GLORIA — GEOMAR Library Ocean Research Information Access

1

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In situ hydrocarbon concentrations from pressurized cores in surface sediments, northern Gulf of Mexico (2007)

Heeschen, Katja U.

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In: Marine chemistry, Amsterdam [u.a.] : Elsevier Science, 1972, 107(2007), 4, Seite 498-515, 0304-4203

In: volume:107

In: year:2007

In: number:4

In: pages:498-515

Description / Table of Contents: Two newly developed coring devices, the Multi-Autoclave-Corer and the Dynamic Autoclave Piston Corer were deployed in shallow gas hydrate-bearing sediments in the northern Gulf of Mexico during research cruise SO174 (Oct- Nov 2003). For the first time, they enable the retrieval of near-surface sediment cores under ambient pressure. This enables the determination of in situ methane concentrations and amounts of gas hydrate in sediment depths where bottom water temperature and pressure changes most strongly influence gas/hydrate relationships. At seep sites of GC185 (Bush Hill) and the newly discovered sites at GC415, we determined the volume of low-weight hydrocarbons (C1 through C5) from nine pressurized cores via controlled degassing. The resulting in situ methane concentrations vary by two orders of magnitudes between 0.031 and 0.985 mol kg -1 pore water below the zone of sulfate depletion. This includes dissolved, free, and hydrate-bound CH4. Combined with results from conventional cores, this establishes a variability of methane concentrations in close proximity to seep sites of five orders of magnitude. In total four out of nine pressure cores had CH4 concentrations above equilibrium with gas hydrates. Two of them contain gas hydrate volumes of 15% (GC185) and 18% (GC415) of pore space. The measurements prove that the highest methane concentrations are not necessarily related to the highest advection rates. Brine advection inhibits gas hydrate stability a few centimeters below the sediment surface at the depth of anaerobic oxidation of methane and thus inhibits the storage of enhanced methane volumes. Here, computerized tomography (CT) of the pressure cores detected small amounts of free gas. This finding has major implications for methane distribution, possible consumption, and escape into the bottom water in fluid flow systems related to halokinesis.

Type of Medium: Online Resource

Pages: Ill., graph. Darst

ISSN: 0304-4203

DOI: 10.1016/j.marchem.2007.08.008

Language: English

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2

Article

Gashydrate im Meeresboden : Erdgasgewinnung und CO2-Speicherung (2014)

Wallmann, Klaus ; Haeckel, Matthias

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In: Energieversorgung, Hallbergmoos : Aulis-Verl., 2014, (2014), Seite 15-18

In: year:2014

In: pages:15-18

Type of Medium: Article

Language: German

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3

Article

Gashydrate im Meeresboden (2010)

Suess, Erwin 1939-2023

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In: Ozeane und Meeresforschung, Braunschweig : Westermann, 2010, (2010), Seite 22-29

In: year:2010

In: pages:22-29

Type of Medium: Article

Pages: Ill., graph. Darst., Kt.

Language: German

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4

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FS MARIA S. MERIAN Fahrtbericht/Cruise Report MSM34/1 & 2 - SUGAR Site ; Varna – Varna, 06.12.13 – 16.01.14 (2014)

Maria S. Merian [Sonstige Person, Familie und Körperschaft]

Kiel : GEOMAR, Helmholtz-Zentrum für Ozeanforschung

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Type of Medium: Online Resource

Pages: graph. Darst.

Edition: Online-Ausg. Online-Ressource

Series Statement: GEOMAR Report N.S. 15

URL: http://oceanrep.geomar.de/24091/

URL: http://dx.doi.org/10.3289/GEOMAR_REP_NS_15_2014

Language: English , German

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5

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GaMin’11 – an International Inter-laboratory Comparison for Geochemical CO2 - Saline Fluid - Mineral Interaction Experiments (2014)

Ostertag-Henning, C. ; Risse, A. ; Thomas, B. ; [et al.]

Elsevier

In: Energy Procedia, 63 . pp. 5538-5543.

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Publication Date: 2020-06-26

Description: Due to the strong interest in geochemical CO2-fluid-rock interaction in the context of geological storage of CO2 a growing number of research groups have used a variety of different experimental ways to identify important geochemical dissolution or precipitation reactions and – if possible – quantify the rates and extent of mineral or rock alteration. In this inter-laboratory comparison the gas-fluid-mineral reactions of three samples of rock-forming minerals have been investigated by 11 experimental labs. The reported results point to robust identification of the major processes in the experiments by most groups. The dissolution rates derived from the changes in composition of the aqueous phase are consistent overall, but the variation could be reduced by using similar corrections for changing parameters in the reaction cells over time. The comparison of experimental setups and procedures as well as of data corrections identified potential improvements for future gas-fluid-rock studies.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.egypro.2014.11.587

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6

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A transfer function for the prediction of gas hydrate inventories in marine sediments (2010)

Marquardt, Mathias ; Hensen, Christian ; Pinero, Elena ; [et al.]

Copernicus Publications (EGU)

In: Biogeosciences (BG), 7 . pp. 2925-2941.

