Seismic imaging of basalts at Glyvursnes, Faroe Islands: hunting for future exploration methods in basalt covered areas

Obtaining good sub-basalt seismic images is known to be problematic (Ziolkowski et al., 2003; White et al., 2003). Although the properties of basalts are quite different from those of most sediments Planke (1999) suggested that seismic energy is transmitted through basalt in much the same way as thr...

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Bibliographic Details
Main Authors: Petersen, U. K., Andersen, M. S., White, R. S., Group, SeiFaBa
Format: Article in Journal/Newspaper
Language:English
Published: 2006
Subjects:
02 - Geodynamics
Geophysics and Tectonics
Archer
Faroe Islands
Glyvursnes
Petersen
Tórshavn
Vestmanna
Faroes
Online Access:http://eprints.esc.cam.ac.uk/589/
http://eprints.esc.cam.ac.uk/589/1/Petersen,Andersen,WhiteSeiFaBaFirstBreak24%282006%29.pdf
id ftucambridgeesc:oai:eprints.esc.cam.ac.uk:589
record_format openpolar
institution Open Polar
collection University of Cambridge, Department of Earth Sciences: ESC Publications
op_collection_id ftucambridgeesc
language English
topic 02 - Geodynamics
Geophysics and Tectonics
spellingShingle 02 - Geodynamics
Geophysics and Tectonics
Petersen, U. K.
Andersen, M. S.
White, R. S.
Group, SeiFaBa
Seismic imaging of basalts at Glyvursnes, Faroe Islands: hunting for future exploration methods in basalt covered areas
topic_facet 02 - Geodynamics
Geophysics and Tectonics
description Obtaining good sub-basalt seismic images is known to be problematic (Ziolkowski et al., 2003; White et al., 2003). Although the properties of basalts are quite different from those of most sediments Planke (1999) suggested that seismic energy is transmitted through basalt in much the same way as through sediments so the problem of seismic imaging through basalts amounts to the conventional task of separating primary energy from noise, even though the noise including multiples may be considerable. The physical properties of basalt are markedly different from those of the overlying and underlying sediments. Strong reflections due to high impedance contrasts at the top (and bottom) of the basalts leads to significant loss of transmitted seismic energy (Fruehn et al., 2001). Large variations of intrinsic properties along vertical cross-sections of basalt flows have been demonstrated and quantified by analyses of well-logs from wells penetrating successions of flood basalts (Planke, 1994) and from surface mapping (e.g., Self et al., 1998; Thordarson and Self, 1998). This causes the stratigraphic filtering effects of basalt successions to be more severe than that of sediments (Maresh and White, 2005; Shaw et al., 2004). Lateral variations in the thicknesses of sediments interbedded between basalt flows and in the thickness of the upper porous part of basalt flows have been demonstrated by detailed investigations in exposed flood basalts (Self et al., 1998; Thordarson and Self, 1998). The roughness of inter-beds causes 3D scattering of seismic energy, as demonstrated in studies comparing stratigraphic filtering and the effective quality factor, Q, of basalt successions (e.g., White et al., 2005; Shaw et al., 2005; Shaw et al., 2004). Taking these problems into consideration, experiments have been performed in the last decade using: longer offsets (both synthetic aperture, and longer streamers) to improve the signal-to-noise ratio and NMO resolution and to allow processing of post-critical reflections; larger energy sources to increase the general energy level; low-frequency tuning to allow for better penetration through basalts (characterised by low Q values); and shot-by-shot recording of the source signature and combination of OBS and seismic reflection Seismic imaging of basalts at Glyvursnes, Faroe Islands: hunting for future exploration methods in basalt covered areas U.K Petersen,1* M.S. Andersen,1,2 R.S. White,3 and SeiFaBa Group data to improve velocity estimates. In one experiment all of the above-mentioned techniques were applied, providing considerable improvements in sub-basalt imaging relative to previous work (Spitzer and White, 2005; White et al., 2005). An other parameter for seismic acquisition is the orientation of the seismic line relative to the flow direction of the basalt flows (Reshef et al., 2003). However, poor effective transmission of seismic energy, scattering, strong multiple reflections, multiple mode conversions, and low-pass filtering of the energy that propagates through a layer of stacked basalt flows are still hampering routine imaging for petroleum exploration in sediment basins covered by basalts (Maresh and White, 2005). This was demonstrated by the UK164/07- 01 well where the base of a basaltic succession was found 700 m deeper than anticipated from interpretation of seismic reflection data (Archer et al., 2005). In order to obtain imaging quality and detail comparable to those obtained in other sedimentary basins, further improvements are necessary. The SeiFaBa Project (Seismic and petrophysical properties of Faroes Basalts), sponsored by the Sindri group, aims to create data-derived models for the propagation of seismic energy in basalt to provide a basis for better sub-basalt imaging. The project comprises drilling of the Glyvursnes-1 wells near Tórshavn on the Faroe Islands (Figure 1), core analysis for intrinsic physical parameters, recording of VSP and offset-VSP data in the Glyvursnes-1 and Vestmanna-1 wells, and surface seismic wide-angle and reflection data around the Glyvursnes- 1 and Vestmanna-1 wells (Japsen et al., 2005). At both sites these investigations of the elastic properties of basalts are made at a number of different scales. In this paper we present surface seismic reflection data from SeiFaBa experiment at Glyvursnes in the summer of 2003 illustrating that basalts can be imaged effectively using relatively small energy sources (250 g dynamite; 2.6-litre airgun cluster) and that stratigraphic details of flood-basalt constructions can be identified and characterized based on analysis of seismic data and then correlated to well data. We also demonstrate how different acquisition and processing techniques influence the effective frequency content of seismic reflection data and thus the effective propagation through and imaging of the basalts.
