Whakamaru Caldera

The Whakamaru Caldera was created in a massive supereruption 335,000 years ago and is approximately 30 by in size and is located in the North Island of New Zealand. It now contains active geothermal areas as well as the later Maroa Caldera.

Geography
The Whakamaru Caldera covers an area larger than the younger Taupō Volcano to its south and indeed the rims overlap. To its north the more recent eruptive centres have sometimes been grouped as the Mokai Ring Complex or Maroa Volcanic Centre. It contains to its north east the more recently active Maroa Caldera with the Ben Lomond Dome being outside the southern border of the Maroa Caldera but definitely a feature of the Whakamaru Caldera. Domes within the caldera include the Western Dome Complex, including Pokuru which defines its north western borders (which likely overlap with those of the older Mangakino caldera complex), Forest Road Dome, Puketarata (near Te Pouwhakatutu, which is the last Maroa Caldera eruption, now known to be 11,300 ± 1,700 years ago), Ngangiho, which is 629 m high but beaten by Ben Lomond 744 m, and Marotiri 733 m just to the west of Kinloch.

Geology
The first eruptions may have occurred half a million years ago, but the period 320,000 to 340,000 years before the present have been characterised as:
 * 1) Whakamaru eruption
 * 2) *Massive eruption sequence over less than a thousand years with a VEI of 8 producing 1200 to 2000 km3 of tephra about 335,000 years ago (330 - 340 ka). This age in the most recent literature has slightly moved back to 340 ± 5 ka. This is the largest known in the Taupō Volcanic Zone and had at least three rhyolytic and one basaltic eruption in its sequence.
 * 3) *Although accumulation of the magma mush may have been over more than 200,000 years there is increasing evidence that eruption only became possible over a period that may have been as short as 10 years through a rapid thermal pulse or pressure change.
 * 4) *From sea core sediment studies it is known that it deposited the widespread Mount Curl/Rangitawa Tephra, dominantly to the southeast (in addition to occurrences northwest), extending across the landmass of New Zealand, and the South Pacific Ocean and Tasman Sea. The eruption has been calculated to have been 1500 km3 dense-rock equivalent (DRE) and modelled to have produced a Plinian column approximately 45 km high. At the Chatham Islands which is more than 900 km from the Whakamaru Caldera the deposits are up to 30 cm thick. About 200 km from the source in New Zealand itself the Rangitawa Tephra is up to 70 cm thick so a large area of the planet's biosphere would have been impacted.
 * 5) *Whakamaru ignimbrite
 * 6) **Found over an area of 13000 km2 mainly to west of caldera
 * 7) **Up to 1 km thick
 * 8) *Rangataiki ignimbrite
 * 9) **Found mainly to east of caldera
 * 10) Mananui eruption (also termed Whakamaru 2 eruption about 330,000 to 320,000 years ago
 * 11) *Mananui ignimbrite found mainly to west of caldera
 * 12) *Te Whaiti ignimbrite found mainly to east of caldera and likely to be same eruptive sequence as Mananui
 * 13) Paeroa eruption by 320,000 years ago on datings above
 * 14) *Paeroa ignimbrite is found mainly to east of caldera, and is exposed by the Paeroa Fault. It has been redated to 339 ± 5 ka and assigned to a linear vent zone to the east of the caldera, which could make the Whakamaru ignimbrite older by about 20,000 years and could dissociate this eruption from the Whakamaru Caldera. The total amount of ignimbrite erupted was about 110 km3. As it may have been associated with residual magma from the Whakamaru event it can remain classified with the Whakamaru Caldera for the purposes of this article.
 * 15) The Western Dome Belt eruptions
 * 16) *These represent separate younger magmas that were emplaced over an extended period, from 340,000 to 240,000 years ago

The Maroa Caldera eruptions can be regarded as a separate sequence of rholite eruptions commencing from 305,000 years ago continuing to as recently as 14,000 years ago:
 * 305,000 ± 17,000 years ago oldest Maroa dome
 * 283,000 ± 11,000 years ago Korotai deposits from northern Maroa
 * 275,000 to 240,000 years ago small-scale pyroclastic eruptions
 * 272,000 ± 10,000 years ago Putauaki pyroclastics from a central Maroa source
 * 256,000 ± 12,000 years ago Orakonui pyroclastics from a central Maroa source
 * 251,000 ± 17,000 years ago onward two large parallel dome complexes developed
 * 229,000 ± 12,000 years ago Atiamuri deposits from northern Maroa
 * 220,000 unclear where Mokai ignimbrite that outcrop in some of Maroa area comes from
 * 229,000 to 196,000 years ago Pukeahua deposits and dome building
 * 11,300 ± 1,700 years ago Puketarata tuff ring formed with total volume of 0.25 km3 in a complex series of eruptions including maar formation