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Journal Article

Petrology, chemistry, and isotopic composition of submarine volcanoes in the southern Mariana arc Available to Purchase

T. H. DIXON, R. J. STERN
Journal: GSA Bulletin
Published: 01 October 1983
GSA Bulletin (1983) 94 (10): 1159–1172.
DOI: https://doi.org/10.1130/0016-7606(1983)94<1159:PCAICO>2.0.CO;2
... exhibit a great range of chemical and mineral compositions relative to subaerial exposures in the central arc. Zealandia Bank produces high magnesium basalts (MgO = 8–9 wt %) enriched in Ni and with forsteritic olivine, as much as Fo 88 . This lava composition is probably parental to more fractionated...
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Journal Article

Reconnaissance thermochronology of southern Zealandia Available to Purchase

Nick Mortimer, Barry Kohn, Diane Seward, Terry Spell, Andy Tulloch
Published: 10 November 2015
Journal of the Geological Society (2016) 173 (2): 370–383.
DOI: https://doi.org/10.1144/jgs2015-021
... in that the samples are very widely scattered and there are no altitudinal profiles. For this first-order reconnaissance study no thermal modelling has been carried out. Fig. 2. Location map of southern Zealandia showing main geographical and geological features and sample sites. Inset shows Iselin Bank...
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Location map of southern Zealandia showing main geographical and geological features and sample sites. Inset shows Iselin Bank of Antarctica at same scale. COB, continent–ocean boundary.

Location map of southern Zealandia showing main geographical and geological... Available to Purchase

Published: 10 November 2015
Fig. 2. Location map of southern Zealandia showing main geographical and geological features and sample sites. Inset shows Iselin Bank of Antarctica at same scale. COB, continent–ocean boundary.
Journal Article

The mid-Cretaceous transition from basement to cover within sedimentary rocks in eastern New Zealand: evidence from detrital zircon age patterns Available to Purchase

CHRISTOPHER J. ADAMS, NICK MORTIMER, HAMISH J. CAMPBELL, WILLIAM L. GRIFFIN
Published: 21 November 2012
Geological Magazine (2013) 150 (3): 455–478.
DOI: https://doi.org/10.1017/S0016756812000611
... the time of deposition in the Pahau and Waioeka terranes of the Cretaceous accretionary margin of Zealandia, and their adjacent cover strata. The zircon age patterns also constrain possible sediment source areas and mid-Cretaceous geodynamic models of the transition from basement accretionary wedge...
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View PDF for article title, The mid-Cretaceous transition from basement to cover within sedimentary rocks in eastern New Zealand: evidence from detrital zircon age patterns
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Journal Article

Structural controls on the location, geometry and longevity of an intraplate volcanic system: the Tuatara Volcanic Field, Great South Basin, New Zealand Available to Purchase

Thomas B. Phillips, Craig Magee
Published: 06 July 2020
Journal of the Geological Society (2020) 177 (5): 1039–1056.
DOI: https://doi.org/10.1144/jgs2020-050
... ( Davy et al. 2008 ). Following the end of subduction, Zealandia underwent two major phases of rifting related to the break-up of Gondwana during the Late Cretaceous ( Fig. 1b ) ( Laird and Bradshaw 2004 ; Kula et al. 2007 ; Uruski et al. 2007 ; Mortimer et al. 2019 ; Tulloch et al. 2019...
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View PDF for article title, Structural controls on the location, geometry and longevity of an intraplate volcanic system: the Tuatara Volcanic Field, Great South Basin, New Zealand
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Journal Article

Perspectives on Cretaceous Gondwana break-up from detrital zircon provenance of southern Zealandia sandstones Available to Purchase

C.J. ADAMS, H J. CAMPBELL, N. MORTIMER, W.L. GRIFFIN
Published: 13 May 2016
Geological Magazine (2017) 154 (4): 661–682.
DOI: https://doi.org/10.1017/S0016756816000285
...C.J. ADAMS; H J. CAMPBELL; N. MORTIMER; W.L. GRIFFIN Abstract Detrital zircon U–Pb ages in 37 sandstones from late Early – Late Cretaceous marine and non-marine successions across southern Zealandia indicate a provenance from local basement within present-day Zealandia. Samples from Taranaki Basin...
View PDF for article title, Perspectives on Cretaceous Gondwana break-up from detrital zircon provenance of southern <span class="search-highlight">Zealandia</span> sandstones
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Journal Article

