Seismic interpretation and structural restoration of the Heligoland glaciotectonic thrust-fault complex : Implications for multiple deformation during (pre-)Elsterian to Warthian ice advances into the southern North Sea Basin

Despite a long history of research, the locations of former ice-margins in the North Sea Basin are still uncertain. In this study, we present new palaeogeographic reconstructions of (pre-) Elsterian and Warthian ice-margins in the southeastern North Sea Basin, which were previously unknown. The reco...

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Main Authors: Winsemann, Jutta, Koopmann, Hannes, Tanner, David C., Lutz, Rüdiger, Lang, Jörg, Brandes, Christian, Gaedicke, Christoph
Format: Article in Journal/Newspaper
Language:English
Published: London : Elsevier Ltd. 2020
Subjects:
Glaciotectonics
North Sea
Pre-Elsterian ice-margin
Retrodeformation
Tunnel valley
Warthian ice-margin
Deformation
Deposits
Faulting
Landforms
Offshore oil well production
Restoration
Sea level
Seismic waves
Seismology
Underwater construction
Ice
Dewey Decimal Classification500 | Naturwissenschaften550 | Geowissenschaften
Dewey
permafrost
Online Access:https://dx.doi.org/10.15488/10749
https://www.repo.uni-hannover.de/handle/123456789/10827
id ftdatacite:10.15488/10749
record_format openpolar
spelling ftdatacite:10.15488/10749 2023-05-15T16:37:33+02:00 Seismic interpretation and structural restoration of the Heligoland glaciotectonic thrust-fault complex : Implications for multiple deformation during (pre-)Elsterian to Warthian ice advances into the southern North Sea Basin Winsemann, Jutta Koopmann, Hannes Tanner, David C. Lutz, Rüdiger Lang, Jörg Brandes, Christian Gaedicke, Christoph 2020 https://dx.doi.org/10.15488/10749 https://www.repo.uni-hannover.de/handle/123456789/10827 en eng London : Elsevier Ltd. Creative Commons Attribution Non Commercial No Derivatives 4.0 International CC BY-NC-ND 4.0 Unported https://creativecommons.org/licenses/by-nc-nd/4.0/legalcode cc-by-nc-nd-4.0 CC-BY-NC-ND Glaciotectonics North Sea Pre-Elsterian ice-margin Retrodeformation Tunnel valley Warthian ice-margin Deformation Deposits Faulting Landforms Offshore oil well production Restoration Sea level Seismic waves Seismology Underwater construction Ice Dewey Decimal Classification500 | Naturwissenschaften550 | Geowissenschaften Other CreativeWork article 2020 ftdatacite https://doi.org/10.15488/10749 2021-11-05T12:55:41Z Despite a long history of research, the locations of former ice-margins in the North Sea Basin are still uncertain. In this study, we present new palaeogeographic reconstructions of (pre-) Elsterian and Warthian ice-margins in the southeastern North Sea Basin, which were previously unknown. The reconstructions are based on the integration of palaeo-ice flow data derived from glaciotectonic thrusts, tunnel valleys and mega-scale glacial lineations. We focus on a huge glaciotectonic thrust complex located about 10 km north of Heligoland and 50 km west of the North Frisian coast of Schleswig-Holstein (Northern Germany). Multi-channel high-resolution 2D seismic reflection data show a thrust-fault complex in the upper 300 ms TWT (ca. 240 m) of seismic data. This thrust-fault complex consists of mainly Neogene delta sediments, covers an area of 350 km2, and forms part of a large belt of glaciotectonic complexes that stretches from offshore Denmark via northern Germany to Poland. The deformation front of the Heligoland glaciotectonic complex trends approximately NNE-SSW. The total length of the glaciotectonic thrust complex is approximately 15 km. The thrust faults share a common detachment surface, located at a depth of 250–300 ms (TWT) (200–240 m) below sea level. The detachment surface most probably formed at a pronounced rheological boundary between Upper Miocene fine-grained pro-delta deposits and coarser-grained delta-front deposits, although we cannot rule out that deep permafrost in the glacier foreland played a role for the location of this detachment surface. Restored cross-sections reveal the shortening of the complex along the detachment to have been on average 23% (ranging from ca. 16%–50%). The determined ice movement direction from east-southeast to southeast suggests deformation by an ice advance from the Baltic region. The chronospatial relationship of the thrust-fault complex and adjacent northwest-southeast to northeast-southwest trending Elsterian tunnel valleys implies a pre-Elsterian (MIS 16?) age of the glaciotectonic complex. However, the age of these Elsterian tunnel valleys is poorly constrained and the glaciotectonic complex of Heligoland may also have been formed during an early Elsterian ice advance into the southeastern North Sea Basin. The glaciotectonic complex underwent further shortening and the Elsterian tunnel-valley fills that were incised into the glaciotectonic complex were partly deformed during the Saalian Drenthe and Warthe (1) ice advances. © 2019 The Authors Article in Journal/Newspaper Ice permafrost DataCite Metadata Store (German National Library of Science and Technology) Dewey ENVELOPE(-64.320,-64.320,-65.907,-65.907)
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic Glaciotectonics
North Sea
Pre-Elsterian ice-margin
Retrodeformation
Tunnel valley
Warthian ice-margin
Deformation
Deposits
Faulting
Landforms
Offshore oil well production
Restoration
Sea level
Seismic waves
Seismology
Underwater construction
Ice
Dewey Decimal Classification500 | Naturwissenschaften550 | Geowissenschaften
spellingShingle Glaciotectonics
North Sea
Pre-Elsterian ice-margin
Retrodeformation
Tunnel valley
Warthian ice-margin
Deformation
Deposits
Faulting
Landforms
Offshore oil well production
Restoration
