Waiareka-Deborah volcanic field

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Waiareka-Deborah volcanic field
Stratigraphic range: Oligocene (39.5–27.6  Ma ) [1]
TypeIgneous
Overlies Rakaia Terrane
Area890 square kilometres (340 sq mi) [1]
Lithology
PrimarySub-alkaline basalt and basaltic andesite
Location
Coordinates 45°00′S170°18′E / 45.0°S 170.3°E / -45.0; 170.3
RegionOtago
CountryNew Zealand
Type section
Named forWaiareka Valley, inland from Oamaru
Waiareka-Deborah volcanic field
Map of surface volcanic features of the South Island centred near Oamaru. The basalts of the Waiareka-Deborah volcanic field are more red tinted than those of the Dunedin volcanic group. Clicking on the map enlarges it, and enables panning and mouseover of volcano name/wikilink and ages before present. Key for the volcanics that are shown with panning is: '"`UNIQ--templatestyles-00000005-QINU`"'   basalt (shades of brown/orange), '"`UNIQ--templatestyles-00000006-QINU`"'   monogenetic basalts, '"`UNIQ--templatestyles-00000007-QINU`"'  undifferentiated basalts, '"`UNIQ--templatestyles-00000008-QINU`"'  arc basalts, '"`UNIQ--templatestyles-00000009-QINU`"'  arc ring basalts, '"`UNIQ--templatestyles-0000000A-QINU`"'   olivine (basalts shades of olive), '"`UNIQ--templatestyles-0000000B-QINU`"'   phonolite (pale salmon), '"`UNIQ--templatestyles-0000000C-QINU`"'   dacite , '"`UNIQ--templatestyles-0000000D-QINU`"'   andesite (shades of red), '"`UNIQ--templatestyles-0000000E-QINU`"'  basaltic andesite, '"`UNIQ--templatestyles-0000000F-QINU`"'   rhyolite , (ignimbrite is lighter shades of violet), and '"`UNIQ--templatestyles-00000010-QINU`"'  plutonic or intusive (gray) - so dolerite/diabase/microgabbro will have shadings towards gray compared to erupted basalt.

The Waiareka-Deborah volcanic field is a group of sub-alkaline basalt to basaltic andesite composition volcanics, that erupted 36.4 to 27.6 million years ago. They are found near Oamaru, South Island New Zealand, [1] and are small Surtseyan volcanoes that erupted originally on a submerged continental shelf. [2] [3]

Contents

The former term, the Waiareka-Deborah volcanic group should not be used as any alkali basalt volcanoes in this group and all of those in the former Waiareka volcanic field are now assigned to the Dunedin volcanic group and its monogenetic volcanic field. [4]

Geography

They extend on the present Otago coast south from just north of Oamaru, but well south of the Waitaki River, to the Moeraki Peninsula. There are probably Southern Pacific Ocean subsurface components from sonar studies but no such have not yet been characterised by core sampling. Accordingly, a further area of up to 2,500 square kilometres (970 sq mi) could yet be assigned to these volcanics. [1] The furtherest inland deposit is at Basalt Hill just beyond the Maerewhenua River. There are Dunedin volcanic group eruptives between this and the coast and indeed most of the field is coastal. [1]

Geology

Deposits without an age may need reclassification due to complexity. The presence of six overlapping Surtseyan volcanoes at one site, Cape Wanbrow, is an example of this complexity. [5] At least two examples of more recent alkaline Dunedin volcanic group eruptives through Waiareka-Deborah volcanic field crystalline rock have been characterised to date. [1]

Waiareka-Deborah volcanic field [1]
FeatureAgeGeology/Comments
Basalt Hill-sub-alkaline basalt to basaltic andesite crystalline rock on underlying Cenozoic non-volcanic sediments
Tokarahi Sill-sub-alkaline basalt to basaltic andesite crystalline rock on underlying Cenozoic non-volcanic sediments. Doleritic sills in limestone.
Boatmans Harbour34.2 ± 0.4 Masub-alkaline basalt to basaltic andesite volcaniclastic rocks on underlying Cenozoic non-volcanic sediments, basaltic pillows in the Ototara Limestone matrix with pillow rinds of sideromelane enclosing labradorite and olivine, with clinopyroxene present in the pillow interiors.
Cape Wanbrow 34.2, 36, 38 Ma [5] [6] Six volcanoes have been defined that erupted over a period of more than 3 million years with overlapping eruptives. [5] Layered sub-alkaline basalt to basaltic andesite volcaniclastic projection into sea. One alkaline basanitic ash horizon. Pillows have interstitial bryozoan limestone
Enfield-sub-alkaline basalt to basaltic andesite crystalline rock on underlying Cenozoic non-volcanic sediments
Round Hill33.6 ± 1.8 Masub-alkaline basalt to basaltic andesite crystalline rock surrounded by volcaniclastic rocks on underlying Cenozoic non-volcanic sediments
Awamoa Creek-sub-alkaline basalt to basaltic andesite volcaniclastic rocks on underlying Cenozoic non-volcanic sediments
Alma-sub-alkaline basalt to basaltic andesite. Alma Group is another name for these volcanics in the literature
Clarks Mill Sill-sub-alkaline basalt to basaltic andesite volcaniclastic rocks on underlying Cenozoic non-volcanic sediments. Doleritic sills in limestone.
Trig S, Maheno 34.0 ± 0.6 Masub-alkaline basalt to basaltic andesite
Kakanui34.1 ± 0.1 Maalkaline melanephelinite and basanitic clasts crystalline rock on underlying Cenozoic non-volcanic sediments, sideromelane pyroclasts
Aorere aPoint39.5 ± 1.8 Masub-alkaline basalt to basaltic andesite, crystalline rock on underlying Cenozoic non-volcanic sediments
Mount Charles Sill-sub-alkaline basalt to basaltic andesite, volcaniclastic rocks on underlying Cenozoic non-volcanic sediments. Olivine dolerite at base overlaid with quartz dolerite. Doleritic sills in mudstone.
Lookout Bluff8 MaThis is from composition characterisation a smaller Dunedin volcanic group [4] later eruption in the middle of an earlier volcaniclastic rock on underlying Cenozoic non-volcanic sediments
Moeraki Sill-sub-alkaline basalt to basaltic andesite, crystalline rocks on underlying Cenozoic non-volcanic sediments. Doleritic sills in siltstone and mudstone. A Porcellanite deposit was quarried by the Māori but note that some deposits may be dykes from Dunedin volcanic group.
Tawhiroko Sill-sub-alkaline basalt to basaltic andesite, volcaniclastic rocks on underlying Cenozoic non-volcanic sediments . Olivine dolerite at the base and a pegmatitic quartz dolerite core