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Publication Date: 2019-09-23

Description: A simple prognostic tool for gas hydrate (GH) quantification in marine sediments is presented based on a diagenetic transport-reaction model approach. One of the most crucial factors for the application of diagenetic models is the accurate formulation of microbial degradation rates of particulate organic carbon (POC) and the coupled formation of biogenic methane. Wallmann et al. (2006) suggested a kinetic formulation considering the ageing effects of POC and accumulation of reaction products (CH4, CO2) in the pore water. This model is applied to data sets of several ODP sites in order to test its general validity. Based on a thorough parameter analysis considering a wide range of environmental conditions, the POC accumulation rate (POCar in g/m2/yr) and the thickness of the gas hydrate stability zone (GHSZ in m) were identified as the most important and independent controls for biogenic GH formation. Hence, depth-integrated GH inventories in marine sediments (GHI in g of CH4 per cm2 seafloor area) can be estimated as: GHI=a ·POCar·GHSZb ·exp(−GHSZc/POCar/d)+e with a = 0.00214, b = 1.234, c = −3.339, d = 0.3148, e = −10.265. The transfer function gives a realistic first order approximation of the minimum GH inventory in low gas flux (LGF) systems. The overall advantage of the presented function is its simplicity compared to the application of complex numerical models, because only two easily accessible parameters need to be determined.

Type: Article , PeerReviewed

Format: text

DOI: 10.5194/bg-7-2925-2010

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Influence of a spreading ridge on carbon maturation and hydrate distribution (2014)

Dumke, Ines ; Berndt, Christian ; Klaeschen, Dirk ; [et al.]

In: [Poster] In: AGU Fall Meeting 2014, 15.-19.12.2014, San Francisco, USA .

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Publication Date: 2019-09-23

Type: Conference or Workshop Item , NonPeerReviewed

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Lithium isotope geochemistry of marine pore waters: Insights from cold seep fluids (2010)

Scholz, Florian ; Hensen, Christian ; De Lange, G. J. ; [et al.]

Elsevier

In: Geochimica et Cosmochimica Acta, 74 . pp. 3459-3475.

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Publication Date: 2019-09-23

Description: Lithium concentration and isotope data (δ7Li) are reported for pore fluids from 18 cold seep locations together with reference fluids from shallow marine environments, a sediment-hosted hydrothermal system and two Mediterranean brine basins. The new reference data and literature data of hydrothermal fluids and pore fluids from the Ocean Drilling Program follow an empirical relationship between Li concentration and δ7Li (δ7Li = −6.0(±0.3) · ln[Li] + 51(±1.2)) reflecting Li release from sediment or rocks and/or uptake of Li during mineral authigenesis. Cold seep fluids display δ7Li values between +7.5‰ and +45.7‰, mostly in agreement with this general relationship. Ubiquitous diagenetic signals of clay dehydration in all cold seep fluids indicate that authigenic smectite–illite is the major sink for light pore water Li in deeply buried continental margin sediments. Deviations from the general relationship are attributed to the varying provenance and composition of sediments or to transport-related fractionation trends. Pore fluids on passive margins receive disproportionally high amounts of Li from intensely weathered and transported terrigenous matter. By contrast, on convergent margins and in other settings with strong volcanogenic input, Li concentrations in pore water are lower because of intense Li uptake by alteration minerals and, most notably, adsorption of Li onto smectite. The latter process is not accompanied by isotope fractionation, as revealed from a separate study on shallow sediments. A numerical transport-reaction model was applied to simulate Li isotope fractionation during upwelling of pore fluids. It is demonstrated that slow pore water advection (order of mm a−1) suffices to convey much of the deep-seated diagenetic Li signal into shallow sediments. If carefully applied, Li isotope systematics may, thus, provide a valuable record of fluid/mineral interaction that has been inherited several hundreds or thousands of meters below the actual seafloor fluid escape structure.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.gca.2010.03.026

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Evaluation of gas hydrate deposits in an active seep area using marine controlled source electromagnetics: Results from Opouawe Bank, Hikurangi Margin, New Zealand (2010)

Schwalenberg, Katrin ; Haeckel, Matthias ; Poort, Jeffrey ; [et al.]

Elsevier

In: Marine Geology, 272 (1-4). pp. 79-88.

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Publication Date: 2019-09-23

Description: Several known gas seep sites along the Hikurangi Margin off the east coast of New Zealand were surveyed by marine controlled source electromagnetic (CSEM) experiments. A bottom-towed electric dipole–dipole system was used to reveal the occurrence of gas hydrate and methane related to the seeps. The experiments were part of the international multidisciplinary research program “New Vents” carried out on German R/V Sonne in 2007 (cruise SO191) to study key parameters controlling the release and transformation of methane from marine cold vents and shallow gas hydrate deposits. Two CSEM lines have been surveyed over known seep sites on Opouawe Bank in the Wairarapa region off the SE corner of the North Island. The data have been inverted to sub-seafloor apparent resistivity profiles and one-dimensional layered models. Clearly anomalous resistivities are coincident with the location of two gas seep sites, North Tower and South Tower on Opouawe Bank. A layer of concentrated gas hydrate within the uppermost 100 m below the seafloor is likely to cause the anomalous resistivities, but free gas and thick carbonate crusts may also play a role. Seismic data show evidence of fault related venting which may also indicate the distribution of gas hydrates and/or authigenic carbonate. Geochemical profiles indicate an increase of methane flux and the formation of gas hydrate in the shallow sediment section around the seep sites. Takahe is another seep site in the area where active venting, higher heat flow, shallow gas hydrate recovered from cores, and seismic fault planes, but only moderately elevated resistivities have been observed. The reasons could be a) the gas hydrate concentration is too low, even though methane venting is evident, b) strong temporal or spatial variation of the seep activity, and c) the thermal anomaly indicates rather temperature driven fluid expulsion that hampers the formation of gas hydrate beneath the vent.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.margeo.2009.07.006

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