Sea level
Seismic waves
Seismology
Underwater construction
Ice
Dewey Decimal Classification500 | Naturwissenschaften550 | Geowissenschaften
Winsemann, Jutta
Koopmann, Hannes
Tanner, David C.
Lutz, Rüdiger
Lang, Jörg
Brandes, Christian
Gaedicke, Christoph
Seismic interpretation and structural restoration of the Heligoland glaciotectonic thrust-fault complex : Implications for multiple deformation during (pre-)Elsterian to Warthian ice advances into the southern North Sea Basin
topic_facet Glaciotectonics
North Sea
Pre-Elsterian ice-margin
Retrodeformation
Tunnel valley
Warthian ice-margin
Deformation
Deposits
Faulting
Landforms
Offshore oil well production
Restoration
Sea level
Seismic waves
Seismology
Underwater construction
Ice
Dewey Decimal Classification500 | Naturwissenschaften550 | Geowissenschaften
description Despite a long history of research, the locations of former ice-margins in the North Sea Basin are still uncertain. In this study, we present new palaeogeographic reconstructions of (pre-) Elsterian and Warthian ice-margins in the southeastern North Sea Basin, which were previously unknown. The reconstructions are based on the integration of palaeo-ice flow data derived from glaciotectonic thrusts, tunnel valleys and mega-scale glacial lineations. We focus on a huge glaciotectonic thrust complex located about 10 km north of Heligoland and 50 km west of the North Frisian coast of Schleswig-Holstein (Northern Germany). Multi-channel high-resolution 2D seismic reflection data show a thrust-fault complex in the upper 300 ms TWT (ca. 240 m) of seismic data. This thrust-fault complex consists of mainly Neogene delta sediments, covers an area of 350 km2, and forms part of a large belt of glaciotectonic complexes that stretches from offshore Denmark via northern Germany to Poland. The deformation front of the Heligoland glaciotectonic complex trends approximately NNE-SSW. The total length of the glaciotectonic thrust complex is approximately 15 km. The thrust faults share a common detachment surface, located at a depth of 250–300 ms (TWT) (200–240 m) below sea level. The detachment surface most probably formed at a pronounced rheological boundary between Upper Miocene fine-grained pro-delta deposits and coarser-grained delta-front deposits, although we cannot rule out that deep permafrost in the glacier foreland played a role for the location of this detachment surface. Restored cross-sections reveal the shortening of the complex along the detachment to have been on average 23% (ranging from ca. 16%–50%). The determined ice movement direction from east-southeast to southeast suggests deformation by an ice advance from the Baltic region. The chronospatial relationship of the thrust-fault complex and adjacent northwest-southeast to northeast-southwest trending Elsterian tunnel valleys implies a pre-Elsterian (MIS 16?) age of the glaciotectonic complex. However, the age of these Elsterian tunnel valleys is poorly constrained and the glaciotectonic complex of Heligoland may also have been formed during an early Elsterian ice advance into the southeastern North Sea Basin. The glaciotectonic complex underwent further shortening and the Elsterian tunnel-valley fills that were incised into the glaciotectonic complex were partly deformed during the Saalian Drenthe and Warthe (1) ice advances. © 2019 The Authors
format Article in Journal/Newspaper
author Winsemann, Jutta
Koopmann, Hannes
Tanner, David C.
Lutz, Rüdiger
Lang, Jörg
Brandes, Christian
Gaedicke, Christoph
author_facet Winsemann, Jutta
Koopmann, Hannes
Tanner, David C.
Lutz, Rüdiger
Lang, Jörg
Brandes, Christian
Gaedicke, Christoph
author_sort Winsemann, Jutta
title Seismic interpretation and structural restoration of the Heligoland glaciotectonic thrust-fault complex : Implications for multiple deformation during (pre-)Elsterian to Warthian ice advances into the southern North Sea Basin
title_short Seismic interpretation and structural restoration of the Heligoland glaciotectonic thrust-fault complex : Implications for multiple deformation during (pre-)Elsterian to Warthian ice advances into the southern North Sea Basin
title_full Seismic interpretation and structural restoration of the Heligoland glaciotectonic thrust-fault complex : Implications for multiple deformation during (pre-)Elsterian to Warthian ice advances into the southern North Sea Basin
title_fullStr Seismic interpretation and structural restoration of the Heligoland glaciotectonic thrust-fault complex : Implications for multiple deformation during (pre-)Elsterian to Warthian ice advances into the southern North Sea Basin
title_full_unstemmed Seismic interpretation and structural restoration of the Heligoland glaciotectonic thrust-fault complex : Implications for multiple deformation during (pre-)Elsterian to Warthian ice advances into the southern North Sea Basin
title_sort seismic interpretation and structural restoration of the heligoland glaciotectonic thrust-fault complex : implications for multiple deformation during (pre-)elsterian to warthian ice advances into the southern north sea basin
publisher London : Elsevier Ltd.
publishDate 2020
url https://dx.doi.org/10.15488/10749
https://www.repo.uni-hannover.de/handle/123456789/10827
long_lat ENVELOPE(-64.320,-64.320,-65.907,-65.907)
geographic Dewey
geographic_facet Dewey
genre Ice
permafrost
genre_facet Ice
permafrost
op_rights Creative Commons Attribution Non Commercial No Derivatives 4.0 International
CC BY-NC-ND 4.0 Unported
https://creativecommons.org/licenses/by-nc-nd/4.0/legalcode
cc-by-nc-nd-4.0
op_rightsnorm CC-BY-NC-ND
op_doi https://doi.org/10.15488/10749
_version_ 1766027852608700416

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