History

The first geological description of volcanics associated with the group was made in 1850 by Dr. Gidon Algernon Mantell in the Quarterly Journal of the Geological Society. [7] This is acknowledged in the first comprehensive geology review of Oamaru district that uses extensively the term "Deborah limestone" with respect to sedimentary strata in relationship to the volcanics. [8]

See also

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The volcanic activity in the South Island of New Zealand terminated 5 million years ago as the more northern parts of the North Island became extremely volcanically active. The South Islands surface geology reflects the uplift of the Pacific Plate as it collides with the Indo-Australian Plate along the Alpine Fault over the last 12 million years and the termination of subduction, about 100 to 105 million years ago. There is a very small chance of reactivation of volcanism in the Dunedin Volcano. This chance is made slightly higher by the observation that Southland's Solander Islands / Hautere just off the coast of the South Island were active as recently as 50,000 years old, and on a larger scale 150,000 years old.

The Dunedin volcanic group is a volcanic group that covers over 7,800 km2 (3,000 sq mi) of Otago in the South Island of New Zealand. It is a recent reclassification of the group previously known as the Waiareka-Deborah volcanic field due to common magma melt ancestries of the Dunedin Volcano with the overlapping alkali basaltic monogenetic volcanic field. Excluded from the group are a group of volcanics of different composition and older age near Oamaru, which have been given the name previously used for the Dunedin group. The older Waiareka-Deborah volcanic field overlaps the new Dunedin volcanic group geographically; though Dunedin Volcano has been well studied from the 1880s since New Zealand's first school of geology was established at the University of Otago, detailed studies of north-central volcanoes such as the Crater near Middlemarch were done much later, and high-quality composition studies still need to be done to properly classify many volcanics near Oamaru.

References

  1. 1 2 3 4 5 6 7 Scott, James M.; White, James D. L.; le Roux, Petrus J. (2020). "Intraplate volcanism on the Zealandia Eocene-Early Oligocene continental shelf: The Waiareka-Deborah Volcanic Field, North Otago". New Zealand Journal of Geology and Geophysics. 63 (4): 450–468. doi:10.1080/00288306.2020.1785896. S2CID   221380814.
  2. Simone Hicks, PhD proposal: Ecological and sedimentological evolution of the volcanically active Oligocene continental shelf, east Otago, New Zealand, Geology Department, University of Otago. Retrieved 19 April 2010.
  3. R. A. F. Cas; C. A. Landis; R. E. Fordyce (1989). "A monogenetic, Surtla-type, Surtseyan volcano from the Eocene-Oligocene Waiareka-Deborah volcanics, Otago, New Zealand: A model". Bulletin of Volcanology. 51 (4): 281–298. Bibcode:1989BVol...51..281C. doi:10.1007/BF01073517. S2CID   129657592.
  4. 1 2 Scott, James M.; Pontesilli, Alessio; Brenna, Marco; White, James D. L.; Giacalone, Emanuele; Palin, J. Michael; le Roux, Petrus J. (2020). "The Dunedin Volcanic Group and a revised model for Zealandia's alkaline intraplate volcanism". New Zealand Journal of Geology and Geophysics. 63 (4): 510–529. doi:10.1080/00288306.2019.1707695. S2CID   212937447.
  5. 1 2 3 Moorhouse, BL; White, JD; Scott, JM (2015). "Cape Wanbrow: A stack of Surtseyan-style volcanoes built over millions of years in the Waiareka–Deborah volcanic field, New Zealand". Journal of Volcanology and Geothermal Research. 298: 27–46. doi:10.1016/j.jvolgeores.2015.03.019.
  6. Moorhouse, BL; White, JD (2016). "Interpreting ambiguous bedforms to distinguish subaerial base surge from subaqueous density current deposits". The Depositional Record. 2 (2): 173–95. doi: 10.1002/dep2.20 .
  7. Gidon Algernon Mantell (1850). "Notice on the Remains of the Dinornis and other Birds, and of Fossils and Rock Specimens, recently collected by Mr Wanter Mantell in the Middle Island of New Zealand; with Additional Notes on the Northern Island". Quarterly Journal of the Geological Society. 6: 319–343.
  8. Park, James (1918). "The geology of the Oamaru district, North Otago (Eastern Otago division)". Bulletin of the Geological Survey Branch of the Mines Department (20). New Zealand Geological Survey Office: 4–5.
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