Auckland volcanic field explained

Auckland Volcanic Field
Photo Alt:Map of the Auckland Volcanic Field from 1859
Map Alt:Auckland volcanic field map
Elevation M:260
Coordinates:-36.877°N 174.764°W
Type:Volcanic field
Geology:Basalt
Last Eruption:c. 1400 CE

The Auckland volcanic field is an area of monogenetic volcanoes covered by much of the metropolitan area of Auckland, New Zealand's largest city, located in the North Island. The approximately 53 volcanoes in the field have produced a diverse array of maars (explosion craters), tuff rings, scoria cones, and lava flows. With the exception of Rangitoto, no volcano has erupted more than once,[1] [2] but the other eruptions lasted for various periods ranging from a few weeks to several years.[3] Rangitoto erupted several times and recently twice; in an eruption that occurred about 600 years ago, followed by a second eruption approximately 50 years later.[4] The field is fuelled entirely by basaltic magma, unlike the explosive subduction-driven volcanism in the central North Island, such as at Mount Ruapehu and Lake Taupō.[5]

Features

The field ranges from Lake Pupuke and Rangitoto Island in the north to Matukutururu (Wiri Mountain) in the south, and from Mount Albert in the west to Pigeon Mountain in the east.

The first vent erupted at Pupuke 193,200 ± 2,800 years ago.[6] The most recent eruption (about 600 years ago and within historical memory of the local Māori) was of Rangitoto, an island shield volcano just east of the city, erupting 0.7 cubic kilometres of lava. The last volcano to erupt was much bigger than all others, with Rangitoto making up 41 per cent of the field's entire volume of erupted material[7] with characteristics as to slope and symmetry around the eruptive vents seen in basaltic shield volcanoes as might be expected in a volcano, that may have buried other volcanoes, and now known to have a 1000-year odd eruptive history. The field's other volcanoes are relatively small, with most less than in height.

Lake Pupuke, on the North Shore near Takapuna, is a volcanic explosion crater. A few similar craters such as Ōrākei Basin are open to the sea.

The field has produced voluminous lava flows that cover much of the Auckland isthmus. One of the longest runs from Mt Saint John northward, almost crossing the Waitematā Harbour to form Meola Reef.[8] More than 50 lava tubes and other lava caves have been discovered, including the 290m (950feet)-long Wiri Lava Cave.[9] There can be an association with lava caves and the formation of rootless cones due to their mechanism of formation and a rootless cone was suggested to exist at Wiri being Matukutūreia.[10] This may not be quite the case even though at least one steam only driven eruption occurred close to Matukutūreia.[11] The second-longest individual cave in the Auckland field, some 270m (890feet) in total length, is the Cave of a Thousand Press-ups to the east of Maungakiekie/One Tree Hill.[12] Two impressive depressions caused by lava cave collapses are the Puka Street Grotto and the nearby Hochstetter Pond, also known as Grotto Street Pond, in Onehunga.[13] [14]

For most of the 200,000 years that the field has been erupting, the planet has been in glacial periods (ice ages) where sea levels were much lower due to water being locked up as ice, and the Waitemata and Manukau Harbours were dry land. All the volcanoes probably erupted on land except for Rangitoto, which erupted during the current interglacial (warmer) period.[15]

Tectonic relationships

The Auckland region lies within the Australian Plate, about west of its plate boundary with the Pacific Plate.[16] The volcanoes are located south of a geological region called the Northland Allochthon, and with the northern volcanoes located over early Miocene sedimentary deposits of the Waitematā Group of rocks and the southern volcanoes over post Miocene sediments. A large proportion of the volcanoes in the field, particularly those with cone structures, lie within of inferred or known faults, with the qualification that these are inactive historic faults and unlike in many other volcanic fields it is rare for volcanoes to be actually on the fault line.[17] The structure of these Auckland regional faults and the resulting fault blocks is complex but like the volcanic field their locations can be postulated to be related to gravitational variations and where the Stokes Magnetic Anomaly passes through this section of the North Island.The field is part of the Auckland Volcanic Province which comprises four volcanic fields with intra-plate basaltic volcanism starting in the south, at Okete, near Raglan in late Pliocene times (2.7-1.8 Ma). Activity has since moved north through the Ngatutura, South Auckland and Auckland fields since then.[18]

