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	Provedor de dados ArchiMer (64) Autor Sultan, Nabil (64) Garziglia, Sebastien (16) Riboulot, Vincent (11) Cattaneo, Antonio (10) Ker, Stephan (10) Marsset, Tania (9) Voisset, Michel (9) Jouet, Gwenael (8) Berne, Serge (7) Dennielou, Bernard (7) Marsset, Bruno (7) Ruffine, Livio (7) Cochonat, Pierre (6) Bayon, Germain (4) Cauquil, E (4) Imbert, Patrice (4) Bassetti, Maria-angela (3) Blouin, Arthur (3) Bohrmann, Gerhard (3) Bourillet, Jean-francois (3) Mais... Palavra-chave Slope stability (8) Gas hydrate (7) Shear strength (6) Piezocone (5) Pore pressure (5) Fluid flow (4) Gas hydrates (4) Niger Delta (4) Shear zone (4) Earthquake (3) Finite difference (3) Hydrate (3) Methane (3) Modeling (3) Mud volcano (3) Pockmarks (3) Slope failure (3) Submarine landslide (3) Authigenic carbonates (2) Black Sea (2) Mais... Tipo do documento Text (64) Ano 2020 (6) 2019 (4) 2018 (6) 2017 (2) 2016 (2) 2015 (2) 2014 (4) 2013 (2) 2012 (1) 2011 (4) 2010 (5) 2009 (6) 2008 (4) 2007 (10) 2006 (1) 2004 (4) 2001 (1) Mais... País France (64) Idioma Inglês (64)		Registro completo Provedor de dados:  ArchiMer País:  France Título:  Anomalously deep BSR related to a transient state of the gas hydrate system in the western Black Sea Autores:  Ker, Stephan Thomas, Yannick Riboulot, Vincent Sultan, Nabil Bernard, Céline Scalabrin, Carla Ion, G Marsset, Bruno Data:  2019-01 Ano:  2019 Palavras-chave:  Gas hydrate BSR Excess pore pressure Black Sea Resumo:  A comprehensive characterization of the gas hydrate system offshore the western Black Sea was performed through an integrated analysis of geophysical data. We detected the Bottom Simulating Reflector (BSR), which marks, in this area, the base of gas hydrate stability. The observed BSR depth does not fit the theoretical steady-state base of gas hydrate stability zone (BGHSZ). We show that the disparity between the BSR and predicted BGHSZ is the result of a transient state of the hydrate system due to the ongoing re-equilibrium since the Last Glacial Maximum. When gas hydrates are brought outside the stability zone due to changes in temperature and sea level, their dissociation generates an increase in interstitial pore pressure. This process is favorable to the re-crystallization of gas hydrates and delays the upward migration of the hydrate stability zone explaining the anomalously deep BSR. The BSR depth, which is commonly used to derive geothermal gradient values by assuming steady state conditions, is used here to derive the maximum excess pore pressure at the base of the gas hydrate stability zone. Derived excess pore pressure values of 1-2 MPa are probably the result of the low permeability of hydrate-bearing sediments. Higher pore pressure values derived at the location of a fault system could cause hydro-fracturing enabling the free gas to cross the gas hydrate stability zone and emerge at the seafloor, forming the flares observed in close vicinity to where the shallow gas hydrates were sampled. Tipo:  Text Idioma:  Inglês Identificador:  https://archimer.ifremer.fr/doc/00474/58531/61081.pdf DOI:10.1029/2018GC007861 https://archimer.ifremer.fr/doc/00474/58531/ Editor:  American Geophysical Union Formato:  application/pdf Fonte:  Geochemistry Geophysics Geosystems (1525-2027) (American Geophysical Union), 2019-01 , Vol. 20 , N. 1 , P. 442-459 Direitos:  info:eu-repo/semantics/openAccess restricted use Fechar

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