Seismicity and structure of the 85°E volcanic complex at the ultraslow spreading Gakkel ridge from local earthquake tomography

Accretion mechanisms at ultraslow spreading ridges are still only poorly understood due to difficult survey conditions for seismic experiments at these ridges. Melts gets focused in distinct magmatic centres, with thin crust in between. At the 85°E/85°N volcanic complex at Gakkel ridge, Arctic Ocean...

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Published in:Geophysical Journal International
Main Authors: Korger, Edith, Schlindwein, Vera
Format: Article in Journal/Newspaper
Language:unknown
Published: WILEY-BLACKWELL PUBLISHING 2013
Subjects:
Arctic Ocean
Sea ice
Online Access:https://epic.awi.de/id/eprint/33347/
https://hdl.handle.net/10013/epic.42998
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spelling ftawi:oai:epic.awi.de:33347 2024-09-15T17:54:13+00:00 Seismicity and structure of the 85°E volcanic complex at the ultraslow spreading Gakkel ridge from local earthquake tomography Korger, Edith Schlindwein, Vera 2013-10-22 https://epic.awi.de/id/eprint/33347/ https://hdl.handle.net/10013/epic.42998 unknown WILEY-BLACKWELL PUBLISHING Korger, E. and Schlindwein, V. orcid:0000-0001-5570-2753 (2013) Seismicity and structure of the 85°E volcanic complex at the ultraslow spreading Gakkel ridge from local earthquake tomography , Geophysical Journal International, 196 (1), pp. 539-551 . doi:10.1093/gji/ggt390 <https://doi.org/10.1093/gji%2Fggt390> , hdl:10013/epic.42998 EPIC3Geophysical Journal International, WILEY-BLACKWELL PUBLISHING, 196(1), pp. 539-551, ISSN: 0956-540X Article isiRev 2013 ftawi https://doi.org/10.1093/gji/ggt390 2024-06-24T04:07:26Z Accretion mechanisms at ultraslow spreading ridges are still only poorly understood due to difficult survey conditions for seismic experiments at these ridges. Melts gets focused in distinct magmatic centres, with thin crust in between. At the 85°E/85°N volcanic complex at Gakkel ridge, Arctic Ocean, where a recent spreading episode has been observed, perennial sea ice cover challenges traditional investigations of seismic structure and microseismicity. We used an unusual survey set-up to gather seismological data during 16 days in July 2007, using seismometer arrays mounted on ice floes. Despite only 12 stations, the drift of the ice floes over the survey area resulted in a multitude of crossing rays in the rift valley. The data included 303 microearthquakes of which 248 events could be confidently located. We compiled a 1D velocity model by localizing a subset of these earthquakes with a suite of randomly created velocity models. In this model, the Moho is placed at 7 km depth below seafloor, inferring a thick, basaltic crust. Using 124 events which were recorded by at least two arrays, we inverted for P-wave velocity structure in a local earthquake tomography. Resolution tests indicate reliable results in the central rift valley, illuminating the thermal structure underneath the Asgard volcanic chain in the aftermath of its most recent spreading episode. Our results show microearthquake activity down to 16 km beneath seafloor, inferring a cold lithosphere. Most hypocentres cluster at the centre of the rift valley at the site the Asgard volcanic chain. This may mean that existing thermal models for this class of ridges have to be refined. An area of decreased seismic velocities crosses the rift valley at this location and microearthquake activity is located at its eastern fringe where the velocity gradient is highest. We therefore speculate that the reduced velocities may be caused by warm intruded material and that the observed seismicity predominatly reflects the relaxation of thermal stresses following ... Article in Journal/Newspaper Arctic Ocean Sea ice Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center) Geophysical Journal International 196 1 539 551
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description Accretion mechanisms at ultraslow spreading ridges are still only poorly understood due to difficult survey conditions for seismic experiments at these ridges. Melts gets focused in distinct magmatic centres, with thin crust in between. At the 85°E/85°N volcanic complex at Gakkel ridge, Arctic Ocean, where a recent spreading episode has been observed, perennial sea ice cover challenges traditional investigations of seismic structure and microseismicity. We used an unusual survey set-up to gather seismological data during 16 days in July 2007, using seismometer arrays mounted on ice floes. Despite only 12 stations, the drift of the ice floes over the survey area resulted in a multitude of crossing rays in the rift valley. The data included 303 microearthquakes of which 248 events could be confidently located. We compiled a 1D velocity model by localizing a subset of these earthquakes with a suite of randomly created velocity models. In this model, the Moho is placed at 7 km depth below seafloor, inferring a thick, basaltic crust. Using 124 events which were recorded by at least two arrays, we inverted for P-wave velocity structure in a local earthquake tomography. Resolution tests indicate reliable results in the central rift valley, illuminating the thermal structure underneath the Asgard volcanic chain in the aftermath of its most recent spreading episode. Our results show microearthquake activity down to 16 km beneath seafloor, inferring a cold lithosphere. Most hypocentres cluster at the centre of the rift valley at the site the Asgard volcanic chain. This may mean that existing thermal models for this class of ridges have to be refined. An area of decreased seismic velocities crosses the rift valley at this location and microearthquake activity is located at its eastern fringe where the velocity gradient is highest. We therefore speculate that the reduced velocities may be caused by warm intruded material and that the observed seismicity predominatly reflects the relaxation of thermal stresses following ...
format Article in Journal/Newspaper
author Korger, Edith
Schlindwein, Vera
spellingShingle Korger, Edith
Schlindwein, Vera
Seismicity and structure of the 85°E volcanic complex at the ultraslow spreading Gakkel ridge from local earthquake tomography
author_facet Korger, Edith
Schlindwein, Vera
author_sort Korger, Edith
title Seismicity and structure of the 85°E volcanic complex at the ultraslow spreading Gakkel ridge from local earthquake tomography
title_short Seismicity and structure of the 85°E volcanic complex at the ultraslow spreading Gakkel ridge from local earthquake tomography
title_full Seismicity and structure of the 85°E volcanic complex at the ultraslow spreading Gakkel ridge from local earthquake tomography
title_fullStr Seismicity and structure of the 85°E volcanic complex at the ultraslow spreading Gakkel ridge from local earthquake tomography
title_full_unstemmed Seismicity and structure of the 85°E volcanic complex at the ultraslow spreading Gakkel ridge from local earthquake tomography
title_sort seismicity and structure of the 85°e volcanic complex at the ultraslow spreading gakkel ridge from local earthquake tomography
publisher WILEY-BLACKWELL PUBLISHING
publishDate 2013
url https://epic.awi.de/id/eprint/33347/
https://hdl.handle.net/10013/epic.42998
genre Arctic Ocean
Sea ice
genre_facet Arctic Ocean
Sea ice
op_source EPIC3Geophysical Journal International, WILEY-BLACKWELL PUBLISHING, 196(1), pp. 539-551, ISSN: 0956-540X
op_relation Korger, E. and Schlindwein, V. orcid:0000-0001-5570-2753 (2013) Seismicity and structure of the 85°E volcanic complex at the ultraslow spreading Gakkel ridge from local earthquake tomography , Geophysical Journal International, 196 (1), pp. 539-551 . doi:10.1093/gji/ggt390 <https://doi.org/10.1093/gji%2Fggt390> , hdl:10013/epic.42998
op_doi https://doi.org/10.1093/gji/ggt390
container_title Geophysical Journal International
container_volume 196
container_issue 1
container_start_page 539
op_container_end_page 551
_version_ 1810430455279779840

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