Seismic Data from MSM21/4 to Knipovich Ridge on the western Svalbard margin

The seismic data were acquired north of the Knipovich Ridge on the western Svalbard margin during cruise MSM21/4. They were recorded using a Geometrics GeoEel streamer of either 120 channels (profiles p100-p208) or 88 channels (profiles p300-p805) with a group spacing of 1.56 m and a sampling rate o...

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Bibliographic Details
Main Authors: Dumke, Ines, Burwicz, Ewa, Berndt, Christian, Klaeschen, Dirk, Feseker, Tomas, Geissler, Wolfram H, Sarkar, Sudipta
Format: Dataset
Language:English
Published: PANGAEA 2015
Subjects:
Comment
Date/Time of event
Date/Time of event 2
Event label
File name
File size
Latitude of event
Latitude of event 2
Longitude of event
Longitude of event 2
Maria S. Merian
MSM21/4
MSM21/4_548-1
MSM21/4_562-1
MSM21/4_608-1
MSM21/4_619-1
MSM21/4_646-1
MSM21/4_651-1
North Greenland Sea
Seismic profile P100-P102
Seismic profile P200-P208
Seismic profile P400
P500
Seismic profile P600
Seismic profile P700-P706
Seismic profile P800-P805
Seismic reflection profile
SEISREFL
Uniform resource locator/link to sgy data file
Greenland
Knipovich Ridge
Svalbard
Greenland Sea
North Greenland
Svalbard margin
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.847497
https://doi.org/10.1594/PANGAEA.847497
Description
Summary:The seismic data were acquired north of the Knipovich Ridge on the western Svalbard margin during cruise MSM21/4. They were recorded using a Geometrics GeoEel streamer of either 120 channels (profiles p100-p208) or 88 channels (profiles p300-p805) with a group spacing of 1.56 m and a sampling rate of 2 kHz. A GI-Gun (2×1.7 l) with a main frequency of ~150 Hz was used as a source and operated at a shot interval of 6-8 s. Processing of profiles p100-p208 and p600-p805: Positions for each channel were calculated by backtracking along the profiles from the GI-Gun GPS positions. The shot gathers were analyzed for abnormal amplitudes below the seafloor reflection by comparing neighboring traces in different frequency bands within sliding time windows. To suppress surface-generated water noise, a tau-p filter was applied in the shot gather domain. Common mid-point (CMP) profiles were then generated through crooked-line binning with a CMP spacing of 1.5625 m. A zero-phase band-pass filter with corner frequencies of 60 Hz and 360 Hz was applied to the data. Based on regional velocity information from MCS data [Sarkar, 2012], an interpolated and extrapolated 3D interval velocity model was created below the digitized seafloor reflection of the high-resolution streamer data. This velocity model was used to apply a CMP stack and an amplitude-preserving Kirchhoff post-stack time migration. Processing of profiles p400-p500: Data were sampled at 0.5 ms and sorted into common midpoint (CMP) domain with a bin spacing of 5 m. Normal move out correction was carried out with a velocity of 1500 m s-1 and an Ormsby bandpass filter with corner frequencies at 40, 80, 600 and 1000 Hz was applied. The data were time migrated using the water velocity.

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