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New Zealand Journal of Geology and Geophysics Volume 63, 2020 - Issue 4: Special issue: Volcanism in Zealandia and the SW Pacific: Part 1: Regional, South Island and Antarctic Volcanism. Guest Editor: James Scott
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The role of hydrovolcanism in the formation of the Cenozoic monogenetic volcanic fields of Zealandia

Károly NémethMassey University, School of Agriculture and Environment, Palmerston North, New ZealandCorrespondence[email protected]
&
Szabolcs KósikMassey University, School of Agriculture and Environment, Palmerston North, New Zealand
Pages 402-427 | Received 20 Mar 2020, Accepted 13 May 2020, Published online: 04 Jun 2020

References

  • Adams CJ. 1981. Migration of late Cenozoic volcanism in the South Island of New Zealand. Nature. 294:153–155.
  • Agustin-Flores J, Németh K, Cronin SJ, Lindsay JM, Kereszturi G, Brand BD, Smith IEM. 2014. Phreatomagmatic eruptions through unconsolidated coastal plain sequences, Maungataketake, Auckland Volcanic Field (New Zealand). Journal of Volcanology and Geothermal Research. 276:46–63.
  • Agustin-Flores J, Németh K, Cronin SJ, Lindsay JM, Kereszturi G. 2015. Construction of the North Head (Maungauika) tuff cone: a product of Surtseyan volcanism, rare in the Auckland Volcanic Field, New Zealand. Bulletin of Volcanology. 77(2). Article number: 11.
  • Amin J, Valentine GA. 2017. Compound maar crater and co-eruptive scoria cone in the Lunar Crater Volcanic Field (Nevada, USA). Journal of Volcanology and Geothermal Research. 339:41–51.
  • Aramaki S, Hayakawa Y, Fujii T, Nakamura K, Fukuoka T. 1986. The October 1983 eruption of Miyakejima Volcano. Journal of Volcanology and Geothermal Research. 29(1-4):203–229.
  • Arnot MJ, Bland KJ. 2016. Atlas of petroleum prospectivity, Northwest Province: ArcGIS geodatabase and technical report. GNS Science Data Series 23b. GNS Science Data Series 23b. 34 p. + 1 ArcGIS geodatabase+5 ArcGIS projects. https://data.gns.cri.nz/pbe/#!#HTML:Content%2Foutputs%2FAPP%2FReport%2Fnavigation%2Fintro.html.
  • Austin-Erickson A, Buettner R, Dellino P, Ort MH, Zimanowski B. 2008. Phreatomagmatic explosions of rhyolitic magma: experimental and field evidence. Journal of Geophysical Research-Solid Earth. 113(B11). Article Number: B11201.
  • Balashova A, Mattsson HB, Hirt AM, Almqvist BSG. 2016. The Lake Natron Footprint Tuff (northern Tanzania): volcanic source, depositional processes and age constraints from field relations. Journal of Quaternary Science. 31(5):526–537.
  • Ballance PF, Hayward BW, Brook FJ. 1985. Subduction regression of volcanism in New Zealand. Nature. 313(6005):820–820.
  • Berghuijs JF, Mattsson HB. 2013. Magma ascent, fragmentation and depositional characteristics of “dry” maar volcanoes: similarities with vent-facies kimberlite deposits. Journal of Volcanology and Geothermal Research. 252:53–72.
  • Bischoff A, Barrier A, Beggs M, Nicol A, Cole J, Sahoo T. 2020. Magmatic and tectonic interactions revealed by buried volcanoes in Te Riu-a-Māui/Zealandia sedimentary basins. New Zealand Journal of Geology and Geophysics, in review.
  • Bischoff A, Nicol A, Barrier A, Wang H. 2019a. Paleogeography and volcanic morphology reconstruction of a buried monogenetic volcanic field (part 2). Bulletin of Volcanology. 81(9). Article number: 57.
  • Bischoff A, Nicol A, Cole J, Gravley D. 2019b. Stratigraphy of architectural elements of a buried monogenetic volcanic system. Open Geosciences. 11(1):581–616.
  • Bischoff A, Rossetti M, Nicol A, Kennedy B. 2019c. Seismic reflection and petrographic interpretation of a buried monogenetic volcanic Field (part 1). Bulletin of Volcanology. 81(9). Article number: 56.
  • Bishop DG, Turnbull IM. 1996. Geology of the Dunedin area: scale 1:250,000. Lower Hutt: Institute of Geological & Nuclear Sciences. Institute of Geological & Nuclear Sciences 1:250,000 geological map 21. 52 p. + 1 folded map.