Human context

Mythology

Tāmaki Māori myths describe the creation of the volcanic field as a creation of Mataaho (the guardian of the earth's secrets) and his brother Rūaumoko (the god of earthquakes and volcanoes), made as punishment against a tribe of patupaiarehe, supernatural beings living in the Waitākere Ranges, who used deadly magic from the earth to defeat a war party of patupaiarehe from the Hunua Ranges.[19] [20] In some traditions, the fire goddess Mahuika creates the volcanic field as a way to warm Mataaho, after his wife leaves and takes his clothing.[21] [22] Because of their close association to Mataaho, the volcanic features can be collectively referred to as Nga Maunga a Mataaho ("The Mountains of Mataaho"), or Ngā Huinga-a-Mataaho ("the gathered volcanoes of Mataaho"). Many of the volcanic features of Māngere can be referred to as Nga Tapuwae a Mataoho ("The Sacred Footprints of Mataoho"), including Māngere Lagoon, Waitomokia, Crater Hill, Kohuora, Pukaki Lagoon and Robertson Hill. Many of the Māori language names of volcanic features in the field refer to Mataaho by name, including Te Pane o Mataaho (Māngere Mountain), Te Tapuwae a Mataoho (Robertson Hill) and Te Kapua Kai o Mataoho (the crater of Maungawhau / Mount Eden).

Usage

Many of the maunga (mountains) were occupied by substantial Māori (fortifications) before Pākehā settlement, and many terraces and other archeological remnants are still visible.[23] Many of the cones have been levelled or strongly altered, in small part due to the historical Māori use, but mostly through relatively recent quarrying of construction materials (especially scoria). However many of the remaining volcanoes are now preserved as landmarks and parks.

The warmer northern sides of the mountains were also popular among early Pākehā settlers for housing. In the 1880s, Takarunga / Mount Victoria and Maungauika / North Head were developed as military installations due to fears of a Russian invasion. The cones are also protected by a 1915 law, the Reserves and Other Lands Disposal and Public Bodies Empowering Act 1915, which was passed due to early concern that the distinctive landscape was being eroded, especially by quarrying. While often ignored until the late 20th century, it has amongst other things minimised severe changes to Mount Roskill proposed by Transit New Zealand for the Southwestern Motorway.[24]

In March 2007, New Zealand submitted the volcanic field, with several specifically named features, as a World Heritage Site candidate based on its unique combination of natural and cultural features.[25] At that time, only 2 per cent of more than 800 World Heritage Sites worldwide were in this "mixed" category.

For most of Auckland's post-1840 history, the mountains have been administered variously by the New Zealand Crown, the Auckland Council (or its former bodies including the Auckland City Council and Manukau City Council) or the Department of Conservation.

In the 2014 Treaty of Waitangi settlement between the Crown and the Ngā Mana Whenua o Tāmaki Makaurau collective of 13 Auckland iwi and hapu (also known as the Tāmaki Collective), ownership of the 14 Tūpuna Maunga (ancestral mountains) of Tāmaki Makaurau / Auckland, was vested to the collective. The legislation specified that the land be held in trust "for the common benefit of Ngā Mana Whenua o Tāmaki Makaurau and the other people of Auckland". The Tūpuna Maunga o Tāmaki Makaurau Authority or Tūpuna Maunga Authority (TMA) is the co-governance organisation established to administer the 14 Tūpuna Maunga. Auckland Council manages the Tūpuna Maunga under the direction of the TMA.[26] [27]

Dangers

Since the field is not extinct, new volcanic events may occur at any time, though the usual period between events is, on average, somewhere between hundreds to thousands of years. There has been at least one eruption in every 2,500 years over the last 50,000 years.[28] However, the effects of such an event—especially a full-scale eruption—would be substantial, ranging from pyroclastic surges to earthquakes, lava bombs, ash falls, and the venting volcanic gas, as well as lava flows. These effects might continue for several months, potentially causing substantial destruction and disruption, ranging from the burial of substantial tracts of residential or commercial property, to the mid-to-long-term closures of major parts of the country's infrastructure such as the Port of Auckland, the State Highway network, or the Auckland Airport.[29] It is possible that several volcanoes could erupt simultaneously. There is strong evidence that eight erupted within a span of 3000 years or so, between 31,000 and 28,000 years ago.

