MONA LISA - Deep seismic investigations of the lithosphere in the southeastern North Sea

T. Abramovitz; A. Berthelsen; F. Schjøth; H. Thybo; N. Balling; L. Nielsen; E. R. Flueh; S. Hübinger; Timothy Reston; L. B. Pedersen; J. Schmidt; R. W. England; R. W. Hobbs; P. K H Maguire

doi:10.1016/S0040-1951(96)00111-4

MONA LISA - Deep seismic investigations of the lithosphere in the southeastern North Sea

T. Abramovitz, A. Berthelsen, F. Schjøth, H. Thybo^*, N. Balling, L. Nielsen, E. R. Flueh, S. Hübinger, Timothy Reston, L. B. Pedersen, J. Schmidt, R. W. England, R. W. Hobbs, P. K H Maguire

^*Corresponding author for this work

Earth and Environmental Sciences

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Abstract

The MONA LISA collaborative project has collected 1112 km of seismic normal-incidence reflection data (recorded to 26 s) and wide-angle data from 26 onshore and 2 offshore locations along 4 profiles in the southeastern North Sea. The seismic data clearly image structures in the crust and uppermost mantle that may be related to Caledonian collision and Late Palaeozoic to Mesozoic rifting and basin formation. For the first time, dipping and subhorizontal reflections from the mantle have been observed to 24 s twt in seismic normal-incidence reflection sections. Strong sub-horizontal reflections are observed on two perpendicular profiles at c. 21 s twt, which is near the base of the lithosphere. These deep reflections are sharper than expected from a thermal-rheological transition suggesting that they are generated at lithological or tectonic interfaces. The Moho is reflective along all four profiles. Particularly strong and sharp normal-incidence and wide-angle reflections were recorded from the Moho south of the Caledonian Deformation Front. The normal-incidence reflection sections show unusually low intra-crustal reflectivity. Lower crustal, subhorizontal reflectivity is only observed west of the Central Graben and in a short profile segment at the base of the interpreted Caledonian Deformation Front. The crustal suture between Avalonia and Baltica is interpreted to be south- to west-dipping. SSW- and N-dipping reflections to 20 s twt are observed from the uppermost mantle. Two models of Tornquist Sea subduction may explain these events: either southward subduction and later extensional reactivation or northward subduction with later extension along a SSW-dipping shear zone. The crust is c. 5 km thinner below the Central Graben than below the surrounding parts of the Mid North Sea-Ringkøbing-Fyn High. The lower crust is reflective on the western flank of the Central Graben. East-dipping reflections from the lower crust and the upper mantle to the east of the graben may indicate a component of simple shear in the evolution of the rift structure.

Original language	English
Pages (from-to)	1-19
Number of pages	19
Journal	Tectonophysics
Volume	269
Issue number	1-2
DOIs	https://doi.org/10.1016/S0040-1951(96)00111-4
Publication status	Published - 30 Jan 1997

Keywords

Caledonian Orogeny
Central Graben, North Sea
Deep seismic sounding
Suture zones
Upper mantle

ASJC Scopus subject areas

Earth-Surface Processes
Geophysics

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10.1016/S0040-1951(96)00111-4

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Abramovitz, T., Berthelsen, A., Schjøth, F., Thybo, H., Balling, N., Nielsen, L., Flueh, E. R., Hübinger, S., Reston, T., Pedersen, L. B., Schmidt, J., England, R. W., Hobbs, R. W., & Maguire, P. K. H. (1997). MONA LISA - Deep seismic investigations of the lithosphere in the southeastern North Sea. Tectonophysics, 269(1-2), 1-19. https://doi.org/10.1016/S0040-1951(96)00111-4

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abstract = "The MONA LISA collaborative project has collected 1112 km of seismic normal-incidence reflection data (recorded to 26 s) and wide-angle data from 26 onshore and 2 offshore locations along 4 profiles in the southeastern North Sea. The seismic data clearly image structures in the crust and uppermost mantle that may be related to Caledonian collision and Late Palaeozoic to Mesozoic rifting and basin formation. For the first time, dipping and subhorizontal reflections from the mantle have been observed to 24 s twt in seismic normal-incidence reflection sections. Strong sub-horizontal reflections are observed on two perpendicular profiles at c. 21 s twt, which is near the base of the lithosphere. These deep reflections are sharper than expected from a thermal-rheological transition suggesting that they are generated at lithological or tectonic interfaces. The Moho is reflective along all four profiles. Particularly strong and sharp normal-incidence and wide-angle reflections were recorded from the Moho south of the Caledonian Deformation Front. The normal-incidence reflection sections show unusually low intra-crustal reflectivity. Lower crustal, subhorizontal reflectivity is only observed west of the Central Graben and in a short profile segment at the base of the interpreted Caledonian Deformation Front. The crustal suture between Avalonia and Baltica is interpreted to be south- to west-dipping. SSW- and N-dipping reflections to 20 s twt are observed from the uppermost mantle. Two models of Tornquist Sea subduction may explain these events: either southward subduction and later extensional reactivation or northward subduction with later extension along a SSW-dipping shear zone. The crust is c. 5 km thinner below the Central Graben than below the surrounding parts of the Mid North Sea-Ringk{\o}bing-Fyn High. The lower crust is reflective on the western flank of the Central Graben. East-dipping reflections from the lower crust and the upper mantle to the east of the graben may indicate a component of simple shear in the evolution of the rift structure.",

