High-resolution shear-wave seismic reflection as a tool to image near-surface subrosion structures – a case study in Bad Frankenhausen, Germany
Subrosion is the subsurface leaching of soluble rocks that results in the formation of depression and collapse structures. This global phenomenon is a geohazard in urban areas. To study near-surface subrosion structures, four shear-wave seismic reflection profiles, with a total length of ca. 332 m,...
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doaj-6e9a96d51133428c99bcd08345030dcf2020-11-25T02:30:41ZengCopernicus PublicationsSolid Earth1869-95101869-95292016-10-01751491150810.5194/se-7-1491-2016High-resolution shear-wave seismic reflection as a tool to image near-surface subrosion structures – a case study in Bad Frankenhausen, GermanyS. H. Wadas0U. Polom1C. M. Krawczyk2Leibniz Institute for Applied Geophysics, Stilleweg 2, 30655 Hanover, GermanyLeibniz Institute for Applied Geophysics, Stilleweg 2, 30655 Hanover, GermanyLeibniz Institute for Applied Geophysics, Stilleweg 2, 30655 Hanover, GermanySubrosion is the subsurface leaching of soluble rocks that results in the formation of depression and collapse structures. This global phenomenon is a geohazard in urban areas. To study near-surface subrosion structures, four shear-wave seismic reflection profiles, with a total length of ca. 332 m, were carried out around the famous leaning church tower of Bad Frankenhausen in northern Thuringia, Germany, which shows an inclination of 4.93° from the vertical. Most of the geological underground of Thuringia is characterized by soluble Permian deposits, and the Kyffhäuser Southern Margin Fault is assumed to be a main pathway for water to leach the evaporite. The seismic profiles were acquired with the horizontal micro-vibrator ELVIS, developed at Leibniz Institute for Applied Geophysics (LIAG), and a 72 m long landstreamer equipped with 72 horizontal geophones. The high-resolution seismic sections show subrosion-induced structures to a depth of ca. 100 m and reveal five features associated with the leaching of Permian deposits: (1) lateral and vertical varying reflection patterns caused by strongly heterogeneous strata, (2) discontinuous reflectors, small offsets, and faults, which show the underground is heavily fractured, (3) formation of depression structures in the near-surface, (4) diffractions in the unmigrated seismic sections that indicate increased scattering of the seismic waves, and (5) varying seismic velocities and low-velocity zones that are presumably caused by fractures and upward-migrating cavities. A previously undiscovered southward-dipping listric normal fault was also found, to the north of the church. It probably serves as a pathway for water to leach the Permian formations below the church and causes the tilting of the church tower. This case study shows the potential of horizontal shear-wave seismic reflection to image near-surface subrosion structures in an urban environment with a horizontal resolution of less than 1 m in the uppermost 10–15 m.http://www.solid-earth.net/7/1491/2016/se-7-1491-2016.pdf |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
S. H. Wadas U. Polom C. M. Krawczyk |
spellingShingle |
S. H. Wadas U. Polom C. M. Krawczyk High-resolution shear-wave seismic reflection as a tool to image near-surface subrosion structures – a case study in Bad Frankenhausen, Germany Solid Earth |
author_facet |
S. H. Wadas U. Polom C. M. Krawczyk |
author_sort |
S. H. Wadas |
title |
High-resolution shear-wave seismic reflection as a tool to image near-surface subrosion structures – a case study in Bad Frankenhausen, Germany |
title_short |
High-resolution shear-wave seismic reflection as a tool to image near-surface subrosion structures – a case study in Bad Frankenhausen, Germany |
title_full |
High-resolution shear-wave seismic reflection as a tool to image near-surface subrosion structures – a case study in Bad Frankenhausen, Germany |
title_fullStr |
High-resolution shear-wave seismic reflection as a tool to image near-surface subrosion structures – a case study in Bad Frankenhausen, Germany |
title_full_unstemmed |
High-resolution shear-wave seismic reflection as a tool to image near-surface subrosion structures – a case study in Bad Frankenhausen, Germany |
title_sort |
high-resolution shear-wave seismic reflection as a tool to image near-surface subrosion structures – a case study in bad frankenhausen, germany |
publisher |
Copernicus Publications |
series |
Solid Earth |
issn |
1869-9510 1869-9529 |
publishDate |
2016-10-01 |
description |
Subrosion is the subsurface leaching of soluble rocks that results in the
formation of depression and collapse structures. This global phenomenon is a
geohazard in urban areas. To study near-surface subrosion structures, four
shear-wave seismic reflection profiles, with a total length of ca. 332 m,
were carried out around the famous leaning church tower of Bad Frankenhausen
in northern Thuringia, Germany, which shows an inclination of 4.93°
from the vertical. Most of the geological underground of Thuringia is
characterized by soluble Permian deposits, and the Kyffhäuser Southern
Margin Fault is assumed to be a main pathway for water to leach the
evaporite. The seismic profiles were acquired with the horizontal
micro-vibrator ELVIS, developed at Leibniz Institute for Applied Geophysics
(LIAG), and a 72 m long landstreamer equipped with 72 horizontal
geophones. The high-resolution seismic sections show subrosion-induced
structures to a depth of ca. 100 m and reveal five features associated with
the leaching of Permian deposits: (1) lateral and vertical varying reflection
patterns caused by strongly heterogeneous strata, (2) discontinuous
reflectors, small offsets, and faults, which show the underground is heavily
fractured, (3) formation of depression structures in the near-surface,
(4) diffractions in the unmigrated seismic sections that indicate increased
scattering of the seismic waves, and (5) varying seismic velocities and
low-velocity zones that are presumably caused by fractures and
upward-migrating cavities. A previously undiscovered southward-dipping
listric normal fault was also found, to the north of the church. It probably
serves as a pathway for water to leach the Permian formations below the
church and causes the tilting of the church tower. This case study shows the
potential of horizontal shear-wave seismic reflection to image near-surface
subrosion structures in an urban environment with a horizontal resolution of
less than 1 m in the uppermost 10–15 m. |
url |
http://www.solid-earth.net/7/1491/2016/se-7-1491-2016.pdf |
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