Most eruptive events in the field have been small volume, very constrained in time, typically involving less than 0.005km3 of magma making its way to the surface. However the same amount of magma can have an order of magnitude different impact. An underwater eruption which is more likely to be explosive resulted in the formation of the 0.7km (00.4miles) wide Ōrākei crater that destroyed an area of 3km3 by crater formation and base surge impact. This contrasts with the about 0.5km (00.3miles) diameter cone produced by the same amount of upwelling magma that might be expected to destroy an area of 0.3km3 if there is no ground water interaction. Modelling has suggested that the next eruption in the volcanic field is likely to be associated with water and in the area extending from the central city to its north and northeast suburbs surrounding and including the Waitemata Harbour.[30] Within New Zealand the volcanic hazard of the field is graded below that of Taupo Volcanic Zone volcano's but is likely to be perceived by the population affected as a greater potential nuisance if it occurs[31]

Various operative structures, plans and systems have been set up to prepare responses to volcanic activity within the urban areas, mainly coordinated in the Auckland Volcanic Field Contingency Plan of the Auckland Regional Council, which provides a framework for interaction of civil defence and emergency services during an eruption. Auckland also has a seismic monitoring network comprising six seismometers—including one deep at Riverhead—and three repeaters within the region that will detect the small tremors likely to precede any volcanic activity.[32] This is likely to give between a few hours and several days' warning of an impending eruption, and its approximate location.[33]

Auckland War Memorial Museum, itself built on the crater rim of Pukekawa, has an exhibition on the field, including the "Puia Street multi-sensory visitor experience", which simulates a grandstand view of an eruption in Auckland.[34]

List of volcanoes

The volcanoes within the field are:[35] [36]

VolcanoesAge (thousand years)[37] HeightLocation (Coordinates)RefsImages
Albert Park Volcano145.0 ± 4.0Unclear-36.8486°N 174.7673°W[38]
Ash Hill31.8 ± 0.4-37.0028°N 174.8675°W
Boggust Park Crater130+-36.9554°N 174.8136°W[39]
Cemetery CraterUndated-36.9898°N 174.8411°W
Crater Hill30.4 ± 0.8-36.9865°N 174.8271°W
Grafton Volcano106.5-36.8584°N 174.7636°W
Hampton Park57.0 ± 32.0-36.9509°N 174.8954°W
Kohuora33.7 ± 2.4-36.9787°N 174.8427°W
Māngere Lagoon59.5-36.957°N 174.7776°W
