Gas hydrate and P-Wave Velocity Distribution in the Yaquina Basin at the Peruvian margin

The lower boundary of the methane hydrate stability zone in continental margin sedi-mentsis often marked by a strong, phase reversed reflection subparallel to the seafloor,called the bottom simulating reflector (BSR). High resolution multichannel seismic(MCS) data from the Yaquina Basin offshore Per...

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Main Authors: Huebscher, C., Gajewski, D., Grobys, Jan, Kukowski, N., Netzeband, G., Wagner, M., Bialas, J.
Format: Conference Object
Language:unknown
Published: 2003
Subjects:
Methane hydrate
Online Access:https://epic.awi.de/id/eprint/8553/
https://hdl.handle.net/10013/epic.19080
id ftawi:oai:epic.awi.de:8553
record_format openpolar
spelling ftawi:oai:epic.awi.de:8553 2023-09-05T13:21:07+02:00 Gas hydrate and P-Wave Velocity Distribution in the Yaquina Basin at the Peruvian margin Huebscher, C. Gajewski, D. Grobys, Jan Kukowski, N. Netzeband, G. Wagner, M. Bialas, J. 2003 https://epic.awi.de/id/eprint/8553/ https://hdl.handle.net/10013/epic.19080 unknown Huebscher, C. , Gajewski, D. , Grobys, J. , Kukowski, N. , Netzeband, G. , Wagner, M. and Bialas, J. (2003) Gas hydrate and P-Wave Velocity Distribution in the Yaquina Basin at the Peruvian margin , EGS-AGU-EUG Joint Assembly, 6-11. April 2003, Nice, France. . hdl:10013/epic.19080 EPIC3EGS-AGU-EUG Joint Assembly, 6-11. April 2003, Nice, France. Conference notRev 2003 ftawi 2023-08-22T19:47:29Z The lower boundary of the methane hydrate stability zone in continental margin sedi-mentsis often marked by a strong, phase reversed reflection subparallel to the seafloor,called the bottom simulating reflector (BSR). High resolution multichannel seismic(MCS) data from the Yaquina Basin offshore Peru at 8 deg S show a BSR that is vary-inglaterally in amplitude as well as in continuity. The amplitudes of the reflectionsabove the BSR also vary with the appearance of the BSR. Where the BSR is strong,the reflections above it are weaker compared to areas where the BSR is weak. Andalthough the strong part of the BSR is underlain immediately by strong reflections,reflections several hundred meters beneath the BSR appear weaker than those wherethe BSR is weak. This variation indicates significant heterogeneity in the distribu-tionof gas and gas hydrate in this area. Chemoherms observed at the Yaquina Basinsea floor indicate the presence of free gas in the sediments up to the seafloor. Thepresence of gas and gas hydrate within the sediment sequence significantly influencesthe P-wave velocity in the affected layers. Therefore a detailed analysis of velocityvariations enables to understand the apparently different conditions for the formationof gas hydrate along the BSR and the migration paths of the free gas. Ocean bot-tomseismometer (OBS) data from profiles coincident with the MCS data can providesuch detailed velocity depth information. Velocity analysis from OBS data included2D-ray tracing and 1D-interval-velocity analysis by means of DIX-inversion. In orderto find a trade-off between vertical resolution and minimization of errors caused bythe sensitivity of the DIX formula to velocity variations in thin layers, the data haveundergone a Kirchhoff wave-equation datuming and adjacent coherence filtering wasapplied to the data to eliminate the one sided travel path through the water columnof the OBS-observations. The derived velocity structure confirms the interpretation ofthe reflection pattern in terms of gas and gas ... Conference Object Methane hydrate Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description The lower boundary of the methane hydrate stability zone in continental margin sedi-mentsis often marked by a strong, phase reversed reflection subparallel to the seafloor,called the bottom simulating reflector (BSR). High resolution multichannel seismic(MCS) data from the Yaquina Basin offshore Peru at 8 deg S show a BSR that is vary-inglaterally in amplitude as well as in continuity. The amplitudes of the reflectionsabove the BSR also vary with the appearance of the BSR. Where the BSR is strong,the reflections above it are weaker compared to areas where the BSR is weak. Andalthough the strong part of the BSR is underlain immediately by strong reflections,reflections several hundred meters beneath the BSR appear weaker than those wherethe BSR is weak. This variation indicates significant heterogeneity in the distribu-tionof gas and gas hydrate in this area. Chemoherms observed at the Yaquina Basinsea floor indicate the presence of free gas in the sediments up to the seafloor. Thepresence of gas and gas hydrate within the sediment sequence significantly influencesthe P-wave velocity in the affected layers. Therefore a detailed analysis of velocityvariations enables to understand the apparently different conditions for the formationof gas hydrate along the BSR and the migration paths of the free gas. Ocean bot-tomseismometer (OBS) data from profiles coincident with the MCS data can providesuch detailed velocity depth information. Velocity analysis from OBS data included2D-ray tracing and 1D-interval-velocity analysis by means of DIX-inversion. In orderto find a trade-off between vertical resolution and minimization of errors caused bythe sensitivity of the DIX formula to velocity variations in thin layers, the data haveundergone a Kirchhoff wave-equation datuming and adjacent coherence filtering wasapplied to the data to eliminate the one sided travel path through the water columnof the OBS-observations. The derived velocity structure confirms the interpretation ofthe reflection pattern in terms of gas and gas ...
format Conference Object
author Huebscher, C.
Gajewski, D.
Grobys, Jan
Kukowski, N.
Netzeband, G.
Wagner, M.
Bialas, J.
spellingShingle Huebscher, C.
Gajewski, D.
Grobys, Jan
Kukowski, N.
Netzeband, G.
Wagner, M.
Bialas, J.
Gas hydrate and P-Wave Velocity Distribution in the Yaquina Basin at the Peruvian margin
author_facet Huebscher, C.
Gajewski, D.
Grobys, Jan
Kukowski, N.
Netzeband, G.
Wagner, M.
Bialas, J.
author_sort Huebscher, C.
title Gas hydrate and P-Wave Velocity Distribution in the Yaquina Basin at the Peruvian margin
title_short Gas hydrate and P-Wave Velocity Distribution in the Yaquina Basin at the Peruvian margin
title_full Gas hydrate and P-Wave Velocity Distribution in the Yaquina Basin at the Peruvian margin
title_fullStr Gas hydrate and P-Wave Velocity Distribution in the Yaquina Basin at the Peruvian margin
title_full_unstemmed Gas hydrate and P-Wave Velocity Distribution in the Yaquina Basin at the Peruvian margin
title_sort gas hydrate and p-wave velocity distribution in the yaquina basin at the peruvian margin
publishDate 2003
url https://epic.awi.de/id/eprint/8553/
https://hdl.handle.net/10013/epic.19080
genre Methane hydrate
genre_facet Methane hydrate
op_source EPIC3EGS-AGU-EUG Joint Assembly, 6-11. April 2003, Nice, France.
op_relation Huebscher, C. , Gajewski, D. , Grobys, J. , Kukowski, N. , Netzeband, G. , Wagner, M. and Bialas, J. (2003) Gas hydrate and P-Wave Velocity Distribution in the Yaquina Basin at the Peruvian margin , EGS-AGU-EUG Joint Assembly, 6-11. April 2003, Nice, France. . hdl:10013/epic.19080
_version_ 1776201733732564992

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