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Maroa Caldera

Coordinates: 38°25′12″S 176°4′48″E / 38.42000°S 176.08000°E / -38.42000; 176.08000
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Maroa Caldera
Maroa Caldera approximate location and boundaries contained within the older Whakamaru Caldera. The Ohakuri Caldera which had a paired eruption with the Rotorua Caldera is to its north and was not recognised as a separate caldera historically. To its west is the oldest Mangakino Caldera of the old Taupō Rift (yellow shading). Also shown is the modern Taupō Rift (red shading), Hauraki Rift (purple shading) and landmarks of Lake Taupō and Lake Rotorua
Highest point
PeakMaroanui
Elevation897 m (2,943 ft)
Coordinates38°31′11″S 176°01′19″E / 38.5198°S 176.022°E / -38.5198; 176.022
Dimensions
Length25 km (16 mi)[1]
Width16 km (9.9 mi)[1]
Geography
Maroa Caldera is located in North Island
Maroa Caldera
Maroa Caldera
CountryNew Zealand
RegionWaikato
Range coordinates38°25′12″S 176°4′48″E / 38.42000°S 176.08000°E / -38.42000; 176.08000
Geology
Rock ageQuaternary (0.305–0.014 Ma)[2]
Mountain typeCaldera
Volcanic regionTaupō Volcanic Zone
Last eruption14,000 years ago[1]
Climbing
AccessState Highway 1 (New Zealand)

The Maroa Caldera (Maroa Volcanic Centre) is approximately 16 km × 25 km (9.9 mi × 15.5 mi) in size and is located in the north-east corner of the earlier Whakamaru caldera in the Taupō Volcanic Zone in the North Island of New Zealand.

Geography

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Its northern rim is to the south of the Waikato River at Ātiamuri. At Ātiamuri the Ohakuri Caldera which had a paired eruption with the Rotorua Caldera is to its immediate north. The eastern boundary is also defined by the present Waikato River and it extends as far south as probably opposite Orakei Korako on the river. The southern boundary is somewhat ill defined given the subsequent deep deposits from the Taupō Volcano but includes a number of domes of which the highest is Maroanui at 897 metres (2,943 ft).

Eruptive history

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The Maroa Caldera's last major eruption produced 140 km3 (33.6 cu mi) of tephra about 230,000 years ago (230 ka).[2] Its earliest eruption was about 300 ka with decreasing frequency and volume to as recently as 11.3 ± 1.7 ka,[3] when an eruption of about 0.25 km3 (0.1 cu mi) occurred from the Puketarata volcanic complex (38°33′02″S 176°03′16″E / 38.550573°S 176.054519°E / -38.550573; 176.054519 to distinguish from another older volcano of this name near Te Kawa).[4][5] The caldera is now mainly dome lava in filled.[1] In summary going back in time:[1]

  • 11,300 ± 1,700 years ago most recent eruption Puketarata tuff ring,[3] which formed with total volume of 0.25 km3 (0.060 cu mi)[5] in a complex series of eruptions including maar formation[4]
  • 229,000 to 196,000 years ago Pukeahua deposits and dome building
  • 220,000 years ago unclear where Mokai ignimbrite that outcrop in some of Maroa area comes from
  • 229,000 ± 12,000 years ago Ātiamuri deposits from northern Maroa
  • 251,000 ± 17,000 years ago onward two large parallel dome complexes developed
  • 256,000 ± 12,000 years ago Orakonui pyroclastics from a central Maroa source
  • 272,000 ± 10,000 years ago Putauaki pyroclastics from a central Maroa source
  • 275,000 to 240,000 years ago small-scale pyroclastic eruptions
  • 283,000 ± 11,000 years ago Korotai deposits from northern Maroa
  • 305,000 ± 17,000 years ago oldest Maroa dome
Map
Map centered to show selected surface volcanic deposits in area of postulated Maroa Caldera/Volcanic Centre (light green shading, boundary particularly in south-east ill defined).[1]: 4  The present surface ignimbrite is various light violet shades which are identical for any single source, but other eruptions may breakup the mutual ignimbrite sheets. Clicking on the map enlarges it, and enables panning and mouseover of volcanic deposits name/wikilink and ages before present for wider volcanic context. The key to the shading of other volcanics that are shown (active in last million years odd) with panning is rhyolite - violet, dacite - purple, basalt - brown, monogenic basalts - dark brown, undifferentiated basalts of the Tangihua Complex in Northland Allochthon - light brown, arc basalts - deep orange brown, arc ring basalts -orange brown, andesite - red , basaltic andesite`- light red, and plutonic - gray. White shading has been used for other postulated calderas (usually subsurface now) including the older overlapping Whakamaru Caldera.

References

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  1. ^ a b c d e f Leonard, Graham S. (2003). The evolution of Maroa Volcanic Centre, Taupō Volcanic Zone, New Zealand (Thesis). University of Canterbury. Retrieved 2022-05-15.
  2. ^ a b "Supplementary Table to P.L. Ward, Thin Solid Films (2009) Major volcanic eruptions and provinces" (PDF). Teton Tectonics. Retrieved 2010-03-16.
  3. ^ a b Kósik, S; Hasegawa, T; Danišík, M; Németh, K; Okada, M; Friedrichs, B; Schmitt, AK (12 July 2023). "Multi-method constraints on the age and timescale of silicic small-volume eruptions of Puketerata Volcanic Complex, Taupō Volcanic Zone, New Zealand". Earth, Planets and Space. 75 (107). doi:10.1186/s40623-023-01861-0.
  4. ^ a b Kósik, S.; Németh, K.; Lexa, J.; Procter, J.N. (2019). "Understanding the evolution of a small-volume silicic fissure eruption: Puketerata Volcanic Complex, Taupo Volcanic Zone, New Zealand". Journal of Volcanology and Geothermal Research. 383: 28–46. doi:10.1016/j.jvolgeores.2017.12.008. ISSN 0377-0273. S2CID 134914216.
  5. ^ a b Brooker, M. R.; Houghton, B. F.; Wilson, C. J. N.; Gamble, J. A. (1993). "Pyroclastic phases of a rhyolitic dome-building eruption: Puketarata tuff ring, Taupo Volcanic Zone, New Zealand". Bulletin of Volcanology. 55 (6): 395–406. doi:10.1007/BF00301999. S2CID 129649708.