Matanginui / Green Mount19.6 ± 6.6-36.9399°N 174.8983°W
Matukutūreia / McLaughlins Mountain48.0 ± 3.0-37.0135°N 174.846°W
Maungakiekie / One Tree Hill67.0 ± 12.0-36.9°N 174.7831°W
Maungarahiri / Little Rangitoto24.6 ± 0.6-36.8754°N 174.8096°W
Maungarei / Mount Wellington10.0 ± 1.0-36.8931°N 174.8466°W
Maungataketake / Elletts Mountain88.9 ± 4.8-36.9946°N 174.7475°W
Maungauika / North Head87.5 ± 15.2-36.8278°N 174.8121°W
Maungawhau / Mount Eden28.0 ± 0.6-36.877°N 174.764°W
Motukorea / Browns Island24.4 ± 0.6-36.8306°N 174.8948°W
Mount Robertson / Sturges Park24.3 ± 0.8-36.9485°N 174.8417°W
Ōhinerau / Mount Hobson34.2 ± 1.8-36.8778°N 174.7862°W
Ohuiarangi / Pigeon Mountain23.4 ± 0.8-36.8888°N 174.9031°W
Ōrākei Basin126.0 ± 6.0-36.8671°N 174.8131°W
Ōtāhuhu / Mount Richmond30.2 ± 4.2-36.9326°N 174.8395°W
Ōtuataua24.2 ± 1.8-36.9861°N 174.7542°W
Ōwairaka / Te Ahi-kā-a-Rakataura / Mount Albert119.2 ± 5.6-36.8905°N 174.7201°W
Puhinui CratersUndated
Pukaki Lagoon45+-36.983°N 174.8102°W
Pukeiti23.7-36.9838°N 174.7572°W
Pukekawa / Auckland Domain106.0 ± 8.0-36.8592°N 174.7758°W
Pukewīwī / Puketāpapa / Mount Roskill105.3 ± 6.2-36.9123°N 174.7374°W
Pukewairiki130+-36.9441°N 174.8659°W
Pupuke193.2 ± 5.6-36.7801°N 174.7662°W
Rangitoto Island0.62 (first eruption)-36.7867°N 174.8601°W
Rarotonga / Mount Smart20.1 ± 0.2 (quarried)-36.9183°N 174.8125°W
Styaks Swamp19.1-36.9361°N 174.9002°W
Takaroro / Mount Cambria42.3 ± 22.0 (quarried)-36.8244°N 174.8019°W
Takarunga / Mount Victoria34.8 ± 4.0-36.8266°N 174.799°W
Taurere / Taylors Hill30.2 ± 0.2-36.8642°N 174.8699°W
Te Apunga-o-Tainui / McLennan Hills41.3 ± 2.4 (quarried)-36.9292°N 174.8465°W
Te Hopua-a-Rangi / Gloucester Park31.0-36.9295°N 174.7847°W
Te Kopua Kai-a-Hiku / Panmure Basin25.2 ± 1.8-36.905°N 174.8493°W[40]
Te Kopua-o-Matakamokamo / Tank Farm / Tuff Crater181.0 ± 2.0-36.802°N 174.7533°W
Onepoto187.6-36.8082°N 174.7509°W
Te Kōpuke / Tītīkōpuke / Mount St John75.3 ± 3.4-36.8834°N 174.7802°W
Te Motu-a-Hiaroa / Puketutu29.8 ± 4.4-36.9652°N 174.7472°W
Te Pane-o-Mataaho / Māngere Mountain59.0 ± 20.0-36.9496°N 174.7831°W[41]
Te Pou Hawaiki28.0+ (quarried)-36.8825°N 174.7667°W
Te Puke ō Tara / Otara Hill56.5 (quarried)-36.9471°N 174.8984°W
Te Tātua-a-Riukiuta / Three Kings31.0 ± 1.8-36.9029°N 174.7547°W
Te Tauoma / Purchas Hill10.9 ± 0.2 (quarried)-36.8871°N 174.8475°W
Waitomokia / Mt Gabriel20.3 ± 0.2 (quarried)-36.977°N 174.7703°W
Whakamuhu / Saint Heliers / Glover Park – see Achilles Point161.0 ± 36.0-36.8469°N 174.8677°W
Wiri Mountain / Matukutūruru30.1–31.0 (quarried)-37.0073°N 174.8584°W

