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The Character and Formation of Elongated Depressions on the Upper Bulgarian Slope (2018)

Xu, Cuiling ; Greinert, Jens ; Haeckel, Matthias ; [et al.]

Springer

In: Journal of Ocean University of China, 17 (3). pp. 555-562.

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Publication Date: 2021-02-08

Description: Seafloor elongated depressions are indicators of gas seepage or slope instability. Here we report a sequence of slope-parallel elongated depressions that link to headwalls of sediment slides on upper slope. The depressions of about 250 m in width and several kilometers in length are areas of focused gas discharge indicated by bubble-release into the water column and methane enriched pore waters. Sparker seismic profiles running perpendicular and parallel to the coast, show gas migration pathways and trapped gas underneath these depressions with bright spots and seismic blanking. The data indicate that upward gas migration is the initial reason for fracturing sedimentary layers. In the top sediment where two young stages of landslides can be detected, the slope-parallel sediment weakening lengthens and deepens the surficial fractures, creating the elongated depressions in the seafloor supported by sediment erosion due to slope-parallel water currents.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.1007/s11802-018-3460-7

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Gas migration through Opouawe Bank at the Hikurangi margin offshore New Zealand (2016)

Koch, Stephanie ; Schröder, Henning ; Haeckel, Matthias ; [et al.]

Springer

In: Geo-Marine Letters, 36 (3). pp. 187-196.

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Publication Date: 2019-09-23

Description: This study presents 2D seismic reflection data, seismic velocity analysis, as well as geochemical and isotopic porewater compositions from Opouawe Bank on New Zealand’s Hikurangi subduction margin, providing evidence for essentially pure methane gas seepage. The combination of geochemical information and seismic reflection images is an effective way to investigate the nature of gas migration beneath the seafloor, and to distinguish between water advection and gas ascent. The maximum source depth of the methane that migrates to the seep sites on Opouawe Bank is 1,500–2,100 m below seafloor, generated by low-temperature degradation of organic matter via microbial CO2 reduction. Seismic velocity analysis enabled identifying a zone of gas accumulation underneath the base of gas hydrate stability (BGHS) below the bank. Besides structurally controlled gas migration along conduits, gas migration also takes place along dipping strata across the BGHS. Gas migration on Opouawe Bank is influenced by anticlinal focusing and by several focusing levels within the gas hydrate stability zone.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

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DOI: 10.1007/s00367-016-0441-y

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Authigenic carbonate precipitates from the NE Black Sea: a mineralogical, geochemical, and lipid biomarker study (2009)

Bahr, André ; Pape, T. ; Bohrmann, Gerhard ; [et al.]

Springer

In: International Journal of Earth Sciences, 98 (3). pp. 677-695.

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Publication Date: 2017-05-18

Description: Carbonate precipitates recovered from 2,000 m water depth at the Dolgovskoy Mound (Shatsky Ridge, north eastern Black Sea) were studied using mineralogical, geochemical and lipid biomarker analyses. The carbonates differ in shape from simple pavements to cavernous structures with thick microbial mats attached to their lower side and within cavities. Low δ13C values measured on carbonates (−41 to −32‰ V-PDB) and extracted lipid biomarkers indicate that anaerobic oxidation of methane (AOM) played a crucial role in precipitating these carbonates. The internal structure of the carbonates is dominated by finely laminated coccolith ooze and homogeneous clay layers, both cemented by micritic high-magnesium calcite (HMC), and pure, botryoidal, yellowish low-magnesium calcite (LMC) grown in direct contact to microbial mats. δ18O measurements suggest that the authigenic HMC precipitated in equilibrium with the Black Sea bottom water while the yellowish LMC rims have been growing in slightly 18O-depleted interstitial water. Although precipitated under significantly different environmental conditions, especially with respect to methane availability, all analysed carbonate samples show lipid patterns that are typical for ANME-1 dominated AOM consortia, in the case of the HMC samples with significant contributions of allochthonous components of marine and terrestrial origin, reflecting the hemipelagic nature of the primary sediment.

Type: Article , PeerReviewed

Format: text

DOI: 10.1007/s00531-007-0264-1

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