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Passive seismic imaging of the Lower Palaeozoic in the Sudret area of Gotland, Sweden

Wang, Zhihui ; Juhlin, Christopher ; Hedin, Peter ; Erlström, Mikael LU and Sopher, Daniel (2025) In Solid Earth 16(11). p.1421-1436
Abstract

Passive seismic data were acquired together with active seismic data along a 2.8 km long profile in the Sudret area of Gotland, Sweden, as part of a feasibility study for storage of CO2 below the Baltic Sea. Seismic interferometry using cross-correlation and cross-coherence was employed on the passive seismic data. Cross-correlation was used to retrieve virtual shot gathers containing mainly surface waves, while cross-coherence was used to retrieve mainly seismic reflections. Inversion for shear wave velocity and CDP processing of the passive data result in velocity profiles and images that correlate well with borehole data, synthetic seismograms and active seismic data acquired at the site. Interpretations of the passive... (More)

Passive seismic data were acquired together with active seismic data along a 2.8 km long profile in the Sudret area of Gotland, Sweden, as part of a feasibility study for storage of CO2 below the Baltic Sea. Seismic interferometry using cross-correlation and cross-coherence was employed on the passive seismic data. Cross-correlation was used to retrieve virtual shot gathers containing mainly surface waves, while cross-coherence was used to retrieve mainly seismic reflections. Inversion for shear wave velocity and CDP processing of the passive data result in velocity profiles and images that correlate well with borehole data, synthetic seismograms and active seismic data acquired at the site. Interpretations of the passive surface wave and body wave results provide geological information which complement the active data results, the surface waves providing S-wave velocity information and the body waves providing an image that may have better signal quality at deeper levels. Results from the active seismic and passive seismic data correlate well and there is no indication of any large-scale faults in the area. Furthermore, analysis of the frequency and direction of the ambient noise using power spectral density and beam forming show that ocean waves and human activity around the island of Gotland make the Sudret area an ideal location for passive imaging through ambient noise interferometry. Our results illustrate that passive seismic imaging can be an important complement to active seismic data for structural studies of the subsurface with respect to CO2 storage and monitoring in the Gotland area, Sweden, and perhaps elsewhere.

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organization
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type
Contribution to journal
publication status
published
subject
in
Solid Earth
volume
16
issue
11
pages
16 pages
publisher
Copernicus GmbH
external identifiers
  • scopus:105021870762
ISSN
1869-9510
DOI
10.5194/se-16-1421-2025
language
English
LU publication?
yes
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Publisher Copyright: © 2025 Zhihui Wang et al.
id
7fde9851-be40-4517-90ea-d5e85c475fc3
date added to LUP
2026-01-22 10:41:43
date last changed
2026-01-22 13:55:59
@article{7fde9851-be40-4517-90ea-d5e85c475fc3,
  abstract     = {{<p>Passive seismic data were acquired together with active seismic data along a 2.8 km long profile in the Sudret area of Gotland, Sweden, as part of a feasibility study for storage of CO<sub>2</sub> below the Baltic Sea. Seismic interferometry using cross-correlation and cross-coherence was employed on the passive seismic data. Cross-correlation was used to retrieve virtual shot gathers containing mainly surface waves, while cross-coherence was used to retrieve mainly seismic reflections. Inversion for shear wave velocity and CDP processing of the passive data result in velocity profiles and images that correlate well with borehole data, synthetic seismograms and active seismic data acquired at the site. Interpretations of the passive surface wave and body wave results provide geological information which complement the active data results, the surface waves providing S-wave velocity information and the body waves providing an image that may have better signal quality at deeper levels. Results from the active seismic and passive seismic data correlate well and there is no indication of any large-scale faults in the area. Furthermore, analysis of the frequency and direction of the ambient noise using power spectral density and beam forming show that ocean waves and human activity around the island of Gotland make the Sudret area an ideal location for passive imaging through ambient noise interferometry. Our results illustrate that passive seismic imaging can be an important complement to active seismic data for structural studies of the subsurface with respect to CO<sub>2</sub> storage and monitoring in the Gotland area, Sweden, and perhaps elsewhere.</p>}},
  author       = {{Wang, Zhihui and Juhlin, Christopher and Hedin, Peter and Erlström, Mikael and Sopher, Daniel}},
  issn         = {{1869-9510}},
  language     = {{eng}},
  month        = {{11}},
  number       = {{11}},
  pages        = {{1421--1436}},
  publisher    = {{Copernicus GmbH}},
  series       = {{Solid Earth}},
  title        = {{Passive seismic imaging of the Lower Palaeozoic in the Sudret area of Gotland, Sweden}},
  url          = {{http://dx.doi.org/10.5194/se-16-1421-2025}},
  doi          = {{10.5194/se-16-1421-2025}},
  volume       = {{16}},
  year         = {{2025}},
}