Journal
MARINE AND PETROLEUM GEOLOGY
Volume 64, Issue -, Pages 31-42Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.marpetgeo.2015.02.008
Keywords
Barbados; Multibeam; Water column; Marine; Geology; Hydrate; Methane; Subsea
Categories
Funding
- University of Houston, Department of Earth and Atmospheric Sciences Teaching Assistantship
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We have identified and analyzed the affect of newly identified gas plumes in the water column from the Barbados Accretionary Complex. Multibeam echo soundings from cruise AT21-02 acquired using a Kongsberg EM122 system were used to define a region with several similar to 600-900 m tall gas plumes in the water column directly above cratered hummocky regions of the sea floor having relatively high back-scatter at a water depth of similar to 1500 m. The natural gas hydrate stability zone reaches a minimum depth of similar to 600 m in the water column, similar to that of the tallest imaged bubble plumes, which implies hydrate shells on the gas bubbles. Tilting of the plume shows current shear in the water column, with a current direction from the northwest to southeast at 128 degrees, a direction similar to the transport direction of North Atlantic Deep Water in this region. The source of hydrocarbons, determined from existing geochemical data, suggests the gas source was subjacent marine Cretaceous source rocks. North-south trending faults, craters and mud volcanoes associated with the gas plumes point to the presence of a deep plumbing system and indicate that gas is a driver of mud volcanism in this region. The widespread occurrence of seafloor morphology related to venting indicates that subsea emissions from the Barbados Accretionary Complex are substantial. (C) 2015 Elsevier Ltd. All rights reserved.
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