See also

References

Further reading

External links

Notes and References

  1. Phil . Shane. Maria . Gehrels . Aleksandra . Zawalna-Geer . Paul . Augustinus. Jan . Lindsay. Isabelle. Chaillou . Longevity of a small shield volcano revealed by crypto-tephra studies (Rangitoto volcano, New Zealand): Change in eruptive behavior of a basaltic field . Journal of Volcanology and Geothermal Research . 257 . 2013 . 174–183 . 0377-0273 . 10.1016/j.jvolgeores.2013.03.026 . 2013JVGR..257..174S .
  2. Linnell . Tamzin . etal . 2016 . Long-lived shield volcanism within a monogenetic basaltic field: The conundrum of Rangitoto volcano, New Zealand . Geological Society of America Bulletin . 128. 7–8. 1160–1172. 10.1130/B31392.1 . 2016GSAB..128.1160L .
  3. Book: Hayward . Bruce W. . Murdoch . Graeme . Maitland . Gordon . Volcanoes of Auckland: The Essential Guide . 2011 . Auckland University Press . 978-1-86940-479-6 .
  4. Needham . A.J. . Lindsay . J.M. . Smith . I.E.M. . Augustinus . P. . Shane . P.A. . Sequential eruption of alkaline and sub-alkaline magmas from a small monogenetic volcano in the Auckland Volcanic Field, New Zealand . Journal of Volcanology and Geothermal Research . April 2011 . 201 . 1–4 . 126–142 . 10.1016/j.jvolgeores.2010.07.017. 2011JVGR..201..126N .
  5. Web site: Auckland Volcanic Field Geology. https://web.archive.org/web/20130209165358/http://gns.cri.nz/Home/Learning/Science-Topics/Volcanoes/New-Zealand-Volcanoes/Volcano-Geology-and-Hazards/Auckland-Volcanic-Field-Geology. dead. 2013-02-09. 2023-01-05. Te Pῡ Ao Institute of Geological and Nuclear Sciences. Ian E.M. Smith . Sharon R. Allen . 26 January 2010.
  6. Leonard. Graham S.. Calvert. Andrew T.. Hopkins. Jenni L.. Wilson. Colin J. N.. Smid. Elaine R.. Lindsay. Jan M.. Champion. Duane E.. 2017-09-01. High-precision 40Ar/39Ar dating of Quaternary basalts from Auckland Volcanic Field, New Zealand, with implications for eruption rates and paleomagnetic correlations. Journal of Volcanology and Geothermal Research. en. 343. 60–74. 10.1016/j.jvolgeores.2017.05.033. 2017JVGR..343...60L . 0377-0273.
  7. Kereszturi. Gábor. Németh. Károly. Cronin. Shane J.. Agustín-Flores. Javier. Smith. Ian E. M.. Lindsay. Jan. 2013-10-01. A model for calculating eruptive volumes for monogenetic volcanoes — Implication for the Quaternary Auckland Volcanic Field, New Zealand. Journal of Volcanology and Geothermal Research. en. 266. 16–33. 10.1016/j.jvolgeores.2013.09.003. 2013JVGR..266...16K . 0377-0273.
  8. Hayward, Murdoch, Maitland (2011). pp. 134–135.
  9. Heritage New Zealand. Cave New World . https://web.archive.org/web/20070820234652/http://www.historic.org.nz/magazinefeatures/2006Winter/2006_Winter_CaveNewWorld%20.htm. dead. 2007-08-20. Winter 2006 . David Lomas . New Zealand Historic Places Trust.
  10. Rout. D.J.. Cassidy. J.. Locke. C.A.. Smith. I.E.. 1993. Geophysical evidence for temporal and structural relationships within the monogenetic basalt volcanoes of the Auckland volcanic field, northern New Zealand. Journal of Volcanology and Geothermal Research. 57. 1-2. 71–83. 10.1016/0377-0273(93)90032-M. 1993JVGR...57...71R.
  11. Technical Report 6:Geological evaluation Mclaughins Quarry private plan change request Geological evaluation of outstanding natural feature: Matukutūreia and Matukuturua lava field and tuff ring. 2019. S.. Cronin. 10 February 2024. https://web.archive.org/web/20240210153832/https://www.aucklandcouncil.govt.nz/UnitaryPlanDocuments/pc43-technical-report-6-geological-evaluation-report.pdf. 10 February 2024. 1–23.
  12. Kermode . Les . New Zealand lava caves worth preserving for their geologic and geomorphic features . Geoscience Reports of Shizuoka University . March 1994 . 20 . 15–24 . 6 December 2011 . https://web.archive.org/web/20160803100455/http://ir.lib.shizuoka.ac.jp/bitstream/10297/324/1/KJ00000102354.pdf . 3 August 2016 . dead .
  13. Hayward, Murdoch, Maitland (2011). pp. 17–18.
  14. Web site: Geology . The Onehunga Grotto . 9 May 2008 . 25 April 2013.
  15. Hayward, Murdoch, Maitland (2011). pp. 2–3.
  16. A . Kenny. JM . Lindsay . TM . Howe . 2012 . Post-Miocene faults in Auckland:insights from borehole and topographic analysis . New Zealand Journal of Geology and Geophysics . 55 . 4 . 323–343 . 10.1080/00288306.2012.706618 . 128945408 .
  17. Auckland's buried faults and their influence on its geology. Geoscience Society of New Zealand Conference . 26 November 2015 . Wellington . John R. . Stewart . 2022-11-12 . slideshow.