  • Blake DM, Deligne NI, Wilson TM, Lindsay JM, Woods R. 2017. Investigating the consequences of urban volcanism using a scenario approach II: insights into transportation network damage and functionality. Journal of Volcanology and Geothermal Research. 340:92–116.
  • Brand BD, Brož P. 2015. Tuff cone. In: Hargitai H, Kereszturi Á, editors. Encyclopedia of planetary landforms. New York, NY: Springer; p. 2197–2204.
  • Brenna M, Cronin SJ, Németh K, Smith IEM, Sohn YK. 2011. The influence of magma plumbing complexity on monogenetic eruptions, Jeju Island, Korea. Terra Nova. 23(2):70–75.
  • Brenna M, Cronin SJ, Smith IEM, Sohn YK, Németh K. 2010. Mechanisms driving polymagmatic activity at a monogenetic volcano, Udo, Jeju Island, South Korea. Contributions to Mineralogy and Petrology. 160(6):931–950.
  • Briggs RM, Itaya T, Lowe DJ, Keane AJ. 1989. Ages of the Pliocene Alexandra and Ngatutura Volcanics, Western North-Island, New Zealand, and some geological implications. New Zealand Journal of Geology and Geophysics. 32(4):417–427.
  • Briggs RM, McDonough WF. 1990. Contemporaneous convergent margin and intraplate magmatism, North Island, New Zealand. Journal of Petrology. 31(4):813–951.
  • Briggs RM, Okada T, Itaya T, Shibuya H, Smith IEM. 1994. K-Ar Ages, paleomagnetism, and geochemistry of the South Auckland Volcanic Field, North-Island, New-Zealand. New Zealand Journal of Geology and Geophysics. 37(2):143–153.
  • Briggs RM, Rosenberg MD, deLange PJ, Itaya T, King PR, Price RC. 1997. Geology and geochemistry of Gannet (Karewa) island, Tasman sea: a rift-related nephelinitic tuff ring. New Zealand Journal of Geology and Geophysics. 40(3):263–273.
  • Brooker MR, Houghton BF, Wilson CJN, Gamble JA. 1993. Pyroclastic phases of a rhyolitic dome-building eruption - Puketarata tuff ring, Taupo Volcanic Zone, New Zealand. Bulletin of Volcanology. 55(6):395–406.
  • Brothers RN. 1984. Subduction regression and oceanward migration of volcanism, North Island, New Zealand. Nature. 309(5970):698–700.
  • Brothers RN. 1985. Subduction regression of volcanism in New Zealand - Reply. Nature. 313(6005):820–821.
  • Brown SJA, Smith RT, Cole JW, Houghton BF. 1994. Compositional and textural characteristics of the strombolian and surtseyan K-Trig basalts, Taupo volcanic centre, New Zealand; implications for eruption dynamics. New Zealand Journal of Geology and Geophysics. 37(1):113–126.
  • Brož P, Németh K. 2015. Tuff ring. In: Hargitai H, Kereszturi Á, editors. Encyclopedia of planetary landforms. New York, NY: Springer; p. 2204–2210.
  • Buechner J, Tietz O. 2012. Reconstruction of the Landeskrone Scoria Cone in the Lusatian Volcanic Field, Eastern Germany - long-term degradation of volcanic edifices and implications for landscape evolution. Geomorphology. 151:175–187.
  • Buening N, Carlson SJ, Spero HJ, Lee DE. 1998. Evidence for the Early Oligocene formation of a proto-Subtropical Convergence from oxygen isotope records of New Zealand Paleogene brachiopods. Palaeogeography Palaeoclimatology Palaeoecology. 138(1-4):43–68.
  • Buettner R, Dellino P, La Volpe L, Lorenz V, Zimanowski B. 2002. Thermohydraulic explosions in phreatomagmatic eruptions as evidenced by the comparison between pyroclasts and products from Molten Fuel Coolant Interaction experiments. Journal of Geophysical Research. 107(B11):14–14.
  • Buettner R, Dellino P, Zimanowski B. 1999. Identifying magma-water interaction from the surface features of ash particles. Nature. 401(6754):688–690.
  • Cas RAF. 1989. Intraplate volcanism in eastern Australia and New Zealand. In: Johnson RW, Knutson J, Taylor SR, editors. Cambridge, United Kingdom (GBR). Cambridge: Cambridge Univ. Press.
  • Cas R, Ca, L, RE F. 1989. A monogenetic, Surtla-type, Surtseyan volcano from Eocene-Oligocene Waiareka-Deborah volcanics, Otago, New Zealand: a model. Bulletin of Volcanology. 51:281–298.
