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Main Authors: Whiticar, Michael J, Suess, Erwin
Format: Dataset Open Access
Language:en
Published: PANGAEA 1990
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Online Access:https://doi.org/10.1594/PANGAEA.707463
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author Whiticar, Michael J
Suess, Erwin
author_facet Whiticar, Michael J
Suess, Erwin
collection Datos científicos de ciencias marinas y ambientales
contents Thermogenic hydrocarbons, formed by the thermal alteration of organic matter, are encountered in several piston core stations in the King George Basin, Anatarctica. These hemipelagic sediments are being deposited in an area of active hydrothermalism, associated with the back-arc spreading in the Bransfield Strait. The lateral extent of sediments infiltrated by the hydrothermally influenced interstitial fluids is characterized by basalt diapiric intrusions and is delineated by an acoustically turbid zone in the sediments of the eastern part of the basin. Iron-sulphide-bearing veins and fractures cut across the sediment in several cores; they appear to be conduits for flow of hydrothermally altered fluids. These zones have the highest C2+ and ethene contents. The thermogenic hydrocarbons have molecular C1/(C2 + C3) ratios typically < 50 and delta13CH4 values between -38‰ and -48‰, indicating an organic source which has undergone strong thermal stress. Several sediment cores also have mixed gas signatures, which indicate the presence of substantial amounts of bacterial gas, predominantly methane. Hydrocarbon generation in the King George Basin is thought to be a local phenomenon, resulting from submarine volcanism with temperatures in the range 70-150°C. There are no apparent seepages of hydrocarbons into the water column, and it is not believed that significant accumulation of thermogenic hydrocarbons reside in the basin.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_707463
institution PANGAEA
language en
publishDate 1990
publisher PANGAEA
record_format pangaea
spellingShingle Analyses of hydrocarbon gases and sulphate in sediments from the King George Basin, Antarctica
Whiticar, Michael J
Suess, Erwin
ANT-IV/2; Bransfield Strait; Deception_Is; Deception Island; Geological sample; GEOS; Gravity corer (Kiel type); King George Island, Antarctic Peninsula; Polarstern; PS08; PS08/279; PS08/284; PS08/291; PS08/295; PS08/306; PS1327-1; PS1333-1; PS1340-1; PS1341-1; PS1342-1; PS1343-1; PS1346-1; PS1347-1; PS1357-2; SL
Thermogenic hydrocarbons, formed by the thermal alteration of organic matter, are encountered in several piston core stations in the King George Basin, Anatarctica. These hemipelagic sediments are being deposited in an area of active hydrothermalism, associated with the back-arc spreading in the Bransfield Strait. The lateral extent of sediments infiltrated by the hydrothermally influenced interstitial fluids is characterized by basalt diapiric intrusions and is delineated by an acoustically turbid zone in the sediments of the eastern part of the basin. Iron-sulphide-bearing veins and fractures cut across the sediment in several cores; they appear to be conduits for flow of hydrothermally altered fluids. These zones have the highest C2+ and ethene contents. The thermogenic hydrocarbons have molecular C1/(C2 + C3) ratios typically < 50 and delta13CH4 values between -38‰ and -48‰, indicating an organic source which has undergone strong thermal stress. Several sediment cores also have mixed gas signatures, which indicate the presence of substantial amounts of bacterial gas, predominantly methane. Hydrocarbon generation in the King George Basin is thought to be a local phenomenon, resulting from submarine volcanism with temperatures in the range 70-150°C. There are no apparent seepages of hydrocarbons into the water column, and it is not believed that significant accumulation of thermogenic hydrocarbons reside in the basin.
title Analyses of hydrocarbon gases and sulphate in sediments from the King George Basin, Antarctica
topic ANT-IV/2; Bransfield Strait; Deception_Is; Deception Island; Geological sample; GEOS; Gravity corer (Kiel type); King George Island, Antarctic Peninsula; Polarstern; PS08; PS08/279; PS08/284; PS08/291; PS08/295; PS08/306; PS1327-1; PS1333-1; PS1340-1; PS1341-1; PS1342-1; PS1343-1; PS1346-1; PS1347-1; PS1357-2; SL
url https://doi.org/10.1594/PANGAEA.707463