  18. Magmatic and Tectonic Interactions Revealed by Buried Volcanoes in Te Riu-a-Māui/Zealandia Sedimentary Basins . 378–401. 2020. New Zealand Journal of Geology and Geophysics. 63. Alan . Bischoff. Andrea . Barriera. Mac . Begg. Andrew . Nicola. Jim . Colea . Tusar . Sahoo. 10.1080/00288306.2020.1773510. 221380777 .
  19. Web site: Mataaho . maori.org.nz . https://web.archive.org/web/20201201030340/http://www.maori.org.nz/korero/default.php?pid=sp61&parent=55 . 1 December 2020 . 12 September 2021.
  20. Web site: Pegman . David M . The Volcanoes of Auckland . . Mangere Mountain Education Centre . https://web.archive.org/web/20120324071550/http://mangeremountain.com/content/library/The_Volcanoes_of_Auckland.pdf . August 2007 . 24 March 2012 . 6 October 2021.
  21. Web site: The History of Our Marae . Makaurau Marae . 1 September 2021.
  22. Web site: Taonui . Rāwiri. Tāmaki tribes. . . 15 September 2016 . 10 February 2015.
  23. Web site: Integrated Management Plan. Tūpuna Maunga o Tāmaki Makaurau Authority. 23 June 2016. Auckland Council. 6 October 2021.
  24. "The volcanic hills are being destroyed..." – City of Fire, insert magazine in The New Zealand Herald, 15 February 2008
  25. Web site: Auckland Volcanic Fields. 2023-01-05. UNESCO World Heritage Centre. 30 March 2007 . ((New Zealand Department of Conservation)).
  26. Web site: Ngā Mana Whenua o Tāmaki Makaurau Collective Redress Act 2014 No 52 . April 2022 . New Zealand Legislation . 2022-07-18 . legislation.govt.nz.
  27. Web site: Tūpuna Maunga significance and history . 2022-07-18 . Auckland Council . Te Tū whakahira me ngā kōrero tuku iho mō ngā Tūpuna Maunga .
  28. February 2012 . 4th International Maar Conference . MP131B. Field Guide Monogenetic volcanism of the South Auckland and Auckland Volcanic Fields. 2022-11-02. Karoly . Nemeth . Gabor . Kereszturi . Javier . Agustín-Flores. Roger Michael . Briggs.
  29. Web site: Beca Carter . ((Hollings & Ferner)) . 2002 . Contingency Plan for the Auckland Volcanic Field . dead . https://web.archive.org/web/20081015041157/http://www.arc.govt.nz/albany/fms/main/Documents/Council/Civil%20defence%20emergency%20management/Publications%20&%20factsheets/Auckland%20Volcanic%20Plan%20(VCP).pdf . 2008-10-15 . . Technical Publication 165.
  30. Magill. C. . Blong . R. 2004-10-07. Volcanic risk ranking for Auckland, New Zealand. II: Hazard consequences and risk calculation.. Bulletin of Volcanology. 67. 94. 340–349. 10.1007/s00445-004-0375-5. 140571635 .
  31. Web site: Doherty. Angela Louise . Blue‐sky eruptions, do they exist? Implications for monitoring New Zealand's volcanoes . Master's thesis . 2009 . University of Canterbury. 2022-06-07 .
  32. News: New recorder boosts earthquake, volcano warnings . . . 11 May 2008 . 22 July 2023.
  33. "When the earth starts to shake". City of Fire, insert magazine in The New Zealand Herald, 15 February 2008.
  34. Web site: Visit Volcanoes. Auckland War Memorial Museum. 28 September 2017.
  35. Lindsay . J.M. . Leonard . G.S. . Smid . E.R. . Hayward . B.W. . December 2011 . Age of the Auckland Volcanic Field: a review of existing data . New Zealand Journal of Geology and Geophysics . 54 . 4 . 379–401 . 10.1080/00288306.2011.595805 . 129707270 .
  36. Book: Hayward . B.W. . 2019 . Volcanoes of Auckland. A Field Guide. Auckland University Press. 334 . 978-1-86940-901-2.
  37. Hopkins . Jenni L. . Smid . Elaine R. . Eccles . Jennifer D. . Hayes . Josh L. . Hayward . Bruce W. . McGee . Lucy E. . van Wijk . Kasper . Wilson . Thomas M. . Cronin . Shane J. . Leonard . Graham S. . Lindsay . Jan M. . Németh . Karoly . Smith . Ian E. M. . Auckland Volcanic Field magmatism, volcanism, and hazard: a review . New Zealand Journal of Geology and Geophysics . 3 July 2021 . 64 . 2–3 . 213–234 . 10.1080/00288306.2020.1736102. 216443777 . 2292/51323 . free .
  38. Searle . E. J. . The volcanoes of Auckland city . New Zealand Journal of Geology and Geophysics . May 1962 . 5 . 2 . 193–227 . 10.1080/00288306.1962.10423108.
  39. Hayward . Bruce W. . Kenny . Jill A. . Grenfell . Hugh R. . 2011 . More volcanoes recognised in Auckland Volcanic Field . Geoscience Society of New Zealand Newsletter . 5 . 11–16 . 19 April 2013 .
  40. Book: Volcanoes of Auckland : a field guide. Auckland University Press. Bruce William . Hayward . Alastair. Jamieson. 2019 . 2022-10-30. 978-0-582-71784-8 .
  41. Web site: Mangere Mountain History Formation Mangere Mountain. Mountain. Māngere. Māngere Mountain. en. 28 April 2019.