1887
1st Australasian Exploration Geoscience Conference – Exploration Innovation Integration
  • ISSN: 2202-0586
  • E-ISSN:
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Abstract

Gas hydrates are reported widely in seismic data from New Zealand’s Hikurangi Margin (east coast of the North Island). Over the last decade, conventional petroleum exploration interests in this region have led to the collection of several regional seismic datasets. These data have greatly improved our understanding of hydrate accumulations in the area; however, the resolution of industry multichannel seismic surveys is limited by the bandwidth of the airgun sources used. We present preliminary results from an academic high-resolution generator-injector (GI) airgun seismic survey, undertaken in mid 2015, that targeted focused gas hydrate accumulations lying within thrusted accretionary units in the Pegasus Basin, at the south end of the Hikurangi Margin. Each feature was surveyed with 5 to 10 closely spaced seismic lines that provide an opportunity to examine the three-dimensional structure and stratigraphy with better resolution than the original lines.

Two main processes of natural gas migration and resulting accumulation as hydrate are examined more fully: (1) vertical transport into the shallow seafloor driven by overpressure and (2) inclined transport upward along dipping permeable beds. In both of these cases, our data show significant three-dimensional variability is needed to focus fluid migration from below into hydrate trapping configurations within the hydrate stability field nearer to the seafloor. Due to the absence of well data in this basin, the high-resolution seismic data also help to constrain interpretations of basin stratigraphy which plays a significant role in hosting and trapping hydrate accumulations.

© 2018 ASEG
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/content/journals/10.1071/ASEG2018abT7_2A
2018-12-01
2026-01-25

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References

  1. Crutchley, G. J., Berndt, C., Klaeschen, D., and Masson, D. G., 2011a, Insights into active deformation in the Gulf of Cadiz from new 3-D seismic and high-resolution bathymetry data: Geochemistry, Geophysics, Geosystems, 12(7), Q07016.
  2. Crutchley, G. J., Fraser, D. R. A., Pecher, I. A., Gorman, A. R., Maslen, G., and Henrys, S. A., 2015, Gas migration into gas hydrate-bearing sediments on the southern Hikurangi margin of New Zealand: Journal of Geophysical Research: Solid Earth, 120(2), 2014JB011503.
  3. Crutchley, G. J., Gorman, A. R., Pecher, I. A., Toulmin, S., and Henrys, S. A., 2011b, Geological controls on focused fluid flow through the gas hydrate stability zone on the southern Hikurangi Margin of New Zealand - implications for attractive deposits: Marine and Petroleum Geology, 2S(10), 1915-1931.
  4. Fraser, D. R. A., Gorman, A. R., Pecher, I. A., Crutchley, G. J., and Henrys, S. A., 2016, Gas hydrate accumulations related to focused fluid flow in the Pegasus Basin, southern Hikurangi Margin, New Zealand: Marine and Petroleum Geology, 77, 309-408.
  5. Henrys, S. A., Ellis, S., and Uruski, C., 2003, Conductive heat flow variations from bottom-simulating reflectors on the Hikurangi margin, New Zealand: Geophysical Research Letters, 30(2), 1065.
  6. Kroeger, K. F., Plaza-Faverola, A., Barnes, P. M., and Pecher, I. A., 2015, Thermal evolution of the New Zealand Hikurangi subduction margin: Impact on natural gas generation and methane hydrate formation - A model study: Marine and Petroleum Geology, 63, 97114.
  7. Pecher, I. A., Henrys, S. A., Ellis, S., Chiswell, S. M., and Kukowski, N., 2005, Erosion of the seafloor at the top of the gas hydrate stability zone on the Hikurangi Margin, New Zealand: Geophysical Research Letters, 32(24), L24603.
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  • Article Type: Research Article
Keyword(s): case history; gas hydrates; generator-injector airgun source; seismic reflection data; seismic resolution

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