keywords = "Caledonian Orogeny, Central Graben, North Sea, Deep seismic sounding, Suture zones, Upper mantle",

author = "T. Abramovitz and A. Berthelsen and F. Schj{\o}th and H. Thybo and N. Balling and L. Nielsen and Flueh, {E. R.} and S. H{\"u}binger and Timothy Reston and Pedersen, {L. B.} and J. Schmidt and England, {R. W.} and Hobbs, {R. W.} and Maguire, {P. K H}",

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AU - Abramovitz, T.

AU - Berthelsen, A.

AU - Schjøth, F.

AU - Thybo, H.

AU - Balling, N.

AU - Nielsen, L.

AU - Flueh, E. R.

AU - Hübinger, S.

AU - Reston, Timothy

AU - Pedersen, L. B.

AU - Schmidt, J.

AU - England, R. W.

AU - Hobbs, R. W.

AU - Maguire, P. K H

PY - 1997/1/30

Y1 - 1997/1/30

N2 - The MONA LISA collaborative project has collected 1112 km of seismic normal-incidence reflection data (recorded to 26 s) and wide-angle data from 26 onshore and 2 offshore locations along 4 profiles in the southeastern North Sea. The seismic data clearly image structures in the crust and uppermost mantle that may be related to Caledonian collision and Late Palaeozoic to Mesozoic rifting and basin formation. For the first time, dipping and subhorizontal reflections from the mantle have been observed to 24 s twt in seismic normal-incidence reflection sections. Strong sub-horizontal reflections are observed on two perpendicular profiles at c. 21 s twt, which is near the base of the lithosphere. These deep reflections are sharper than expected from a thermal-rheological transition suggesting that they are generated at lithological or tectonic interfaces. The Moho is reflective along all four profiles. Particularly strong and sharp normal-incidence and wide-angle reflections were recorded from the Moho south of the Caledonian Deformation Front. The normal-incidence reflection sections show unusually low intra-crustal reflectivity. Lower crustal, subhorizontal reflectivity is only observed west of the Central Graben and in a short profile segment at the base of the interpreted Caledonian Deformation Front. The crustal suture between Avalonia and Baltica is interpreted to be south- to west-dipping. SSW- and N-dipping reflections to 20 s twt are observed from the uppermost mantle. Two models of Tornquist Sea subduction may explain these events: either southward subduction and later extensional reactivation or northward subduction with later extension along a SSW-dipping shear zone. The crust is c. 5 km thinner below the Central Graben than below the surrounding parts of the Mid North Sea-Ringkøbing-Fyn High. The lower crust is reflective on the western flank of the Central Graben. East-dipping reflections from the lower crust and the upper mantle to the east of the graben may indicate a component of simple shear in the evolution of the rift structure.

AB - The MONA LISA collaborative project has collected 1112 km of seismic normal-incidence reflection data (recorded to 26 s) and wide-angle data from 26 onshore and 2 offshore locations along 4 profiles in the southeastern North Sea. The seismic data clearly image structures in the crust and uppermost mantle that may be related to Caledonian collision and Late Palaeozoic to Mesozoic rifting and basin formation. For the first time, dipping and subhorizontal reflections from the mantle have been observed to 24 s twt in seismic normal-incidence reflection sections. Strong sub-horizontal reflections are observed on two perpendicular profiles at c. 21 s twt, which is near the base of the lithosphere. These deep reflections are sharper than expected from a thermal-rheological transition suggesting that they are generated at lithological or tectonic interfaces. The Moho is reflective along all four profiles. Particularly strong and sharp normal-incidence and wide-angle reflections were recorded from the Moho south of the Caledonian Deformation Front. The normal-incidence reflection sections show unusually low intra-crustal reflectivity. Lower crustal, subhorizontal reflectivity is only observed west of the Central Graben and in a short profile segment at the base of the interpreted Caledonian Deformation Front. The crustal suture between Avalonia and Baltica is interpreted to be south- to west-dipping. SSW- and N-dipping reflections to 20 s twt are observed from the uppermost mantle. Two models of Tornquist Sea subduction may explain these events: either southward subduction and later extensional reactivation or northward subduction with later extension along a SSW-dipping shear zone. The crust is c. 5 km thinner below the Central Graben than below the surrounding parts of the Mid North Sea-Ringkøbing-Fyn High. The lower crust is reflective on the western flank of the Central Graben. East-dipping reflections from the lower crust and the upper mantle to the east of the graben may indicate a component of simple shear in the evolution of the rift structure.

KW - Caledonian Orogeny

KW - Central Graben, North Sea

KW - Deep seismic sounding

KW - Suture zones

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MONA LISA - Deep seismic investigations of the lithosphere in the southeastern North Sea

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Keywords

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