Geology of Zealandia

Zealandia is an area of mostly submerged continental crust that contains New Zealand and New Caledonia.

Topographic map of Zealandia.

Most of Zealandia is underwater. Ball's Pyramid, near Lord Howe Island, is one place (other than New Zealand itself) where it rises above sea level.

See Zealandia (disambiguation) for other than Continent

Geology

The Zealandia continent is largely made up of two nearly parallel ridges, separated by a failed rift, where the rift breakup of the continent stops and becomes a filled graben. The ridges rise above the sea floor to heights of 1,000–1,500 m (3,300–4,900 ft), with a few rocky islands rising above sea level. The ridges are continental rock, but are lower in elevation than normal continents because their crust is thinner than usual, approximately 20 km (12 mi) thick, and consequently, they do not float so high above Earth's mantle as that of most landmasses.^{[citation needed]}

About 25 million years ago, the southern part of Zealandia (on the Pacific Plate) began to shift relative to the northern part (on the Indo-Australian Plate). The resulting displacement by approximately 500 km (310 mi) along the Alpine Fault is evident in geological maps.^[1] Movement along this plate boundary also has offset the New Caledonia Basin from its previous continuation through the Bounty Trough.^{[citation needed]}

Compression across the boundary has uplifted the Southern Alps, although due to rapid erosion their height reflects only a small fraction of the uplift. Farther north, subduction of the Pacific Plate has led to extensive volcanism, including the Coromandel and Taupo Volcanic Zones. Associated rifting and subsidence has produced the Hauraki Rift and more recently, the Whakatane Graben and Wanganui Basin.^{[citation needed]}

Volcanism

Volcanism on Zealandia has taken place repeatedly in various parts of the continental fragment before, during, and after it rifted away from the supercontinent Gondwana. Although Zealandia has shifted approximately 6,000 km (3,700 mi) to the northwest with respect to the underlying mantle from the time when it rifted from Antarctica, recurring intracontinental volcanism exhibits magma composition similar to that of volcanoes in previously adjacent parts of Antarctica and Australia. Large volume magmatism occurred in two periods, being in the Devonian (370 to 368 million years ago) and the Early Cretaceous (129 to 105 million years ago).^[2]

This volcanism is widespread across Zealandia, but on present land generally it is of low volume apart from the huge mid to late Miocene shield volcanoes that developed the Banks and Otago Peninsulas. In addition, it took place continually in numerous limited regions all through the Late Cretaceous and the Cenozoic. Some of its causes remain in dispute perhaps because of data gaps.^[2] During the Miocene, the northern section of Zealandia (Lord Howe Rise) might have slid over a stationary hotspot, forming the Lord Howe Seamount Chain.^[3]

It has been suggested that Zealandia may have played an important part in the origin of the Pacific Ocean's volcanic Ring of Fire.^[4]

Geological subdivisions

Occasionally, Zealandia is divided into two regions by scientists: North Zealandia (or Western Province); and South Zealandia (or Eastern Province), the latter of which contains most of the Median Batholith crust. These two features are separated by the Alpine Fault and Kermadec Trench and by the wedge-shaped Hikurangi Plateau, and they are moving separately from each other.^[5]

Classification as a continent

The case for Zealandia being a continent in its own right has been argued in the Nick Mortimer and Hamish Campbell book Zealandia: Our continent revealed (2014),^[5] in which the authors presented geological and ecological evidence in support of their thesis.^[6]

In 2017, a team of eleven geologists from New Zealand, New Caledonia, and Australia concluded that Zealandia fulfills all the requirements to be considered a submerged continent, rather than a microcontinent or continental fragment.^[7] This verdict was widely covered in the news media.^[8][9][10]

Oldest parent rocks

The younger Zealandia rocks have evidence of origins from early Gondwana formations of 500 to 700 million years ago, Rodinia formations about a billion years ago and sources from an expanded-Ur continent between 3.5 and 2 billion years ago.^[11]

Tectonics

The breakup of Gondwana formed Northern Zealandia.^[12] Zealandia underwent extension resulting from east to northeast-directed rollback of west to southwest-dipping subduction of the Pacific Plate.^[13] which terminated between 95 million^[13] to 85 million years ago.^[14] After 85 million years ago Zealandia separated from Australia through seafloor spreading of the Coral and Tasman seas until this ceased 52 million years ago.^[14] Shortening on an active convergent northern margin of Zealandia occurred mainly between 45 and 35 million years ago.^[14] This was followed by the opening of the backarc basins of the southwest Pacific and the migration of the Tonga and Kermadec Trenchs to the east.^[14] Shear extrusion followed between 23.3 million to 5 million years ago with the New Zealand Alpine Fault rupture and a southwestward extension of the Campbell Plateau relative to the Challenger Plateau.^[13] Southeast Indian Ocean Ridge expansion movement completely separated Zealandia from the Antarctic at about 10 million years ago.^[13] In the last 5 million years Zealandia has been generally subsiding owing to the Pacific Plate subducting westward and retreating eastward.^[13]

Attribution History

Copied content for back inclusion from Zealandia; see that page's history for attribution.

