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Gas-controlled seafloor doming (2015)

Koch, Stephanie ; Berndt, Christian ; Bialas, Jörg ; [et al.]

GSA (Geological Society of America)

In: Geology, 43 (7). pp. 571-574.

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Publication Date: 2019-10-24

Description: The upward migration of gas through marine sediments typically manifests itself as gas chimneys or pipes in seismic images and can lead to the formation of cold seeps. Gas seepage is often linked to morphological features like seabed domes, pockmarks, and carbonate build-ups. In this context, sediment doming is discussed to be a precursor of pockmark formation. Here, we present parametric echosounder, sidescan sonar, and two-dimensional seismic data from Opouawe Bank, offshore New Zealand, providing field evidence for sediment doming. Geomechanical quantification of the stresses required for doming show that the calculated gas column heights are geologically feasible and consistent with the observed geophysical data. The progression from channeled gas flow to gas trapping results in overpressure build-up in the shallow sediment. Our results suggest that by breaching of domed seafloor sediments a new seep site can develop, but contrary to ongoing discussion this does not necessarily lead to the formation of pockmarks.

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

Format: text

DOI: 10.1130/G36596.1

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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

Format: text

DOI: 10.1007/s00367-016-0441-y

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