Extreme persistence of cratonic lithosphere in the southwest Pacific: Paleoproterozoic Os isotopic signatures in Zealandia Available to Purchase

Alex J. McCoy-West, Vickie C. Bennett, Igor S. Puchtel, Richard J. Walker
Journal: Geology
Published: 01 February 2013
Geology (2013) 41 (2): 231–234.
DOI: https://doi.org/10.1130/G33626.1
...Alex J. McCoy-West; Vickie C. Bennett; Igor S. Puchtel; Richard J. Walker Abstract Zealandia is a largely submerged, continental fragment in the southwest Pacific, generally considered to be derived from East Gondwana, but whose origins, age, structure, and relationships with other continental...
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View PDF for article title, Extreme persistence of cratonic lithosphere in the southwest Pacific: Paleoproterozoic Os isotopic signatures in <span class="search-highlight">Zealandia</span>
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Journal Article

The Waipounamu Erosion Surface: questioning the antiquity of the New Zealand land surface and terrestrial fauna and flora Available to Purchase

C. A. LANDIS, H. J. CAMPBELL, J. G. BEGG, D. C. MILDENHALL, A. M. PATERSON, S. A. TREWICK
Published: 01 March 2008
Geological Magazine (2008) 145 (2): 173–197.
DOI: https://doi.org/10.1017/S0016756807004268
... Zealand subcontinent (Zealandia). We can find no geological evidence to indicate that land areas were continuously present throughout the middle Cenozoic. Important implications of this conclusion are: (1) the New Zealand subcontinent was largely, or entirely, submerged and (2) New Zealand’s present...
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Journal Article

Two-stage rifting of Zealandia-Australia-Antarctica: Evidence from 40 Ar/ 39 Ar thermochronometry of the Sisters shear zone, Stewart Island, New Zealand Available to Purchase

Joseph Kula, Andy Tulloch, Terry L. Spell, Michael L. Wells
Journal: Geology
Published: 01 May 2007
Geology (2007) 35 (5): 411–414.
DOI: https://doi.org/10.1130/G23432A.1
... Gondwana place Zealandia (New Zealand and surrounding continental shelf, e.g., Mortimer, 2004 ) at the Pacific margin, adjacent to southeast Australia and West Antarctica (e.g., Sutherland, 1999 ; Eagles et al., 2004 ). Much attention has been directed toward extension between western Zealandia...
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View PDF for article title, Two-stage rifting of <span class="search-highlight">Zealandia</span>-Australia-Antarctica: Evidence from 40 Ar&#x2F; 39 Ar thermochronometry of the Sisters shear zone, Stewart Island, New Zealand
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Journal Article

Magma production along the Lord Howe Seamount Chain, northern Zealandia Available to Purchase

Maria Seton, Simon Williams, Nick Mortimer, Sebastien Meffre, Steven Micklethwaite, Sabin Zahirovic
Published: 18 January 2019
Geological Magazine (2019) 156 (9): 1605–1617.
DOI: https://doi.org/10.1017/S0016756818000912
... 2018 21 11 2018 03 12 2018 © Cambridge University Press 2019 2019 Cambridge University Press hotspot intraplate volcanism Lord Howe Seamount Chain plume Tasmantids volume flux Zealandia In October–November 2012, a geophysical mapping and dredging campaign...
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View PDF for article title, Magma production along the Lord Howe Seamount Chain, northern <span class="search-highlight">Zealandia</span>
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Journal Article

A New Glypheid Lobster from the Late Cretaceous of Hawke's Bay, New Zealand Available to Purchase

Rodney M. Feldmann, Jeffrey D. Stilwell
Published: 01 January 2012
Journal of Paleontology (2012) 86 (1): 126–128.
DOI: https://doi.org/10.1666/11-057.1
... Sandstone in eastern North Island, New Zealand. Several other fossil decapods with high southern latitude affinities have been described previously from the unit, supporting the placement of the Zealandia region within the Weddellian Biotic Province. This is only the fourth glypheid known from New Zealand...
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Journal Article

Reconstructing a dismembered Neogene basin along the active Hikurangi subduction margin, New Zealand Available to Purchase