  • Champion DE, Cyr A, Fierstein J, Hildreth W. 2018. Monogenetic origin of Ubehebe Crater maar volcano, Death Valley, California: Paleomagnetic and stratigraphic evidence. Journal of Volcanology and Geothermal Research. 354:67–73.
  • Christenson B, Németh K, Rouwet D, Tassi F, Vandemeulebrouck J, Varekamp JC. 2015. Volcanic lakes. In: Rouwet D, Christenson B, Tassi F, Vandemeulebrouck J, editors. Volcanic lakes. Berlin - Heidelberg: Springer-Verlag; p. 1–20.
  • Cole JW, Lewis KB. 1981. Evolution of the Taupo-Hikurangi subduction system. Tectonophysics. 72(1-2):1–21.
  • Cole JW, Spinks KD, Deering CD, Nairn IA, Leonard GS. 2010. Volcanic and structural evolution of the Okataina Volcanic Centre; dominantly silicic volcanism associated with the Taupo Rift, New Zealand. Journal of Volcanology and Geothermal Research. 190(1-2):123–135.
  • Cook C, Briggs RM, Rosenberg MD, Smith IEM. 2003. Geochemical diversity of juvenile basaltic pyroclasts at Barriball tuff ring, south Auckland, New Zealand. Geological Society of New Zealand Miscellaneous Publication. 116A:33–33.
  • Cook C, Briggs RM, Smith IEM, Maas R. 2005. Petrology and geochemistry of intraplate basalts in the South Auckland Volcanic Field, New Zealand: evidence for two coeval magma suites from distinct sources. Journal of Petrology. 46(3):473–503.
  • Coombs DS, Adams CJ, Roser BP, Reay A. 2008. Geochronology and geochemistry of the Dunedin Volcanic Group, eastern Otago, New Zealand. New Zealand Journal of Geology and Geophysics. 51(3):195–218.
  • Coombs DS, Cas RA, Kawachi Y, Landis CA, McDonough WF, Reay A. 1986. Cenozoic volcanism in North, East and Central Otago. In: Smith I, editor. Cenozoic Volcanism in New Zealand, Roy. Soc. NZ Bull. p. 278–312.
  • Corcoran PL, Moore LN. 2008. Subaqueous eruption and shallow-water reworking of a small-volume Surtseyan edifice at Kakanui, New Zealand. Canadian Journal of Earth Sciences. 45(12):1469–1485.
  • Darragh M, Cole J, Nairn I, Shane P. 2006. Pyroclastic stratigraphy and eruption dynamics of the 21.9 ka Okareka and 17.6 ka Rerewhakaaitu eruption episodes from Tarawera Volcano, Okataina Volcanic Centre, New Zealand. New Zealand Journal of Geology and Geophysics. 49(3):309–328.
  • De Hon R. 2015. Maar. In: Hargitai H, Kereszturi Á, editors. Encyclopedia of planetary landforms. New York (NY): Springer; p. 1295–1299.
  • De Rita D, Giordano G, Esposito A, Fabbri M, Rodani S. 2002. Large volume phreatomagmatic ignimbrites from the Colli Albani Volcano (Middle Pleistocene, Italy). Journal of Volcanology and Geothermal Research. 118(1-2):77–98.
  • de Silva S, Lindsay JM. 2015. Chapter 15 - Primary volcanic landforms. In: Sigurdsson H, editor. The Encyclopedia of volcanoes. 2nd ed. Amsterdam: Academic Press; p. 273–297.
  • Doronzo DM, Dellino P, Sulpizio R, Lucchi F. 2017. Merging field mapping and numerical simulation to interpret the lithofacies variations from unsteady pyroclastic density currents on uneven terrain: the case of La Fossa di Vulcano (Aeolian Islands, Italy). Journal of Volcanology and Geothermal Research. 330:36–42.
  • Dowding EM, Ebach MC. 2017. Zealandia is not a continent. Nature. 543(7644):179–179.
  • Duerig T, Zimanowski B. 2012. “Breaking news” on the formation of volcanic ash: fracture dynamics in silicate glass. Earth and Planetary Science Letters. 335:1–8.
  • Edgar CJ, Wolff JA, Olin PH, Nichols HJ, Pittari A, Cas RAF, Reiners PW, Spell TL, Marti J. 2007. The late quaternary Diego Hernandez Formation, Tenerife: volcanology of a complex cycle of voluminous explosive phonolitic eruptions. Journal of Volcanology and Geothermal Research. 160(1-2):59–85.
  • Field BD, Browne GH, Davy BW, Herzer RH, Hoskins RH, Raine JI, Wilson GJ, Sewell RJ, Smale D, Watters WA. 1989. Cretaceous and Cenozoic sedimentary basins and geological evolution of the Canterbury region, South Island, New Zealand. New Zealand Geological Survey Basin Studies [New Zealand Geological Survey, Lower Hutt, New Zealand]. 2:1–94.
