High-resolution body wave tomography beneath the SVEKALAPKO array — II. Anomalous upper mantle structure beneath the central Baltic Shield

A number of different geodynamic models have been proposed to explain the early tectonic evolution of the Baltic Shield. To provide additional geophysical constraints on these models, we performed a teleseismic tomography traveltime inversion for the central part of the Baltic Shield. The SVEKALAPKO...

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Main Authors: Sandoval, Senén, Kissling, Edi, Ansorge, Joerg
Language:English
Published: 2017
Subjects:
Fennoscandia
Fennoscandian
Online Access:http://doc.rero.ch/record/290561/files/157-1-200.pdf
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record_format openpolar
spelling ftreroch:oai:doc.rero.ch:290561 2023-05-15T16:12:05+02:00 High-resolution body wave tomography beneath the SVEKALAPKO array — II. Anomalous upper mantle structure beneath the central Baltic Shield Sandoval, Senén Kissling, Edi Ansorge, Joerg 2017-08-02T19:32:53Z http://doc.rero.ch/record/290561/files/157-1-200.pdf eng eng http://doc.rero.ch/record/290561/files/157-1-200.pdf 2017 ftreroch 2023-02-16T17:27:45Z A number of different geodynamic models have been proposed to explain the early tectonic evolution of the Baltic Shield. To provide additional geophysical constraints on these models, we performed a teleseismic tomography traveltime inversion for the central part of the Baltic Shield. The SVEKALAPKO project is focused on the investigation of the lithosphere—asthenosphere structure down to 400 km depth under central Fennoscandia (Baltic Shield). A total of 143 stations were deployed including 15 permanent stations from the Finnish seismic network. The temporal network was composed of 40 broad-band and 88 short-period instruments distributed in a rectangular array of 1000 km by 900 km from 1998 August to 1999 May. The results are based on a non-linear teleseismic tomography algorithm. They reveal significant P-velocity variations (up to 4 per cent) throughout the SVEKALAPKO array. The most prominent feature is a positive anomaly that can be followed down to 250 km depth beneath the centre of the array. We interpret this anomaly as the signature of the tectosphere (Jordan 1978) beneath the Fennoscandian Shield. It correlates spatially with an anomalous high-velocity lower crust. Other shallow (crustal) anomalies can be correlated with magmatic events surrounding this nucleus of high velocity. Comparison of images before and after correction by crustal structure proves that this methodology yields solid and coherent tomographic results. Further observations of relative P traveltime residuals from six teleseismic events with different azimuths show delay variations of ±2.0 s between stations located in the North German basin and stations on the Svecofennian Shield Other/Unknown Material Fennoscandia Fennoscandian RERO DOC Digital Library
institution Open Polar
collection RERO DOC Digital Library
op_collection_id ftreroch
language English
description A number of different geodynamic models have been proposed to explain the early tectonic evolution of the Baltic Shield. To provide additional geophysical constraints on these models, we performed a teleseismic tomography traveltime inversion for the central part of the Baltic Shield. The SVEKALAPKO project is focused on the investigation of the lithosphere—asthenosphere structure down to 400 km depth under central Fennoscandia (Baltic Shield). A total of 143 stations were deployed including 15 permanent stations from the Finnish seismic network. The temporal network was composed of 40 broad-band and 88 short-period instruments distributed in a rectangular array of 1000 km by 900 km from 1998 August to 1999 May. The results are based on a non-linear teleseismic tomography algorithm. They reveal significant P-velocity variations (up to 4 per cent) throughout the SVEKALAPKO array. The most prominent feature is a positive anomaly that can be followed down to 250 km depth beneath the centre of the array. We interpret this anomaly as the signature of the tectosphere (Jordan 1978) beneath the Fennoscandian Shield. It correlates spatially with an anomalous high-velocity lower crust. Other shallow (crustal) anomalies can be correlated with magmatic events surrounding this nucleus of high velocity. Comparison of images before and after correction by crustal structure proves that this methodology yields solid and coherent tomographic results. Further observations of relative P traveltime residuals from six teleseismic events with different azimuths show delay variations of ±2.0 s between stations located in the North German basin and stations on the Svecofennian Shield
author Sandoval, Senén
Kissling, Edi
Ansorge, Joerg
spellingShingle Sandoval, Senén
Kissling, Edi
Ansorge, Joerg
High-resolution body wave tomography beneath the SVEKALAPKO array — II. Anomalous upper mantle structure beneath the central Baltic Shield
author_facet Sandoval, Senén
Kissling, Edi
Ansorge, Joerg
author_sort Sandoval, Senén
title High-resolution body wave tomography beneath the SVEKALAPKO array — II. Anomalous upper mantle structure beneath the central Baltic Shield
title_short High-resolution body wave tomography beneath the SVEKALAPKO array — II. Anomalous upper mantle structure beneath the central Baltic Shield
title_full High-resolution body wave tomography beneath the SVEKALAPKO array — II. Anomalous upper mantle structure beneath the central Baltic Shield
title_fullStr High-resolution body wave tomography beneath the SVEKALAPKO array — II. Anomalous upper mantle structure beneath the central Baltic Shield
title_full_unstemmed High-resolution body wave tomography beneath the SVEKALAPKO array — II. Anomalous upper mantle structure beneath the central Baltic Shield
title_sort high-resolution body wave tomography beneath the svekalapko array — ii. anomalous upper mantle structure beneath the central baltic shield
publishDate 2017
url http://doc.rero.ch/record/290561/files/157-1-200.pdf
genre Fennoscandia
Fennoscandian
genre_facet Fennoscandia
Fennoscandian
op_relation http://doc.rero.ch/record/290561/files/157-1-200.pdf
_version_ 1765997323494621184

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