The character and amplitude of ‘discontinuous’ bottom-simulating reflectors in marine seismic data.

Highlights • Propose that all BSRs are in fact discontinuous in nature. • Challenge the commonly accepted textbook definition of a BSR. • Acquisition geometry and frequency content significantly impact imaging of BSRs. • Frequency content of seismic data is a key factor in characterizing gas hydrate...

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Published in:Earth and Planetary Science Letters
Main Authors: Hillman, Jess I. T., Cook, Ann E., Sawyer, Derek E., Küçük, H. Mert, Goldberg, David S.
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2017
Subjects:
Orca
Online Access:https://oceanrep.geomar.de/id/eprint/35103/
https://oceanrep.geomar.de/id/eprint/35103/7/Hillman.pdf
https://doi.org/10.1016/j.epsl.2016.10.058
id ftoceanrep:oai:oceanrep.geomar.de:35103
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spelling ftoceanrep:oai:oceanrep.geomar.de:35103 2023-05-15T17:54:00+02:00 The character and amplitude of ‘discontinuous’ bottom-simulating reflectors in marine seismic data. Hillman, Jess I. T. Cook, Ann E. Sawyer, Derek E. Küçük, H. Mert Goldberg, David S. 2017 text https://oceanrep.geomar.de/id/eprint/35103/ https://oceanrep.geomar.de/id/eprint/35103/7/Hillman.pdf https://doi.org/10.1016/j.epsl.2016.10.058 en eng Elsevier https://oceanrep.geomar.de/id/eprint/35103/7/Hillman.pdf Hillman, J. I. T., Cook, A. E., Sawyer, D. E., Küçük, H. M. and Goldberg, D. S. (2017) The character and amplitude of ‘discontinuous’ bottom-simulating reflectors in marine seismic data. . Earth and Planetary Science Letters, 459 . pp. 157-169. DOI 10.1016/j.epsl.2016.10.058 <https://doi.org/10.1016/j.epsl.2016.10.058>. doi:10.1016/j.epsl.2016.10.058 info:eu-repo/semantics/restrictedAccess Article PeerReviewed 2017 ftoceanrep https://doi.org/10.1016/j.epsl.2016.10.058 2023-04-07T15:29:41Z Highlights • Propose that all BSRs are in fact discontinuous in nature. • Challenge the commonly accepted textbook definition of a BSR. • Acquisition geometry and frequency content significantly impact imaging of BSRs. • Frequency content of seismic data is a key factor in characterizing gas hydrates. • Present precise maps of discontinuous BSRs, not just areal extent. Abstract Bottom-simulating reflections (BSRs) identified in seismic data are well documented; and are commonly interpreted to indicate the presence of gas hydrates along continental margins, as well as to estimate regional volumes of gas hydrate. A BSR is defined as a reflection that sub-parallels the seafloor but is opposite in polarity and cross-cuts dipping sedimentary strata. BSRs form as a result of a strong negative acoustic impedance contrast. BSRs, however, are a diverse seismic phenomena that manifest in strikingly contrasting ways in different geological settings, and in different seismic data types. We investigate the characteristics of BSRs, using conventional and high resolution, 2D and 3D seismic data sets in three locations: the Terrebonne and Orca Basins in the Gulf of Mexico, and Blake Ridge on the US Atlantic Margin. The acquisition geometry and frequency content of the seismic data significantly impact the resultant character of BSRs, as observed with depth and amplitude maps of the BSRs. Furthermore, our amplitude maps reinforce the concept that the BSR represents a zone, over which the transition from hydrate to free gas occurs, as opposed to the conventional model of the BSR occurring at a single interface. Our results show that a BSR can be mapped in three dimensions but it is not spatially continuous, at least not at the basin scale. Rather, a BSR manifests itself as a discontinuous, or patchy, reflection and only at local scales is it continuous. We suggest the discontinuous nature of BSRs is the result of variable saturation and distribution of free gas and hydrate, acquisition geometry and frequency content of the ... Article in Journal/Newspaper Orca OceanRep (GEOMAR Helmholtz Centre für Ocean Research Kiel) Earth and Planetary Science Letters 459 157 169
institution Open Polar