  • Fox BRS, Wartho J, Wilson GS, Lee DE, Nelson FE, Kaulfuss U. 2015. Long-term evolution of an Oligocene/Miocene maar lake from Otago, New Zealand. Geochemistry Geophysics Geosystems. 16(1):59–76.
  • Gaina C, Muller DR, Royer JY, Stock J, Hardebeck J, Symonds P. 1998. The tectonic history of the Tasman Sea: a puzzle with 13 pieces. Journal of Geophysical Research-Solid Earth. 103(B6):12413–12433.
  • Gamble JA, Adams AE. 1985. Volcanic geology of Carnley volcano, Auckland Island. New Zealand Journal of Geology and Geophysics. 28:43–54.
  • Gamble JA, Morris PA, Adams CJ. 1986. The geology, petrology and geochemistry of Cenozoic volcanic rocks from the Campbell Plateau and Chatham Rise. Bulletin - Royal Society of New Zealand. 23:344–365.
  • Gamble JA, Thomson JW. 1990. Volcanoes of the Antarctic Plate and Southern Oceans. Antarctic Research Series. 48:465–467.
  • Geshi N, Kim H, Kaetsu D, Young PT. 2003. Phreatomagmatic eruption with caldera collapse during the Miyakejima 2000 eruption, Japan. Abstracts - International Volcanological Congress. 3:48–48.
  • Geshi N, Németh K, Noguchi R, Oikawa T. 2019. Shift from magmatic to phreatomagmatic explosions controlled by the lateral evolution of a feeder dike in the Suoana-Kazahaya eruption, Miyakejima Volcano, Japan. Earth and Planetary Science Letters. 511:177–189.
  • Geshi N, Németh K, Oikawa T. 2011. Growth of phreatomagmatic explosion craters: a model inferred from Suoana crater in Miyakejima Volcano, Japan. Journal of Volcanology and Geothermal Research. 201(1-4):30–38.
  • Gibson A, Briggs RM, Pittari A, Németh K. 2010. Eruption processes of the Kellyville volcanic complex. Geoscience Society of New Zealand Miscellaneous Publication. 129A:105–105.
  • Giordano G. 1998. Facies characteristics and magma-water interactions of the white trachytic tuffs (Roccamonfina Volcano, southern Italy). Bulletin of Volcanology. 60(1):10–26.
  • Goles GG, Briggs RM, Rosenberg MD. 1996. Late pliocene stratigraphic succession and volcanic evolution of Karioi volcano, western North Island, New Zealand. New Zealand Journal of Geology and Geophysics. 39(2):283–294.
  • Graettinger AH. 2018. Trends in maar crater size and shape using the global Maar Volcano Location and Shape (MaarVLS) database. Journal of Volcanology and Geothermal Research. 357:1–13.
  • Graettinger AH, Skilling I, McGarvie D, Hoskuldsson A. 2013. Subaqueous basaltic magmatic explosions trigger phreatomagmatism: a case study from Askja, Iceland. Journal of Volcanology and Geothermal Research. 264:17–35.
  • Graettinger AH, Valentine GA. 2017. Evidence for the relative depths and energies of phreatomagmatic explosions recorded in tephra rings. Bulletin of Volcanology. 79(12). Article number: 88.
  • Graettinger AH, Valentine GA, Sonder I. 2015. Circum-crater variability of deposits from discrete, laterally and vertically migrating volcanic explosions: experimental evidence and field implications. Journal of Volcanology and Geothermal Research. 308:61–69.
  • Graettinger AH, Valentine GA, Sonder I. 2016. Recycling in debris-filled volcanic vents. Geology. 44(10):811–814.
  • Gutmann JT. 2002. Strombolian and effusive activity as precursors to phreatomagmatism: eruptive sequence at maars of the Pinacate volcanic field, Sonora, Mexico. Journal of Volcanology and Geothermal Research. 113(1-2):345–356.
  • Hayes JL, Tsang SW, Fitzgerald RH, Blake DM, Deligne NI, Doherty A, Hopkins JL, Hurst AW, Le Corvec N, Leonard GS, et al. 2018. The DEVORA scenarios; multi-hazard eruption scenarios for the Auckland volcanic field. GNS Science Report: 138.
  • Heiken GH. 1972. Morphology and petrography of volcanic ashes. Geological Society of America Bulletin. 83:1961–1988.
  • Heiken GH. 1974. An atlas of volcanic ash. Smithsonian Earth Science Contributions. 12:1–101.
