissures (Laki and Eldgjá, South Iceland), 2) mature rifts where several diking events have occurred comparatively recently (i.e. Sveinagjá and Krafla in North Iceland and Fantale in Ethiopia) and 3) on fissure swarms where strike-slip component is also present (Vogar and Þingvellir swarms, Southwest Iceland). Systematic measurements of fault and extension-fracture geometries and kinematics were carried out, including the analysis of the morphology of the fault terminations as possible indicators of the propagation direction of the faults. In addition, we conducted measurements across the fossil Álftafjörður dyke swarm, of late Tertiary age, in East Iceland, exposed at a depth of about 1.2 km below the original surface of the rift zone within which the dikes were emplaced. We use this dataset to calculate the crustal dilation due to diking and faulting at depth at 1-2 km. Analogue models are used as a complementary tools to aid understanding of the geometry and the kinematics of dike-induced structures, under systematically varied boundary conditions (intrusion depth, number of dikes per unit length of profile, etc). Laser-scanner and Particle Image Velocimetry (PIV) techniques were used to quantify the surface deformation in the analogue models and to reconstruct the time evolution of the ... Conference Object Iceland Anagrafe della Ricerca d'Ateneo (Universitá degli studi Roma Tre) Álftafjörður ENVELOPE(-23.020,-23.020,65.997,65.997) Eldgjá ENVELOPE(-18.608,-18.608,63.962,63.962) Krafla ENVELOPE(-16.747,-16.747,65.713,65.713) Laki ENVELOPE(-18.237,-18.237,64.070,64.070) Sveinagjá ENVELOPE(-16.460,-16.460,65.469,65.469)
institution Open Polar
collection Anagrafe della Ricerca d'Ateneo (Universitá degli studi Roma Tre)
op_collection_id ftunivroma3iris
language English
topic Rift
PIV
rifting
divergent plate boundaries
spellingShingle Rift
PIV
rifting
divergent plate boundaries
TRIPPANERA, DANIELE
ACOCELLA, Valerio
RUCH, JOEL
NORINI, GIANLUCA
URBANI, STEFANO
Abebe, B.
Thordarson, T.
Gudmundsson, A. :
What controls the shallow structure of divergent plate boundaries? Insights from field and modelling data
topic_facet Rift
PIV
rifting
divergent plate boundaries
description The interest in the role of magma in splitting plates at divergent plate boundaries through discrete rifting episodes has been re-invigorated. However, despite the renewed enthusiasm for this topic, the precise mechanism by which the magma affects the geometry, the kinematics, and the temporal evolution of a rift is still poorly understood. Here we address several of the related issues, focusing on the surface deformation along plate boundaries, and then comparing the observed deformation with the results of analogue models on dike intrusion. We investigated surface deformation at divergent plate boundaries via field surveys in the Neovolcanic Zone of Iceland and the Main Ethiopian Rift, with focus on: 1) single eruptive fissures (Laki and Eldgjá, South Iceland), 2) mature rifts where several diking events have occurred comparatively recently (i.e. Sveinagjá and Krafla in North Iceland and Fantale in Ethiopia) and 3) on fissure swarms where strike-slip component is also present (Vogar and Þingvellir swarms, Southwest Iceland). Systematic measurements of fault and extension-fracture geometries and kinematics were carried out, including the analysis of the morphology of the fault terminations as possible indicators of the propagation direction of the faults. In addition, we conducted measurements across the fossil Álftafjörður dyke swarm, of late Tertiary age, in East Iceland, exposed at a depth of about 1.2 km below the original surface of the rift zone within which the dikes were emplaced. We use this dataset to calculate the crustal dilation due to diking and faulting at depth at 1-2 km. Analogue models are used as a complementary tools to aid understanding of the geometry and the kinematics of dike-induced structures, under systematically varied boundary conditions (intrusion depth, number of dikes per unit length of profile, etc). Laser-scanner and Particle Image Velocimetry (PIV) techniques were used to quantify the surface deformation in the analogue models and to reconstruct the time evolution of the ...
author2 Trippanera, D., Acocella, V., Ruch, J., Abebe, B., Norini, G., Thordarson, T., Urbani, S., & Gudmundsson, A.,
Trippanera, Daniele
Acocella, Valerio
Ruch, Joel
Abebe, B.
Norini, Gianluca
Thordarson, T.
Urbani, Stefano
Gudmundsson, A. :
format Conference Object
author TRIPPANERA, DANIELE
ACOCELLA, Valerio
RUCH, JOEL
NORINI, GIANLUCA
URBANI, STEFANO
Abebe, B.
Thordarson, T.
Gudmundsson, A. :
author_facet TRIPPANERA, DANIELE
ACOCELLA, Valerio
RUCH, JOEL
NORINI, GIANLUCA
URBANI, STEFANO
Abebe, B.
Thordarson, T.
Gudmundsson, A. :
author_sort TRIPPANERA, DANIELE
title What controls the shallow structure of divergent plate boundaries? Insights from field and modelling data
title_short What controls the shallow structure of divergent plate boundaries? Insights from field and modelling data
title_full What controls the shallow structure of divergent plate boundaries? Insights from field and modelling data
title_fullStr What controls the shallow structure of divergent plate boundaries? Insights from field and modelling data
title_full_unstemmed What controls the shallow structure of divergent plate boundaries? Insights from field and modelling data
title_sort what controls the shallow structure of divergent plate boundaries? insights from field and modelling data
publishDate 2014
url http://hdl.handle.net/11590/280644
http://meetingorganizer.copernicus.org/EGU2014/EGU2014-620.pdf
long_lat ENVELOPE(-23.020,-23.020,65.997,65.997)
ENVELOPE(-18.608,-18.608,63.962,63.962)
ENVELOPE(-16.747,-16.747,65.713,65.713)
ENVELOPE(-18.237,-18.237,64.070,64.070)
ENVELOPE(-16.460,-16.460,65.469,65.469)
geographic Álftafjörður
Eldgjá
Krafla
Laki
Sveinagjá
geographic_facet Álftafjörður
Eldgjá
Krafla
Laki
Sveinagjá
genre Iceland
genre_facet Iceland
op_relation ispartofbook:Geophysical Research Abstracts
EGU General Assembly
volume:16
http://hdl.handle.net/11590/280644
http://meetingorganizer.copernicus.org/EGU2014/EGU2014-620.pdf
_version_ 1788062255254863872

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