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

Heeschen, Katja U. ; Hohnberg, Hans Jürgen ; Haeckel, Matthias ; [et al.]

Elsevier

In: Marine Chemistry, 107 (4). pp. 498-515.

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Publication Date: 2017-08-22

Description: 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: Article , PeerReviewed

Format: text

DOI: 10.1016/j.marchem.2007.08.008

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OceanRep: Article in a Scientific Journal - peer-reviewed

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Biogeochemical investigation of asphalt seepage at the Chapopote Knoll in the southern Gulf of Mexico (2007)

Schubotz, Florence ; Wilhelm, Thorsten ; Hohnberg, Hans-Jürgen ; [et al.]

In: EPIC3Goldschmidt Conference 2007, Cologne, Germany, 2007-08-19-2007-08-24

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Publication Date: 2015-03-04

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

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(Table 1) Analysis of pore water (PW) and hydrocarbon gases (HC) on sediment samples after degassing, and the recovery pressure (pressure) on SO174 samples (2007)

Heeschen, Katja U ; Hohnberg, Hans-Jürgen ; Haeckel, Matthias ; [et al.]

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Publication Date: 2023-07-10

Keywords: 152; 153; 158; 166; 170; Analysis; Bush Hill; Center for Marine Environmental Sciences; DAPC; Device type; Dynamic autoclave piston corer; Elevation of event; Event label; Latitude of event; Location type; Longitude of event; MAC; MARUM; Multi autoclave corer; OTEGA II; Pressure, water; Sample, optional label/labor no; SO174/1; SO174/1_118; SO174/1_63; SO174/1_90; SO174/1_97; SO174/2; SO174/2_152; SO174/2_153; SO174/2_158; SO174/2_166; SO174/2_170; Sonne

Type: Dataset

Format: text/tab-separated-values, 42 data points

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(Table 1) Development of pressure inside LTC 3 during 57 days (2008)

Abegg, Friedrich ; Hohnberg, Hans-Jürgen ; Pape, Thomas ; [et al.]

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In: Supplement to: Abegg, Friedrich; Hohnberg, Hans-Jürgen; Pape, Thomas; Bohrmann, Gerhard; Freitag, Johannes (2008): Development and application of pressure-core-sampling systems for the investigation of gas- and gas-hydrate-bearing sediments. Deep Sea Research Part I: Oceanographic Research Papers, 55(11), 1590-1599, https://doi.org/10.1016/j.dsr.2008.06.006

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Publication Date: 2024-04-18

Description: Free or hydrate-bound gas in the seafloor has been of scientific, ecologic and economic interest for many years because it predominantly contains high concentrations of low-molecular-weight hydrocarbons. A prerequisite of accurate quantifications of gases in sediments is to preserve pressure and temperature close to the in situ conditions during recovery. Here we introduce two new sediment coring devices that allow for the recovery of near-surface gas- and gas-hydrate-bearing sediments and subsequent investigations using several different techniques such as visualisation by computerized tomography, quantitative degassing, and sediment and porewater analyses. The first coring tool, the Multiple Autoclave Corer (MAC), resembles a standard multiple corer in terms of applications, size and core length of about 55 cm. The second tool, the Dynamic Autoclave Piston Corer (DAPC), is similar to a piston corer in application and size and enables one to take cores of up to 2.5 m length. Both focus on the investigation of near-surface sediments, which are most strongly affected by changes in bottom-water temperature and hydrostatic pressure, which in turn influence continental slope stability. Some results from recent offshore applications show the potential of these tools.

Keywords: 229TV-MAC-8; Center for Marine Environmental Sciences; MARUM; Optical pressure gauge; OTEGA I; Pressure; SO165/2; SO165/2_229; Sonne; Television Multi-Autoklave corer; TV-MAC

Type: Dataset

Format: text/tab-separated-values, 7 data points

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