  • Heiken G, Fisher RV, Negendank J, Brüchmann C. 2000. Water and magma can mix—a history of the concepts of hydrovolcanism (1819–1980). International Maar Conference: Daun, Germany: Terra Nostra; p. 165–189.
  • Heiken GH, Wohletz KH. 1986. Volcanic Ash. Berkeley: University of California Press. 246 p.
  • Heming RF. 1980. The Ngatatura diatreme. New Zealand Journal of Geology and Geophysics. 23:569–573.
  • Hencz M, Karátson D, Németh K, Biró T. 2017. A Badacsony freatomagmás piroklasztitösszlete: következtetések a monogenetikus bazaltvulkáni működés folyamataira és formáira = The phreatomagmatic pyroclastic sequence of the Badacsony Hill: implications for the processes and landforms of monogenetic basaltic volcanism. Földtani közlöny. 147(3):297–310.
  • Herrero-Hernandez A, Lopez-Moro FJ, Gomez-Fernandez F, Martin-Serrano A. 2012. Interaction between intra-continental sedimentary basins and small-volume monogenetic volcanism: Argamasilla and Calzada-Moral basins, Campo de Calatrava Volcanic Field, Spain. Journal of Iberian Geology. 38(2):407–428.
  • Herzer RH. 1995. Seismic stratigraphy of a buried volcanic arc, Northland, New Zealand and implications for Neogene subduction. Marine and Petroleum Geology. 12(5):511–531.
  • Hoernle K, White JDL, van den Bogaard P, Hauff F, Coombs DS, Werner R, Timm C, Garbe-Schonberg D, Reay A, Cooper AF. 2006. Cenozoic intraplate volcanism on New Zealand: upwelling induced by lithospheric removal. Earth and Planetary Science Letters. 248(1-2):350–367.
  • Hopkins JL, Smid ER, Eccles JD, Hayes JL, Hayward BW, McGee LE, van Wijk K, Wilson TM, Cronin SJ, Leonard GS, et al. 2020. Auckland Volcanic field magmatism, volcanism, and hazard: a review. New Zealand Journal of Geology and Geophysics. https://doi.org/10.1080/00288306.2020.1736102.
  • Houghton BF, Carey RJ, Cashman KV, Wilson CJN, Hobden BJ, Hammer JE. 2010. Diverse patterns of ascent, degassing, and eruption of rhyolite magma during the 1.8 ka Taupo eruption, New Zealand: evidence from clast vesicularity. Journal of Volcanology and Geothermal Research. 195(1):31–47.
  • Houghton BF, Hackett WR. 1984. Strombolian and phreatomagmatic deposits of Ohakune Craters, Ruapehu, New Zealand; a complex interaction between external water and rising basaltic magma. Journal of Volcanology and Geothermal Research. 21(3-4):207–231.
  • Houghton BF, Schmincke HU. 1986. Mixed deposits of simultaneous strombolian and phreatomagmatic volcanism; Rothenberg Volcano, East Eifel volcanic field. Journal of Volcanology and Geothermal Research. 30(1-2):117–130.
  • Houghton BF, Wilson CJN. 1986. A1; Explosive rhyolite volcanism; the case studies of Mayor Island and Taupo volcanoes. Record - New Zealand Geological Survey. 12:33–100.
  • Houghton BF, Wilson CJN, Rosenberg MD, Smith IEM, Parker RJ. 1996. Mixed deposits of complex magmatic and phreatomagmatic volcanism: an example from Crater Hill, Auckland, New Zealand. Bulletin of Volcanology. 58(1):59–66.
  • Ilanko T, Pittari A, Briggs RM, Németh K. 2009. Pyroclastic successions of a tuff ring in a monogenetic field; Barriball Road tuff ring, south Auckland. Geological Society of New Zealand Miscellaneous Publication. 128A:93–93.
  • Jones DA, Wilson GS, Gorman AR, Fox BRS, Lee DE, Kaulfuss U. 2017. A drill-hole calibrated geophysical characterisation of the 23 Ma Foulden Maar stratigraphic sequence, Otago, New Zealand. New Zealand Journal of Geology and Geophysics. 60(4):465–477.
  • Jordan SC, Duerig T, Cas RAF, Zimanowski B. 2014. Processes controlling the shape of ash particles: results of statistical IPA. Journal of Volcanology and Geothermal Research. 288:19–27.
  • Kaulfuss U, Dlussky GM. 2015. Early Miocene Formicidae (Amblyoponinae, Ectatomminae, ?Dolichoderinae, Formicinae, and Ponerinae) from the Foulden Maar Fossil Lagerstatte, New Zealand, and their biogeographic relevance. Journal of Paleontology. 89(6):1043–1055.
