Compressional and shear-wave velocities from gas hydrate bearing sediments: Examples from the India and Cascadia margins as well as Arctic permafrost regions

Highlights • Regional difference in Vp and Vs are related to grain-size distribution. • New algorithm to derive gas hydrate concentration from Vp and Vs is introduced. • Sediments from northern Cascadia are similar to Arctic gas hydrate settings. • New empirical relationships for shear-wave velociti...

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Published in:Marine and Petroleum Geology
Main Authors: Riedel, Michael, Goldberg, D., Guerin, G.
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2014
Subjects:
Arctic
permafrost
Alaska
Online Access:https://oceanrep.geomar.de/id/eprint/30020/
https://oceanrep.geomar.de/id/eprint/30020/1/Riedel.pdf
https://doi.org/10.1016/j.marpetgeo.2014.07.028
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spelling ftoceanrep:oai:oceanrep.geomar.de:30020 2023-05-15T14:26:17+02:00 Compressional and shear-wave velocities from gas hydrate bearing sediments: Examples from the India and Cascadia margins as well as Arctic permafrost regions Riedel, Michael Goldberg, D. Guerin, G. 2014 text https://oceanrep.geomar.de/id/eprint/30020/ https://oceanrep.geomar.de/id/eprint/30020/1/Riedel.pdf https://doi.org/10.1016/j.marpetgeo.2014.07.028 en eng Elsevier https://oceanrep.geomar.de/id/eprint/30020/1/Riedel.pdf Riedel, M. , Goldberg, D. and Guerin, G. (2014) Compressional and shear-wave velocities from gas hydrate bearing sediments: Examples from the India and Cascadia margins as well as Arctic permafrost regions. Marine and Petroleum Geology, 58 . pp. 292-320. DOI 10.1016/j.marpetgeo.2014.07.028 <https://doi.org/10.1016/j.marpetgeo.2014.07.028>. doi:10.1016/j.marpetgeo.2014.07.028 Article PeerReviewed 2014 ftoceanrep https://doi.org/10.1016/j.marpetgeo.2014.07.028 2023-04-07T15:21:14Z Highlights • Regional difference in Vp and Vs are related to grain-size distribution. • New algorithm to derive gas hydrate concentration from Vp and Vs is introduced. • Sediments from northern Cascadia are similar to Arctic gas hydrate settings. • New empirical relationships for shear-wave velocities are defined. Abstract Shear wave velocity data have been acquired at several marine gas hydrate drilling expeditions, including the India National Gas Hydrate Program Expedition 1 (NGHP-01), the Ocean Drilling Program (ODP) Leg 204, and Integrated Ocean Drilling Program (IODP) Expedition 311 (X311). In this study we use data from these marine drilling expeditions to develop an understanding of general grain-size control on the P- and S-wave properties of sediments. A clear difference in the downhole trends of P-wave (Vp) and S-wave (Vs) velocity and the Vp/Vs ratio from all three marine regions was observed: the northern Cascadia margin (IODP X311) shows the highest P-wave and S-wave velocity values overall and those from the India margin (Expedition NGHP-01) are the lowest. The southern Cascadia margin (ODP Leg 204) appears to have similar low P-wave and S-wave velocity values as seen off India. S-wave velocity values increase relative to the sites off India, but they are not as high as those seen on the northern Cascadia margin. Such regional differences can be explained by the amount of silt/sand (or lack thereof) occurring at these sites, with northern Cascadia being the region of the highest silt/sand occurrences. This grain-size control on P-wave and S-wave velocity and associated mineral composition differences is amplified when compared to the Arctic permafrost environments, where gas hydrate predominantly occurs in sand- and silt-dominated formations. Using a cross-plot of gamma ray values versus the Vp/Vs ratio, we compare the marine gas hydrate occurrences in these regions: offshore eastern India margin, offshore Cascadia margin, the Ignik-Sikumi site in Alaska, and the Mallik 5L-38 site in the Mackenzie ... Article in Journal/Newspaper Arctic Arctic permafrost Alaska OceanRep (GEOMAR Helmholtz Centre für Ocean Research Kiel) Arctic Marine and Petroleum Geology 58 292 320
institution Open Polar
collection OceanRep (GEOMAR Helmholtz Centre für Ocean Research Kiel)
op_collection_id ftoceanrep
language English
