Wrapround Multiple Reflectors over the Seafloor in the Gas Hydrate Area: A Possible Indicator of Methane Plume

Seismic wraparound multiples which are produced by the previous shot and trapped between the sea surface and flat seabed in the two-dimensional marine seismic reflection data have the potential to provide information about oceanographic phenomena because their repetition in the water column could en...

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Bibliographic Details
Published inOcean science journal Vol. 54; no. 4; pp. 621 - 633
Main Authors Sakakibara, Yuto, Matsushima, Jun
Format Journal Article
LanguageEnglish
Published Seoul Korea Institute of Ocean Science & Technology and The Korean Society of Oceanography 01.12.2019
Springer Nature B.V
한국해양과학기술원
Subjects
Aggregation
Aquatic Pollution
Bubbles
Colonies
Disturbance
Earth and Environmental Science
Earth Sciences
Gas hydrates
Hydrates
Marine & Freshwater Sciences
Methane
Ocean floor
Oceanography
Propagation
Reflection
Sea surface
Seepage
Seepages
Seismic propagation
Seismic waves
Sound propagation
Submarine canyons
Waste Water Technology
Water column
Water Management
Water Pollution Control
Wave propagation
해양학
internal scattering
wraparound multiple
methane hydrate
methane gas seep
seismic reflection
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Summary:Seismic wraparound multiples which are produced by the previous shot and trapped between the sea surface and flat seabed in the two-dimensional marine seismic reflection data have the potential to provide information about oceanographic phenomena because their repetition in the water column could enhance the detectability of the disturbance of seismic wave propagation. By focusing on the disturbance of wraparound multiples, we inferred the possible presence of methane gas bubbles emitting from the seafloor over several kilometers within a submarine canyon with a flat seabed. We observed the significant disturbance of wraparound multiples in both pre-stacked gathers and common mid-point stacked sections, which may be caused by methane bubbles. The existence of a bottom simulating reflection, a fault, and Calyptogena colonies provides indirect evidence of methane gas bubble seeps, while the existence of a cold seep is direct evidence of them in the study area. Finally, we conducted preliminary numerical simulations of acoustic wave propagation to investigate the cause of disturbances of wraparound multiples. Our preliminary numerical simulations imply that the disturbance of wraparound multiples might be associated with the internal scattering caused by an aggregation of gas bubble seeps in the water column.
ISSN:1738-5261
2005-7172
DOI:10.1007/s12601-019-0040-8