format Article in Journal/Newspaper
author Petersen, U. K.
Andersen, M. S.
White, R. S.
Group, SeiFaBa
author_facet Petersen, U. K.
Andersen, M. S.
White, R. S.
Group, SeiFaBa
author_sort Petersen, U. K.
title Seismic imaging of basalts at Glyvursnes, Faroe Islands: hunting for future exploration methods in basalt covered areas
title_short Seismic imaging of basalts at Glyvursnes, Faroe Islands: hunting for future exploration methods in basalt covered areas
title_full Seismic imaging of basalts at Glyvursnes, Faroe Islands: hunting for future exploration methods in basalt covered areas
title_fullStr Seismic imaging of basalts at Glyvursnes, Faroe Islands: hunting for future exploration methods in basalt covered areas
title_full_unstemmed Seismic imaging of basalts at Glyvursnes, Faroe Islands: hunting for future exploration methods in basalt covered areas
title_sort seismic imaging of basalts at glyvursnes, faroe islands: hunting for future exploration methods in basalt covered areas
publishDate 2006
url http://eprints.esc.cam.ac.uk/589/
http://eprints.esc.cam.ac.uk/589/1/Petersen,Andersen,WhiteSeiFaBaFirstBreak24%282006%29.pdf
long_lat ENVELOPE(162.867,162.867,-76.850,-76.850)
ENVELOPE(-6.735,-6.735,61.981,61.981)
ENVELOPE(-101.250,-101.250,-71.917,-71.917)
ENVELOPE(-6.772,-6.772,62.010,62.010)
ENVELOPE(-7.173,-7.173,62.154,62.154)
geographic Archer
Faroe Islands
Glyvursnes
Petersen
Tórshavn
Vestmanna
geographic_facet Archer
Faroe Islands
Glyvursnes
Petersen
Tórshavn
Vestmanna
genre Faroe Islands
Faroes
Vestmanna
genre_facet Faroe Islands
Faroes
Vestmanna
op_relation http://eprints.esc.cam.ac.uk/589/1/Petersen,Andersen,WhiteSeiFaBaFirstBreak24%282006%29.pdf
Petersen, U. K. and Andersen, M. S. and White, R. S. and Group, SeiFaBa (2006) Seismic imaging of basalts at Glyvursnes, Faroe Islands: hunting for future exploration methods in basalt covered areas. First Break, 24. pp. 45-52.