description Highlights • Regional difference in Vp and Vs are related to grain-size distribution. • New algorithm to derive gas hydrate concentration from Vp and Vs is introduced. • Sediments from northern Cascadia are similar to Arctic gas hydrate settings. • New empirical relationships for shear-wave velocities are defined. Abstract Shear wave velocity data have been acquired at several marine gas hydrate drilling expeditions, including the India National Gas Hydrate Program Expedition 1 (NGHP-01), the Ocean Drilling Program (ODP) Leg 204, and Integrated Ocean Drilling Program (IODP) Expedition 311 (X311). In this study we use data from these marine drilling expeditions to develop an understanding of general grain-size control on the P- and S-wave properties of sediments. A clear difference in the downhole trends of P-wave (Vp) and S-wave (Vs) velocity and the Vp/Vs ratio from all three marine regions was observed: the northern Cascadia margin (IODP X311) shows the highest P-wave and S-wave velocity values overall and those from the India margin (Expedition NGHP-01) are the lowest. The southern Cascadia margin (ODP Leg 204) appears to have similar low P-wave and S-wave velocity values as seen off India. S-wave velocity values increase relative to the sites off India, but they are not as high as those seen on the northern Cascadia margin. Such regional differences can be explained by the amount of silt/sand (or lack thereof) occurring at these sites, with northern Cascadia being the region of the highest silt/sand occurrences. This grain-size control on P-wave and S-wave velocity and associated mineral composition differences is amplified when compared to the Arctic permafrost environments, where gas hydrate predominantly occurs in sand- and silt-dominated formations. Using a cross-plot of gamma ray values versus the Vp/Vs ratio, we compare the marine gas hydrate occurrences in these regions: offshore eastern India margin, offshore Cascadia margin, the Ignik-Sikumi site in Alaska, and the Mallik 5L-38 site in the Mackenzie ...
format Article in Journal/Newspaper
author Riedel, Michael
Goldberg, D.
Guerin, G.
spellingShingle Riedel, Michael
Goldberg, D.
Guerin, G.
Compressional and shear-wave velocities from gas hydrate bearing sediments: Examples from the India and Cascadia margins as well as Arctic permafrost regions
author_facet Riedel, Michael
Goldberg, D.
Guerin, G.
author_sort Riedel, Michael
title Compressional and shear-wave velocities from gas hydrate bearing sediments: Examples from the India and Cascadia margins as well as Arctic permafrost regions
title_short Compressional and shear-wave velocities from gas hydrate bearing sediments: Examples from the India and Cascadia margins as well as Arctic permafrost regions
title_full Compressional and shear-wave velocities from gas hydrate bearing sediments: Examples from the India and Cascadia margins as well as Arctic permafrost regions
title_fullStr Compressional and shear-wave velocities from gas hydrate bearing sediments: Examples from the India and Cascadia margins as well as Arctic permafrost regions
title_full_unstemmed Compressional and shear-wave velocities from gas hydrate bearing sediments: Examples from the India and Cascadia margins as well as Arctic permafrost regions
title_sort compressional and shear-wave velocities from gas hydrate bearing sediments: examples from the india and cascadia margins as well as arctic permafrost regions
publisher Elsevier
publishDate 2014
url https://oceanrep.geomar.de/id/eprint/30020/
https://oceanrep.geomar.de/id/eprint/30020/1/Riedel.pdf
https://doi.org/10.1016/j.marpetgeo.2014.07.028
geographic Arctic
geographic_facet Arctic
genre Arctic
Arctic
permafrost
Alaska
genre_facet Arctic
Arctic
permafrost
Alaska
op_relation https://oceanrep.geomar.de/id/eprint/30020/1/Riedel.pdf
Riedel, M. , Goldberg, D. and Guerin, G. (2014) Compressional and shear-wave velocities from gas hydrate bearing sediments: Examples from the India and Cascadia margins as well as Arctic permafrost regions. Marine and Petroleum Geology, 58 . pp. 292-320. DOI 10.1016/j.marpetgeo.2014.07.028 <https://doi.org/10.1016/j.marpetgeo.2014.07.028>.
doi:10.1016/j.marpetgeo.2014.07.028
op_doi https://doi.org/10.1016/j.marpetgeo.2014.07.028
container_title Marine and Petroleum Geology
container_volume 58
container_start_page 292
op_container_end_page 320
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