  • Kaulfuss U, Harris AC, Conran JG, Lee DE. 2014. An early Miocene ant (subfam. Amblyoponinae) from Foulden Maar: the first fossil Hymenoptera from New Zealand. Alcheringa. 38(4):568–574.
  • Kear D. 1994. A Least Complex Dynamic-Model for Late Cenozoic Volcanism in the North-Island, New-Zealand. New Zealand Journal of Geology and Geophysics. 37(2):223–236.
  • Kereszturi G, Németh K. 2011. Shallow-seated controls on the evolution of the Upper Pliocene Kopasz-hegy nested monogenetic volcanic chain in the Western Pannonian Basin (Hungary). Geologica Carpathica. 62(6):535–546.
  • Kereszturi G, Németh K, Cronin SJ, Agustin-Flores J, Smith IEM, Lindsay J. 2013. A model for calculating eruptive volumes for monogenetic volcanoes - Implication for the Quaternary Auckland Volcanic Field, New Zealand. Journal of Volcanology and Geothermal Research. 266:16–33.
  • Kereszturi G, Németh K, Cronin SJ, Procter J, Agustin-Flores J. 2014. Influences on the variability of eruption sequences and style transitions in the Auckland Volcanic Field, New Zealand. Journal of Volcanology and Geothermal Research. 286:101–115.
  • Kereszturi G, Németh K, Csillag G, Balogh K, Kovacs J. 2011. The role of external environmental factors in changing eruption styles of monogenetic volcanoes in a Mio/Pleistocene continental volcanic field in western Hungary. Journal of Volcanology and Geothermal Research. 201(1-4):227–240.
  • King PR. 2000. Tectonic reconstructions of New Zealand: 40 Ma to the present. New Zealand Journal of Geology and Geophysics. 43(4):611–638.
  • Kósik S. 2018. Small-volume volcanism associated with polygenetic volcanoes, Taupo Volcanic Zone, New Zealand: a thesis presented in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Earth Science at Massey University, Palmerston North, New Zealand. Unpublished Doctoral thesis, Massey University.
  • Kósik S, Németh K, Danišík M, Procter JN, Schmitt A, Friedrichs B, Stewart RB. 2020. Shallow subaqueous to emergent intra-caldera silicic volcanism of the Motuoapa Peninsula, Taupo Volcanic Zone, New Zealand – new constraints from geologic mapping, sedimentology and zircon geochronology. Journal of Volcanology and Geothermal Research, in review.
  • Kósik S, Nemeth K, Gravley D, Procter J. 2018. Hidden by “super-eruptions”: temporal-volumetric characteristics of small-volume volcanism of the Taupo Volcanic Zone, New Zealand. Geoscience Society of New Zealand Miscellaneous Publication. 151A:153.
  • Kósik S, Németh K, Kereszturi G, Procter JN, Zellmer GF, Geshi N. 2016. Phreatomagmatic and water-influenced Strombolian eruptions of a small-volume parasitic cone complex on the southern ringplain of Mt. Ruapehu, New Zealand: facies architecture and eruption mechanisms of the Ohakune Volcanic Complex controlled by an unstable fissure eruption. Journal of Volcanology and Geothermal Research. 327:99–115.
  • Kósik S, Németh K, Lexa J, Procter JN. 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.
  • Kósik S, Németh K, Procter JN, Zellmer GF. 2017. Maar-diatreme volcanism relating to the pyroclastic sequence of a newly discovered high-alumina basalt in the Maroa Volcanic Centre, Taupo Volcanic Zone, New Zealand. Journal of Volcanology and Geothermal Research. 341:363–370.
  • Kovács J, Németh K, Szabó P, Kocsis L, Kereszturi G, Újvári G, Vennemann T. 2020. Volcanism and paleoenvironment of the Pula maar complex: a pliocene terrestrial fossil site in Central Europe (Hungary). Palaeogeography Palaeoclimatology Palaeoecology. 537:15.
  • Kshirsagar PV, Sheth HC, Shaikh B. 2011. Mafic alkalic magmatism in central Kachchh, India: a monogenetic volcanic field in the northwestern Deccan Traps. Bulletin of Volcanology. 73(5):595–612.
  • Kurszlaukis S, Lorenz V. 2016. Differences and similarities between emplacement models of kimberlite and basaltic maar-diatreme volcanoes. Special Publication - Geological Society of London. 446:22.
  • Laird MG. 1993. Cretaceous continental rifts: New Zealand region. In: Ballance PE, editor. Sedimentary basins of the world. Amsterdam, The Netherland: Elsevier Science Publisher; p. 37–49.
