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	Provedor de dados ArchiMer (2) Autor Chaduteau, Carine (1) Lazar, Cassandre Sara (1) Palavra-chave Methane (2) Mud volcano (2) Méthane (2) Pockmark (2) Volcan de boue (2) ANME (1) Advection (1) Archaea (1) Brines (1) Cold seep (1) DGGE (1) Diversité moléculaire (1) DsrB (1) Fluid (1) Fluide (1) Fluides froids (1) Helium (1) Hélium (1) Manteau (1) Mantle (1) Mais... Tipo do documento Text (2) Ano 2010 (1) 2008 (1) País France (2) Idioma Francês (2)		Ordenar por:  Relevância Autor Título Ano Registros recuperados: 2 Primeira ... 1 ... Última Diversité et activité des communautés microbiennes dans des sédiments marins associés aux émissions de fluides froids ArchiMer Lazar, Cassandre Sara. A large portion of the greenhouse gas methane on Earth is trapped in marine sediments. However, little methane actually reaches the hydrsphere and the atmosphere, because it is efficiently consumed by anaerobic methane-oxidizing Archaea (ANME). This methane is mainly biogenic in marine sédiments, and is produced by methanogenic Archaea. Methane ascends from deep sources to the seabed, in cold seep sites of continental margins. In order to study microbial community diversity in cold seeps, and to determine geochemical factors that control these microbial communities, we compared four geochemically and geologically distinct sites. In this work, molecular tools (PCR, RT-PCR, DGGE, cloning) as well as genetic markers (16S rRNA, mcrA, dsrB) were employed, to... Tipo: Text Palavras-chave: Diversité moléculaire; Archaea; Méthanogène; ANME; McrA; DsrB; DGGE; Volcan de boue; Pockmark; Saumures; Fluides froids; Méthane; Mer de Norvège; Mer Méditerranée; Sédiments.; Molecular diversity; Archaea; Methanogen; ANME; McrA; DsrB; DGGE; Mud volcano; Pockmark; Brines; Cold seep; Methane; Norwegian Sea; Mediterranean Sea; Sediments.. Ano: 2010 URL: http://archimer.ifremer.fr/doc/00031/14250/11534.pdf Origine et circulation des fluides dans les sédiments des marges. Contribution de l'hélium et du méthane dans la compréhension des processus. Étude de 2 zones actives ArchiMer Chaduteau, Carine. Fluid migration is a very important process in marine sediments on margins. Studying fluids is fundamental to constrain the energy potential of margins. Methane is the predominant gas in marine sediments, deriving primarily from the degradation of organic matter. However methane could be also generated through the serpentinization of mantle rocks underlying the sedimentary cover in some specific geodynamical settings. One way to test this hypothesis is to use helium isotopes, which are known to be powerful tracers of the fluid-mantle interaction. To this purpose, a new method has been developed for the sampling and the quantitative extraction of dissolved helium from sediment pore-waters. During the Zairov2 and Vicking cruises, samples were collected in... Tipo: Text Palavras-chave: Mantle; Serpentinization; Advection; Mud volcano; Pockmark; Methane; Helium; Fluid; Margin; Manteau; Serpentinisation; Advection; Volcan de boue; Pockmark; Méthane; Hélium; Fluide; Marge. Ano: 2008 URL: http://archimer.ifremer.fr/doc/2008/these-3724.pdf Registros recuperados: 2 Primeira ... 1 ... Última

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