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Multi-channel seismic reflection data and multibeam data, 2018, New Zealand (2020)

Crutchley, Gareth J ; Mountjoy, Joshu J ; Hillman, Jess I T ; [et al.]

PANGAEA

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Publication Date: 2024-04-20

Description: This dataset includes multi-channel seismic reflection data from three surveys: https://doi.pangaea.de/10.1594/PANGAEA.925803. Post-stack time migrated seismic sections that were collected in 2018, during Research Voyage TAN1808 aboard RV Tangaroa. Multi-channel seismic reflection data from the APB13 survey, collected by Anadarko Petroleum Company, in 2013. We have re-processed data from Line APB13-25, and have displayed industry processing of Line APB13-32. Multi-channel seismic reflection data from Voyage SO214 aboard RV Sonne in 2011 This datasets also includes bathymetry data, seafloor backscatter data and water column backscatter data. These data were all collected in 2018 during Research Voyage TAN1808 aboard RV Tangaroa: https://doi.pangaea.de/10.1594/PANGAEA.925804 This dataset also includes gridded horizons generated from seismic interpretation: https://doi.pangaea.de/10.1594/PANGAEA.925896

Keywords: capillary pressure; gas chimney; gas hydrate; Hikurangi Margin; hydraulic fracturing; mass transport deposit; seal

Type: Dataset

Format: application/zip, 3 datasets

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Multi-channel seismic reflection data, 2018, New Zealand (2020)

Crutchley, Gareth J ; Turco, Francesco ; Wölz, Susanne ; [et al.]

PANGAEA

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Publication Date: 2024-04-29

Description: This dataset includes multi-channel seismic reflection data (post-stack time migrated seismic sections) that were collected in 2018, during Research Voyage TAN1808 aboard RV Tangaroa, east of New Zealand. These are the data we present in Figures 4,5,7 and 9 of Crutchley et al. (submitted for review to JGR Solid Earth, 2020). The voyage report describing data collection is located here: https://www.gns.cri.nz/Home/Our-Science/Energy-Futures/Gas-Hydrates/Recent-Expeditions/HYDEE-I-TAN1808/TAN-1808-report-2018 Multi-channel seismic reflection data from APB13 survey, collected by Anadarko Petroleum Company, in 2013. We have re-processed data from Line APB13-25, and have displayed industry processing of Line APB13-32. The data provided correspond to data shown in Figures 2,3 and 7 of Crutchley et al. (submitted for review to JGR Solid Earth, 2020). Multi-channel seismic reflection data from Voyage SO214 aboard RV Sonne in 2011. The voyage report is available here: http://dx.doi.org/10.3289/ifm-geomar_rep_47_2011 The data are displayed in Figure 9 of Crutchley et al. (submitted for review to JGR Solid Earth, 2020).

Keywords: 61TG20180908; APB13_025; APB13_032; Binary Object; Binary Object (File Size); capillary pressure; Coordinate reference system; Event label; Figure; File content; gas chimney; gas hydrate; Hikurangi Margin; hydraulic fracturing; mass transport deposit; MCSEIS; Multichannel seismics; NEMESYS; seal; SO214/1; SO214/1_2D-SP1900-24288-part; Sonne; TAN1808; TAN1808-92; TAN1808-97; Tangaroa

Type: Dataset

Format: text/tab-separated-values, 28 data points

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3D characterisation and quantification of an offshore freshened groundwater system in the Canterbury Bight (2020)

Micallef, Aaron ; Person, Mark ; Haroon, Amir ; [et al.]

Nature Research

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Publication Date: 2023-02-08

Description: Although offshore freshened groundwater (OFG) systems have been documented in numerous continental margins worldwide, their geometry, controls and emplacement dynamics remain poorly constrained. Here we integrate controlled-source electromagnetic, seismic reflection and borehole data with hydrological modelling to quantitatively characterise a previously unknown OFG system near Canterbury, New Zealand. The OFG system consists of one main, and two smaller, low salinity groundwater bodies. The main body extends up to 60 km from the coast and a seawater depth of 110 m. We attribute along-shelf variability in salinity to permeability heterogeneity due to permeable conduits and normal faults, and to recharge from rivers during sea level lowstands. A meteoric origin of the OFG and active groundwater migration from onshore are inferred. However, modelling results suggest that the majority of the OFG was emplaced via topographically-driven flow during sea level lowstands in the last 300 ka. Global volumetric estimates of OFG will be significantly revised if active margins, with steep coastal topographies like the Canterbury margin, are considered.

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

Format: text

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Multiple drivers and controls of pockmark formation across the Canterbury Margin, New Zealand (2022)

Micallef, Aaron ; Averes, Tanita ; Hoffmann, Jasper ; [et al.]

Wiley

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Publication Date: 2024-02-07

Description: Shallow seabed depressions attributed to focused fluid seepage, known as pockmarks, have been documented in all continental margins. In this study we demonstrate how pockmark formation can be the result of a combination of multiple factors – fluid type, overpressures, seafloor sediment type, stratigraphy, and bottom currents. We integrate multibeam echosounder and seismic reflection data, sediment cores and pore water samples, with numerical models of groundwater and gas hydrates, from the Canterbury Margin (off New Zealand). More than 6800 surface pockmarks, reaching densities of 100 per km2, and an undefined number of buried pockmarks, are identified in the middle to outer shelf and lower continental slope. Fluid conduits across the shelf and slope include shallow to deep chimneys/pipes. Methane with a biogenic and/or thermogenic origin is the main fluid forming flow and escape features, although saline and freshened groundwaters may also be seeping across the slope. The main drivers of fluid flow and seepage are overpressure across the slope generated by sediment loading and thin sediment overburden above the overpressured interval in the outer shelf. Other processes (e.g. methane generation and flow, a reduction in hydrostatic pressure due to sea-level lowering) may also account for fluid flow and seepage features, particularly across the shelf. Pockmark occurrence coincides with muddy sediments at the seafloor, whereas their planform is elongated by bottom currents.

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

Format: text

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