collection OceanRep (GEOMAR Helmholtz Centre für Ocean Research Kiel)
op_collection_id ftoceanrep
language English
description Highlights • Propose that all BSRs are in fact discontinuous in nature. • Challenge the commonly accepted textbook definition of a BSR. • Acquisition geometry and frequency content significantly impact imaging of BSRs. • Frequency content of seismic data is a key factor in characterizing gas hydrates. • Present precise maps of discontinuous BSRs, not just areal extent. Abstract Bottom-simulating reflections (BSRs) identified in seismic data are well documented; and are commonly interpreted to indicate the presence of gas hydrates along continental margins, as well as to estimate regional volumes of gas hydrate. A BSR is defined as a reflection that sub-parallels the seafloor but is opposite in polarity and cross-cuts dipping sedimentary strata. BSRs form as a result of a strong negative acoustic impedance contrast. BSRs, however, are a diverse seismic phenomena that manifest in strikingly contrasting ways in different geological settings, and in different seismic data types. We investigate the characteristics of BSRs, using conventional and high resolution, 2D and 3D seismic data sets in three locations: the Terrebonne and Orca Basins in the Gulf of Mexico, and Blake Ridge on the US Atlantic Margin. The acquisition geometry and frequency content of the seismic data significantly impact the resultant character of BSRs, as observed with depth and amplitude maps of the BSRs. Furthermore, our amplitude maps reinforce the concept that the BSR represents a zone, over which the transition from hydrate to free gas occurs, as opposed to the conventional model of the BSR occurring at a single interface. Our results show that a BSR can be mapped in three dimensions but it is not spatially continuous, at least not at the basin scale. Rather, a BSR manifests itself as a discontinuous, or patchy, reflection and only at local scales is it continuous. We suggest the discontinuous nature of BSRs is the result of variable saturation and distribution of free gas and hydrate, acquisition geometry and frequency content of the ...
format Article in Journal/Newspaper
author Hillman, Jess I. T.
Cook, Ann E.
Sawyer, Derek E.
Küçük, H. Mert
Goldberg, David S.
spellingShingle Hillman, Jess I. T.
Cook, Ann E.
Sawyer, Derek E.
Küçük, H. Mert
Goldberg, David S.
The character and amplitude of ‘discontinuous’ bottom-simulating reflectors in marine seismic data.
author_facet Hillman, Jess I. T.
Cook, Ann E.
Sawyer, Derek E.
Küçük, H. Mert
Goldberg, David S.
author_sort Hillman, Jess I. T.
title The character and amplitude of ‘discontinuous’ bottom-simulating reflectors in marine seismic data.
title_short The character and amplitude of ‘discontinuous’ bottom-simulating reflectors in marine seismic data.
title_full The character and amplitude of ‘discontinuous’ bottom-simulating reflectors in marine seismic data.
title_fullStr The character and amplitude of ‘discontinuous’ bottom-simulating reflectors in marine seismic data.
title_full_unstemmed The character and amplitude of ‘discontinuous’ bottom-simulating reflectors in marine seismic data.
title_sort character and amplitude of ‘discontinuous’ bottom-simulating reflectors in marine seismic data.
publisher Elsevier
publishDate 2017
url https://oceanrep.geomar.de/id/eprint/35103/
https://oceanrep.geomar.de/id/eprint/35103/7/Hillman.pdf
https://doi.org/10.1016/j.epsl.2016.10.058
genre Orca
genre_facet Orca
op_relation https://oceanrep.geomar.de/id/eprint/35103/7/Hillman.pdf
Hillman, J. I. T., Cook, A. E., Sawyer, D. E., Küçük, H. M. and Goldberg, D. S. (2017) The character and amplitude of ‘discontinuous’ bottom-simulating reflectors in marine seismic data. . Earth and Planetary Science Letters, 459 . pp. 157-169. DOI 10.1016/j.epsl.2016.10.058 <https://doi.org/10.1016/j.epsl.2016.10.058>.
doi:10.1016/j.epsl.2016.10.058
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.1016/j.epsl.2016.10.058
container_title Earth and Planetary Science Letters
container_volume 459
container_start_page 157
op_container_end_page 169
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