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The discovery of a new sedimentary basin: offshore Raukumara, East Coast, North Island, New Zealand

Uruski, Chris ; Kennedy, Callum ; Sutherland, Rupert ; [et al.]

CSIRO Publishing ; 2008

In: The APPEA Journal Vol. 48, No. 1 ( 2008), p. 53-

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In: The APPEA Journal, CSIRO Publishing, Vol. 48, No. 1 ( 2008), p. 53-

Abstract: The East Coast of North Island, New Zealand, is the site of subduction of the Pacific below the Australian plate, and, consequently, much of the basin is highly deformed. An exception is the Raukumara Sub-basin, which forms the northern end of the East Coast Basin and is relatively undeformed. It occupies a marine plain that extends to the north-northeast from the northern coast of the Raukumara Peninsula, reaching water depths of about 3,000 m, although much of the sub-basin lies within the 2,000 m isobath. The sub-basin is about 100 km across and has a roughly triangular plan, bounded by an east-west fault system in the south. It extends about 300 km to the northeast and is bounded to the east by the East Cape subduction ridge and to the west by the volcanic Kermadec Ridge. The northern seismic lines reveal a thickness of around 8 km increasing to 12–13 km in the south. Its stratigraphy consists of a fairly uniformly bedded basal section and an upper, more variable unit separated by a wedge of chaotically bedded material. In the absence of direct evidence from wells and samples, analogies are drawn with onshore geology, where older marine Cretaceous and Paleogene units are separated from a Neogene succession by an allochthonous series of thrust slices emplaced around the time of initiation of the modern plate boundary. The Raukumara Sub-basin is not easily classified. Its location is apparently that of a fore-arc basin along an ocean-to-ocean collision zone, although its sedimentary fill must have been derived chiefly from erosion of the New Zealand land mass. Its relative lack of deformation introduces questions about basin formation and petroleum potential. Although no commercial discoveries have been made in the East Coast Basin, known source rocks are of marine origin and are commonly oil prone, so there is good potential for oil as well as gas in the basin. New seismic data confirm the extent of the sub-basin and its considerable sedimentary thickness. The presence of potential trapping structures and direct hydrocarbon indicators suggest that the Raukumara Sub-basin may contain large volumes of oil and gas.

Type of Medium: Online Resource

ISSN: 1326-4966

URL: Article

DOI: 10.1071/AJ07006

Language: English

Publisher: CSIRO Publishing

Publication Date: 2008

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Lithosphere delamination with foundering of lower crust and mantle caused permanent subsidence of New Caledonia Trough and transient uplift of Lord Howe Rise during Eocene and Oligocene initiation of Tonga-Kermadec subduction, western Pacific : NEW CALEDONIA TROUGH, SW PACIFIC

Sutherland, Rupert ; Collot, Julien ; Lafoy, Yves ; [et al.]

American Geophysical Union (AGU) ; 2010

In: Tectonics Vol. 29, No. 2 ( 2010-04), p. n/a-n/a

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In: Tectonics, American Geophysical Union (AGU), Vol. 29, No. 2 ( 2010-04), p. n/a-n/a

Type of Medium: Online Resource

ISSN: 0278-7407

URL: Article

DOI: 10.1029/2009TC002476

Language: English

Publisher: American Geophysical Union (AGU)

Publication Date: 2010

detail.hit.zdb_id: 2013221-9

detail.hit.zdb_id: 780264-X

SSG: 16,13

SSG: 13

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Capel and Faust basins—integrated geoscientific assessment of Australia's remote offshore eastern frontier

Hashimoto, Takehiko ; Higgins, Karen ; Hackney, Ron ; [et al.]

CSIRO Publishing ; 2009

In: The APPEA Journal Vol. 49, No. 2 ( 2009), p. 586-

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In: The APPEA Journal, CSIRO Publishing, Vol. 49, No. 2 ( 2009), p. 586-

Abstract: The paper discusses the results from the GA–302 2D seismic survey and GA–2436 (RV Tangaroa) marine reconnaissance survey over the Capel and Faust basins in the northern Tasman Sea. The integration of seismic, potential field and bathymetric data sets in 3D space at an early stage in the project workflow has assisted in the visualisation of the basin architecture, the interpolation of data between the seismic lines and the iterative refinement of interpretations. The data sets confirm the presence of multiple depocentres previously interpreted from satellite gravity data with a maximum sediment thickness of 5–7 km. Preliminary interpretation of the seismic data has identified two predominantly Cretaceous syn-rift and two Upper Cretaceous to Neogene sag megasequences overlying a heterogeneous pre-rift basement. The comparison of seismic facies and tectonostratigraphic history with offshore New Zealand and eastern Australian basins suggests the presence of possible Jurassic to Upper Cretaceous coaly and lacustrine source rocks in the pre-rift and syn-rift, and fluvio-deltaic to shallow marine reservoir rocks in the syn-rift to early post-rift successions. Preliminary 1D basin modelling suggests that the deeper depocentres of the Capel and Faust basins are within the oil and gas windows. Large potential stratigraphic and structural traps are also present.