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spelling ftucambridgeesc:oai:eprints.esc.cam.ac.uk:589 2023-05-15T16:10:54+02:00 Seismic imaging of basalts at Glyvursnes, Faroe Islands: hunting for future exploration methods in basalt covered areas Petersen, U. K. Andersen, M. S. White, R. S. Group, SeiFaBa 2006 application/pdf http://eprints.esc.cam.ac.uk/589/ http://eprints.esc.cam.ac.uk/589/1/Petersen,Andersen,WhiteSeiFaBaFirstBreak24%282006%29.pdf en eng http://eprints.esc.cam.ac.uk/589/1/Petersen,Andersen,WhiteSeiFaBaFirstBreak24%282006%29.pdf Petersen, U. K. and Andersen, M. S. and White, R. S. and Group, SeiFaBa (2006) Seismic imaging of basalts at Glyvursnes, Faroe Islands: hunting for future exploration methods in basalt covered areas. First Break, 24. pp. 45-52. 02 - Geodynamics Geophysics and Tectonics Article PeerReviewed 2006 ftucambridgeesc 2020-08-27T18:08:35Z Obtaining good sub-basalt seismic images is known to be problematic (Ziolkowski et al., 2003; White et al., 2003). Although the properties of basalts are quite different from those of most sediments Planke (1999) suggested that seismic energy is transmitted through basalt in much the same way as through sediments so the problem of seismic imaging through basalts amounts to the conventional task of separating primary energy from noise, even though the noise including multiples may be considerable. The physical properties of basalt are markedly different from those of the overlying and underlying sediments. Strong reflections due to high impedance contrasts at the top (and bottom) of the basalts leads to significant loss of transmitted seismic energy (Fruehn et al., 2001). Large variations of intrinsic properties along vertical cross-sections of basalt flows have been demonstrated and quantified by analyses of well-logs from wells penetrating successions of flood basalts (Planke, 1994) and from surface mapping (e.g., Self et al., 1998; Thordarson and Self, 1998). This causes the stratigraphic filtering effects of basalt successions to be more severe than that of sediments (Maresh and White, 2005; Shaw et al., 2004). Lateral variations in the thicknesses of sediments interbedded between basalt flows and in the thickness of the upper porous part of basalt flows have been demonstrated by detailed investigations in exposed flood basalts (Self et al., 1998; Thordarson and Self, 1998). The roughness of inter-beds causes 3D scattering of seismic energy, as demonstrated in studies comparing stratigraphic filtering and the effective quality factor, Q, of basalt successions (e.g., White et al., 2005; Shaw et al., 2005; Shaw et al., 2004). Taking these problems into consideration, experiments have been performed in the last decade using: longer offsets (both synthetic aperture, and longer streamers) to improve the signal-to-noise ratio and NMO resolution and to allow processing of post-critical reflections; larger energy sources to increase the general energy level; low-frequency tuning to allow for better penetration through basalts (characterised by low Q values); and shot-by-shot recording of the source signature and combination of OBS and seismic reflection Seismic imaging of basalts at Glyvursnes, Faroe Islands: hunting for future exploration methods in basalt covered areas U.K Petersen,1* M.S. Andersen,1,2 R.S. White,3 and SeiFaBa Group data to improve velocity estimates. In one experiment all of the above-mentioned techniques were applied, providing considerable improvements in sub-basalt imaging relative to previous work (Spitzer and White, 2005; White et al., 2005). An other parameter for seismic acquisition is the orientation of the seismic line relative to the flow direction of the basalt flows (Reshef et al., 2003). However, poor effective transmission of seismic energy, scattering, strong multiple reflections, multiple mode conversions, and low-pass filtering of the energy that propagates through a layer of stacked basalt flows are still hampering routine imaging for petroleum exploration in sediment basins covered by basalts (Maresh and White, 2005). This was demonstrated by the UK164/07- 01 well where the base of a basaltic succession was found 700 m deeper than anticipated from interpretation of seismic reflection data (Archer et al., 2005). In order to obtain imaging quality and detail comparable to those obtained in other sedimentary basins, further improvements are necessary. The SeiFaBa Project (Seismic and petrophysical properties of Faroes Basalts), sponsored by the Sindri group, aims to create data-derived models for the propagation of seismic energy in basalt to provide a basis for better sub-basalt imaging. The project comprises drilling of the Glyvursnes-1 wells near Tórshavn on the Faroe Islands (Figure 1), core analysis for intrinsic physical parameters, recording of VSP and offset-VSP data in the Glyvursnes-1 and Vestmanna-1 wells, and surface seismic wide-angle and reflection data around the Glyvursnes- 1 and Vestmanna-1 wells (Japsen et al., 2005). At both sites these investigations of the elastic properties of basalts are made at a number of different scales. In this paper we present surface seismic reflection data from SeiFaBa experiment at Glyvursnes in the summer of 2003 illustrating that basalts can be imaged effectively using relatively small energy sources (250 g dynamite; 2.6-litre airgun cluster) and that stratigraphic details of flood-basalt constructions can be identified and characterized based on analysis of seismic data and then correlated to well data. We also demonstrate how different acquisition and processing techniques influence the effective frequency content of seismic reflection data and thus the effective propagation through and imaging of the basalts. Article in Journal/Newspaper Faroe Islands Faroes Vestmanna University of Cambridge, Department of Earth Sciences: ESC Publications Archer ENVELOPE(162.867,162.867,-76.850,-76.850) Faroe Islands Glyvursnes ENVELOPE(-6.735,-6.735,61.981,61.981) Petersen ENVELOPE(-101.250,-101.250,-71.917,-71.917) Tórshavn ENVELOPE(-6.772,-6.772,62.010,62.010) Vestmanna ENVELOPE(-7.173,-7.173,62.154,62.154)

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