References

1. "Figure 4. Basement rocks of New Zealand". UNCLOS Article 76: The Land mass, continental shelf, and deep ocean floor: Accretion and suturing. Archived from the original on 27 September 2007. Retrieved 21 April 2007.
2. Ringwood, M.; Schwartz, Joshua; Turnbull, Rose; Tulloch, A.J (2021). "Phanerozoic record of mantle-dominated arc magmatic surges in the Zealandia Cordillera". Geology. 49 (10): 1230–1234. Bibcode:2021Geo....49.1230R. doi:10.1130/G48916.1.
3. Hansma, Jeroen; Tohver, Eric (2020). "Southward Drift of Eastern Australian Hotspots in the Paleomagnetic Reference Frame Is Consistent With Global True Polar Wander Estimates". Frontiers in Earth Science. 8: 489. Bibcode:2020FrEaS...8..489H. doi:10.3389/feart.2020.544496.
4. Pappas, Stephanie (11 February 2020). "The lost continent of Zealandia hides clues to the Ring of Fire's birth". Live Science.
5. Mortimer, Nick; Campbell, Hamish (2014). Zealandia: Our continent revealed. North Shore, New Zealand: Penguin Books. pp. 72 ff. ISBN 978-0-14-357156-8.
6. Yarwood, V. (November–December 2014). "Zealandia: Our continent revealed". New Zealand Geographic. Book Review. Archived from the original on 2017-07-29. Retrieved 2017-07-30.
7. Mortimer, Nick; Campbell, Hamish J. (2017). "Zealandia: Earth's Hidden Continent". GSA Today. 27: 27–35. doi:10.1130/GSATG321A.1. Archived from the original on 17 February 2017.
8. Potter, Randall (16 February 2017). "Meet Zealandia: Earth's latest continent". CNN. Archived from the original on 17 February 2017.
9. Hunt, Elle (16 February 2017). "Zealandia – pieces finally falling together for continent we didn't know we had". The Guardian. Archived from the original on 26 February 2017.
10. East, Michael (2017-02-16). "Scientists discover 'Zealandia' – a hidden continent off the coast of Australia". The Telegraph. Archived from the original on 2017-02-18.
11. Adams, C; Ramsay, W (2022). "Archean and Paleoproterozoic zircons in Paleozoic sandstones in southern New Zealand: evidence for remnant Nuna supercontinent and Ur continent rocks within Zealandia". Australian Journal of Earth Sciences. 69 (8): 1061–1081. Bibcode:2022AuJES..69.1061A. doi:10.1080/08120099.2022.2091039. S2CID 251000288.
12. Uruski, Christopher I. (2010). "New Zealand's deepwater frontier". Marine and Petroleum Geology. 27 (9): 2005–2026. Bibcode:2010MarPG..27.2005U. doi:10.1016/j.marpetgeo.2010.05.010. ISSN 0264-8172.
13. Song, Lijun; Feng, Xuliang; Yang, Yushen; Li, Yamin (2022). "Distribution, development, transformation characteristics, and hydrate prospect prediction of the rift basins of northwest Zealandia in the Southwest Pacific". Frontiers in Earth Science. 10: 997079. Bibcode:2022FrEaS..10.7079S. doi:10.3389/feart.2022.997079. ISSN 2296-6463.
14. Stratford, W.; Sutherland, R; Dickens, Gerald; Blum, Peter; Collot, Julien; Gurnis, M; Saito, S; Aurelien, Bordenave; Etienne, Samuel; Agnini, C; Alegret, L; Gayané, Asatryan; Bhattacharya, Joyeeta; Chang, Liao; Cramwinckel, Margot; Dallanave, Edoardo; Drake, Michelle; Giorgioni, Martino; Harper, Dustin; Zhou, Xiaoli (2022). "Timing of Eocene compressional plate failure during subduction initiation, northern Zealandia, southwestern Pacific". Geophysical Journal International. 229. doi:10.1093/gji/ggac016.