Type of Medium: Online Resource

ISSN: 1326-4966

URL: Article

DOI: 10.1071/AJ08059

Language: English

Publisher: CSIRO Publishing

Publication Date: 2009

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Petroleum implications of the REI09 2D Reconnaissance Survey, Reinga/Northland Basin, northwest New Zealand

Bache, Francois ; Stagpoole, Vaughan ; Uruski, Chris

CSIRO Publishing ; 2012

In: The APPEA Journal Vol. 52, No. 2 ( 2012), p. 702-

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In: The APPEA Journal, CSIRO Publishing, Vol. 52, No. 2 ( 2012), p. 702-

Abstract: The Reinga/Northland Basin is located offshore northwest of New Zealand, adjacent to the petroleum producing Taranaki Basin. Water depths range from shelfal to more than 2,000 m. Analysis of a large multichannel 2D seismic-reflection dataset, tied to Taranaki Basin, constrains seismic stratigraphic units and unconformities formed during successive deformational events in the region. Five phases are identified. Phase one: extension that created major northwest-trending structures. The age of the graben-filling sediments is inferred to be Jurassic and/or Cretaceous. Source rocks are interpreted to have been deposited widely during this phase. Phase two: Late Cretaceous to Late Eocene regional subsidence with increasing marine influence in the Reinga region. Source and reservoir successions are inferred to have been deposited during this interval. Phase three: Late Eocene compression resulted in folding of the northwest Reinga region. Phase four: Oligocene to Early Miocene regional subsidence and emplacement of the Northern Allochthon and eruption of the Northland Volcanic Arc in earliest Miocene time. The Early Miocene deformation and volcanism relate to development of the subduction zone to the northeast of the basin. Reservoir facies were deposited in regions affected by deformation and seal facies were deposited in distal regions. Phase five: From the mid-Miocene to the present day subsidence continued in the Reinga Basin with deposition of pelagic sediments. Uplift of the Wanganella Ridge, in the northwest part of the Reinga region in the Middle Miocene and intermittent deformation in the northeast through to Pliocene time resulted in localised deposition of channel and fan reservoir facies.

Type of Medium: Online Resource

ISSN: 1326-4966

URL: Article

DOI: 10.1071/AJ11116

Language: English

Publisher: CSIRO Publishing

Publication Date: 2012

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The Reinga Basin, North Island, New Zealand

Uruski, Chris ; Reid, Eva ; Stagpoole, Vaughan ; [et al.]

CSIRO Publishing ; 2010

In: The APPEA Journal Vol. 50, No. 1 ( 2010), p. 287-

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In: The APPEA Journal, CSIRO Publishing, Vol. 50, No. 1 ( 2010), p. 287-

Abstract: In early 2009, CGGVeritas, supported by the Crown Minerals Group of New Zealand’s Ministry of Economic Development, undertook a 5,900 km reconnaissance 2D seismic survey of the Reinga Basin, which is located to the northwest of the Northland Peninsula and Basin, New Zealand. Although very little data previously existed across this basin apart from low-fold reconnaissance seismic data, it was suspected of being an extension of the Northland Basin and to contain a thick sedimentary succession. It was thought to have formed as a rift basin near the Gondwana margin and to have been inverted during Neogene evolution of the present plate boundary. This paper is the result of the first interpretation of this new, high-quality data set. It confirms the presence of the basin and its sedimentary succession. Up to 9,000 m of sedimentary fill is imaged. The presence of coaly early rift packages and extensions of the Waipawa Formation black marine shale suggest that the basin contains voluminous source rocks. The basin appears to be more deformed in the northwest where large inversion structures are imaged. The northeastern margin is underlain by an extension of the Northland Allochthon which was obducted onto the New Zealand margin during initiation of the present plate boundary around 25 million years ago (Ma). The basin may also have been affected by strike-slip faulting associated with the Vening-Meinesz fracture zone, which developed during the Miocene. Several volcanic bodies are recognised, but in contrast to the adjacent Northland Basin where many large Miocene shield volcanos erupted, volcanic extrusions are rare in the Reinga region. Thermal modelling suggests that the basal source rocks are mature and expelling hydrocarbons and many direct hydrocarbon anomalies are present. Large trapping structures are apparent throughout the basin and even at this early stage of knowledge it appears that the region may have significant hydrocarbon potential. This paper will discuss the evolution of the basin in the regional tectonic context and summarise its petroleum prospectivity.

Type of Medium: Online Resource

ISSN: 1326-4966

URL: Article

DOI: 10.1071/AJ09017

Language: English

Publisher: CSIRO Publishing

Publication Date: 2010

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