Benjamin R. Hines, Hannu Seebeck, James S. Crampton, Kyle J. Bland, Dominic P. Strogen
Journal: GSA Bulletin
Published: 17 August 2022
GSA Bulletin (2023) 135 (3-4): 1009–1033.
DOI: https://doi.org/10.1130/B36308.1
...Benjamin R. Hines; Hannu Seebeck; James S. Crampton; Kyle J. Bland; Dominic P. Strogen Abstract The East Coast Basin (ECB), New Zealand, preserves the most complete onshore stratigraphic record of the Cretaceous–Neogene development of Zealandia from Gondwana breakup, through rift-drift...
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Journal Article

The tempo of continental arc construction in the Mesozoic Median Batholith, Fiordland, New Zealand Open Access

Joshua J. Schwartz, Keith A. Klepeis, Joseph F. Sadorski, Harold H. Stowell, Andy J. Tulloch, Matthew A. Coble
Journal: Lithosphere
Publisher: GSW
Published: 01 June 2017
Lithosphere (2017) 9 (3): 343–365.
DOI: https://doi.org/10.1130/L610.1
..., shortly before extensional collapse of the Zealandia Cordillera at 108–106 Ma. Separation Point Suite magmatism occurred at all structural levels, but was concentrated in the lower crust, where nearly 50% of the crust consists of Cretaceous arc-related plutonic rocks. Existing isotopic data suggest...
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Journal Article

Late Eocene – Early Miocene facies and stratigraphic development, Taranaki Basin, New Zealand: the transition to plate boundary tectonics during regional transgression Available to Purchase

Dominic P. Strogen, Karen E. Higgs, Angela G. Griffin, Hugh E. G. Morgans
Published: 11 March 2019
Geological Magazine (2019) 156 (10): 1751–1770.
DOI: https://doi.org/10.1017/S0016756818000997
... faulting in a small sub-basin in the south may represent the most northerly evidence for rifting in southern Zealandia, related to Emerald Basin formation. The Early Miocene period saw a return to clastic-dominated deposition, the onset of regional regression and the southward propagation of compressional...
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Book Chapter

Regional volcanism of northern Zealandia: post-Gondwana break-up magmatism on an extended, submerged continent Available to Purchase

Author(s)
N. Mortimer, P. B. Gans, S. Meffre, C. E. Martin, M. Seton, S. Williams, R. E. Turnbull, P. G. Quilty, S. Micklethwaite, C. Timm, R. Sutherland, F. Bache, J. Collot, P. Maurizot, P. Rouillard, N. Rollet
Book: Large Igneous Provinces from Gondwana and Adjacent Regions
Series: Geological Society, London, Special Publications
Publisher: Geological Society of London
Published: 01 January 2018
DOI: 10.1144/SP463.9
EISBN: 9781786203441
... Le Noroit ECOSAT DR11Fi P82196 0.1283 0.512917 6 64 0.512863 Lansdowne Bank ECOSAT DR17Aiv P82232 0.1672 0.512896 7 100 0.512787 Nereus Reef ECOSAT DR18Bi P82239 0.1574 0.512847 6 100 0.512744 Nereus Reef ECOSAT DR18Bi P82239 dup 0.1574 0.512837 8 100 0.512734...
Abstract
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Abstract: Volcanism of Late Cretaceous–Miocene age is more widespread across the Zealandia continent than previously recognized. New age and geochemical information from widely spaced northern Zealandia seafloor samples can be related to three volcanotectonic regimes: (1) age-progressive, hotspot-style, low-K, alkali-basalt-dominated volcanism in the Lord Howe Seamount Chain. The northern end of the chain (c. 28 Ma) is spatially and temporally linked to the 40–28 Ma South Rennell Trough spreading centre. (2) Subalkaline, intermediate to silicic, medium-K to shoshonitic lavas of &gt;78–42 Ma age within and near to the New Caledonia Basin. These lavas indicate that the basin and the adjacent Fairway Ridge are underlain by continental rather than oceanic crust, and are a record of Late Cretaceous–Eocene intracontinental rifting or, in some cases, speculatively subduction. (3) Spatially scattered, non-hotspot, alkali basalts of 30–18 Ma age from Loyalty Ridge, Lord Howe Rise, Aotea Basin and Reinga Basin. These lavas are part of a more extensive suite of Zealandia-wide, 97–0 Ma intraplate volcanics. Ages of northern Zealandia alkali basalts confirm that a late Cenozoic pulse of intraplate volcanism erupted across both northern and southern Zealandia. Collectively, the three groups of volcanic rocks emphasize the important role of magmatism in the geology of northern Zealandia, both during and after Gondwana break-up. There is no compelling evidence in our dataset for Late Cretaceous–Paleocene subduction beneath northern Zealandia. Supplementary material: Trace element compositions of zircons and whole-rock chemical compositions obtained by previous studies are available at: https://doi.org/10.6084/m9.figshare.c.3850975