  • Laird MG, Bradshaw JD. 2004. The break-up of a long-term relationship: the Cretaceous separation of New Zealand from Gondwana. Gondwana Research. 7(1):273–286.
  • Land M, Wust RAJ, Robert C, Carter RM. 2010. Plio-Pleistocene paleoclimate in the Southwest Pacific as reflected in clay mineralogy and particle size at ODP Site 1119, SE New Zealand. Marine Geology. 274(1-4):165–176.
  • Leat PT, Thompson RN. 1988. Miocene hydrovolcanism in NW Colorado, USA, fuelled by explosive mixing of basic magma and wet unconsolidated sediment. Bulletin of Volcanology. 50:229–243.
  • Le Corvec N, Bebbington MS, Lindsay JM, McGee LE. 2013. Age, distance, and geochemical evolution within a monogenetic volcanic field: analyzing patterns in the Auckland Volcanic Field eruption sequence. Geochemistry Geophysics Geosystems. 14(9):3648–3665.
  • Lee DE, Kaulfuss U, Conran JG, Bannister JM, Lindqvist JK. 2016. Biodiversity and palaeoecology of Foulden Maar: an early Miocene Konservat-Lagerstatte deposit in southern New Zealand. Alcheringa. 40(4):525–541.
  • Leonard GS. 2003. The evolution of Maroa Volcanic Centre, Taupo Volcanic Zone, New Zealand [Ph.D. thesis ]: Christchurch, New Zealand, University of Canterbury. p. 332.
  • Leonard GS, Calvert AT, Hopkins JL, Wilson CJN, Smid ER, Lindsay JM, Champion DE. 2017. High-precision Ar-40/Ar-39 dating of Quaternary basalts from Auckland Volcanic Field, New Zealand, with implications for eruption rates and paleomagnetic correlations. Journal of Volcanology and Geothermal Research. 343:60–74.
  • Lexa J, Seghedi I, Németh K, Szakács A, Koneĉny V, Pécskay Z, Fülöp A, Kovacs M. 2010. Neogene-Quaternary volcanic forms in the Carpathian-Pannonian Region: a review. Central European Journal of Geosciences. 2(3):207–270.
  • Lindqvist JK, Lee DE. 2009. High-frequency paleoclimate signals from Foulden Maar, Waipiata Volcanic Field, southern New Zealand: an Early Miocene varved lacustrine diatomite deposit. Sedimentary Geology. 222(1-2):98–110.
  • Lindsay JM, Leonard GS, Smid ER, Hayward BW. 2011. Age of the Auckland Volcanic Field: a review of existing data. New Zealand Journal of Geology and Geophysics. 54(4):379–401.
  • LINZ. 2012. Land Information New Zealand, NZ 8 m Digital Elevation Model. (data.linz.govt.nz).
  • LINZ. 2013. Land Information New Zealand. Auckland LiDAR 1 m DEM. (data.linz.govt.nz).
  • Lorenz V. 1986. On the growth of maars and diatremes and its relevance to the formation of tuff rings. Bulletin of Volcanology. 48:265–274.
  • Lorenz V. 1987. Phreatomagmatism and its relevance. Chemical Geology. 62(1-2):149–156.
  • Lorenz V. 2007. Syn- and posteruptive hazards of maar-diatreme volcanoes. Journal of Volcanology and Geothermal Research. 159(1-3):285–312.
  • Lorenz V, Kurszlaukis S. 2007. Root zone processes in the phreatomagmatic pipe emplacement model and consequences for the evolution of maar-diatreme volcanoes. Journal of Volcanology and Geothermal Research. 159(1-3):4–32.
  • Lorenz V, Suhr P, Suhr S. 2017. Phreatomagmatic maar-diatreme volcanoes and their incremental growth: a model. In: Németh K, Carrasco-Nuñez G, Aranda-Gomez JJ, Smith IEM, editors. Monogenetic volcanism. Bath, UK: The Geological Society Publishing House. https://pubs.geoscienceworld.org/books/book/2068/Monogenetic-Volcanism.
  • Macorps E, Graettinger AH, Valentine GA, Ross P-S, White JDL, Sonder I. 2016. The effects of the host-substrate properties on maar-diatreme volcanoes: experimental evidence. Bulletin of Volcanology. 78(4). Article number: 26.
  • Maicher D. 2003. A cluster of Surtseyan volcanoes at Lookout Bluff, North Otago, New Zealand: aspects of edifice spacing and time. In: White JDL, Smellie J, Clague D, editors. Explosive subaqueous volcanism. Geophysical Monograph Series. Vol. 140. Washington, DC: American Geophysical Union; p. 167–178.