Journal Article

Volcanic crustal structure of the western Hikurangi Plateau (New Zealand) from marine seismic reflection imaging Open Access

Andrew C. Gase, Nathan L. Bangs, Harm J.A. Van Avendonk, Dan Bassett, Stuart Henrys, Ryuta Arai, Gou Fujie, Philip M. Barnes, Shuichi Kodaira, Daniel H.N. Barker, David Okaya
Journal: Geosphere
Published: 25 April 2024
Geosphere (2024) 20 (3): 935–964.
DOI: https://doi.org/10.1130/GES02744.1
... Plateau approaches the Gondwana Margin (ca. 110–90 Ma). (D) Hikurangi Plateau collides with the Gondwana margin (ca. 90–79 Ma). Additional acronyms are ANT—Antarctica, AUS—Australia, ZEA—Zealandia, CR—Chatham Rise, and OT—Osbourn Trough. While the large meteorite impact hypothesis is generally less...
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Journal Article

Do microcontinents nucleate subduction initiation? Available to Purchase

Mingshuai Zhu, Zhiyong Yan, Daniel Pastor-Galán, Lin Chen, Laicheng Miao, Fuqin Zhang, Shun Li, Shunhu Yang
Journal: Geology
Published: 16 May 2023
Geology (2023) 51 (7): 668–672.
DOI: https://doi.org/10.1130/G51222.1
... in relative motion between the Australian and Pacific plates caused this divergent plate boundary to change to dextral strike-slip movement accompanied by a transpressive relay zone at Puysegur Bank ( Lallemand and Arcay, 2021 ). Puysegur subduction initiated ca. 20–16 Ma along this relay zone and involved...
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Journal Article

Stress Control of an Evolving Strike-Slip Fault System during the 2010–2011 Canterbury, New Zealand, Earthquake Sequence Available to Purchase

Richard Sibson, Francesca Ghisetti, John Ristau
Published: 01 November 2011
Seismological Research Letters (2011) 82 (6): 824–832.
DOI: https://doi.org/10.1785/gssrl.82.6.824
...-Pliocene marine-terrestrial sequence; BPV = Miocene Banks Peninsula volcanics; Q-G = Quaternary gravels. Offshore, the northwestern edge of the Chatham Rise preserves a strong extensional fabric defined by closely spaced E-W striking, S-dipping normal faults that bound half-grabens infilled with up...
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Journal Article

Wandering continents of the Indian Ocean Open Access

L.D. Ashwal
Published: 01 December 2019
South African Journal of Geology (2019) 122 (4): 397–420.
DOI: https://doi.org/10.25131/sajg.122.0040
... there, and that the old zircons were picked up by ascending magmas on their way to surface eruption sites. We speculate, based on gravity inversion modelling, that continental fragments may also be present beneath the Nazareth, Saya de Malha and Chagos Banks, as well as the Maldives and Laccadives. These were once joined...
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Journal Article

Are bright spots always hydrocarbons? A case study in the Taranaki Basin, New Zealand Available to Purchase

Peter Reilly, Roberto Clairmont, Heather Bedle
Journal: Interpretation
Published: 03 November 2020
Interpretation (2020) 8 (4): SR45–SR51.
DOI: https://doi.org/10.1190/INT-2020-0047.1
... with the breakup of Zealandia from Gondwana and was later deformed by compressional and extensional tectonics driven by the onset of subduction along the Pacific-Australian plate boundary in the late Paleogene ( King and Thrasher, 1996 ). Erosion of the Southern Alps supplied sediment during the Pliocene...
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