  • Manville V. 2001. Sedimentology and history of Lake Reporoa: anephemeral supra-ignimbrite lake, Taupo Volcanic Zone, NewZealand. In: White JDL, Riggs NR, editors. Volcanogenic sedi-mentation in lacustrine settings. International Association ofSedimentologists Special Publication; 30: 109–140.
  • Mastin LG. 2007. Generation of fine hydromagmatic ash by growth and disintegration of glassy rinds. Journal of Geophysical Research-Solid Earth. 112(B2).
  • Mastin LG, Christiansen RL, Thornber C, Lowenstern J, Beeson M. 2004. What makes hydromagmatic eruptions violent? Some insights from the Keanakako’i Ash, Kilauea Volcano, Hawai’i. Journal of Volcanology and Geothermal Research. 137(1-3):15–31.
  • Mattsson HB. 2012. Rapid magma ascent and short eruption durations in the Lake Natron-Engaruka monogenetic volcanic field (Tanzania): a case study of the olivine melilititic Pello Hill scoria cone. Journal of Volcanology and Geothermal Research. 247:16–25.
  • Mattsson HB, Tripoli BA. 2011. Depositional characteristics and volcanic landforms in the Lake Natron-Engaruka monogenetic field, northern Tanzania. Journal of Volcanology and Geothermal Research. 203(1-2):23–34.
  • McLeod OE, White JDL. 2018. Petrogenetic links between the Dunedin Volcano and peripheral volcanics of the Karitane Suite. New Zealand Journal of Geology and Geophysics. 61(4):543–561.
  • Mildenhall DC, Kennedy EM, Lee DE, Kaulfuss U, Bannister JM, Fox B, Conran JG. 2014. Palynology of the early Miocene Foulden Maar, Otago, New Zealand: diversity following destruction. Review of Palaeobotany and Palynology. 204:27–42.
  • Mitchell JS, Mackay KA, Neil HL, Mackay EJ, Pallentin A. P. N 2012. Undersea New Zealand, 1:5,000,000.
  • Moorhouse BL, White JDL. 2016. Interpreting ambiguous bedforms to distinguish subaerial base surge from subaqueous density current deposits. Depositional Record. 2(2):173–195.
  • Moorhouse BL, White JDL, 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.
  • Morris PA. 1984. Petrology of the Campbell Island volcanics, southwest Pacific Ocean. Journal of Volcanology and Geothermal Research. 21:119–148.
  • Morrissey MM, Zimanowski B, Wohletz K, Buettner R, Ballard RD. 2000. Phreatomagmatic fragmentation. Sigurdsson H, Houghton BF, McNutt SR, Rymer H, Stix J, editors. San Diego (CA): Academic Press.
  • Mortimer N, Campbell HJ, Stagpoole M, Wood RA, Rattenbury MS, Sutherland R, Seton M. 2017. Zealandia: earth’s hidden continent. GSA Today. 27(3):27–35.
  • Mortimer N, Rattenbury MS, King PR, Bland KJ, Barrell DJA, Bache F, Begg JG, Campbell HJ, Cox SC, Crampton JS, et al. 2014. High-level stratigraphic scheme for New Zealand rocks. New Zealand Journal of Geology and Geophysics. 57(4):402–419.
  • Moufti MR, Németh K, El-Masry N, Qaddah A. 2015. Volcanic Geotopes and their Geosites preserved in an Arid climate related to landscape and climate changes since the Neogene in Northern Saudi Arabia: Harrat Hutaymah (Hai’il Region). Geoheritage. 7(2):103–118.
  • Muraviev YD, Fedotov SA, Budnikov VA, Ozerov AY, Maguskin MA, Dvigalo VN, Andreev VI, Ivanov VV, Kartasheva LA, Markov IA. 1998. Volcanic activity in the Karymsky Center in 1996; summit eruption at Karymsky and phreatomagmatic eruption in the Akademii Nauk Caldera. Volcanology and Seismology. 19(5):567–604.
  • Murcia H, Németh K, El-Masry NN, Lindsay JM, Moufti MRH, Wameyo P, Cronin SJ, Smith IEM, Kereszturi G. 2015. The Al-Du’aythah volcanic cones, Al-Madinah City: implications for volcanic hazards in northern Harrat Rahat, Kingdom of Saudi Arabia. Bulletin of Volcanology. 77(6).
  • Nagaoka S, Okuno M. 2011. Tephrochronology and eruptive history of Kirishima Volcano in southern Japan. Quaternary International. 246(1-2):260–269.
  • Nairn IA. 2002. Geology of the Okataina volcanic centre; sheets part U15, part U16, part V15 & part V16. Lower Hutt, New Zealand (NZL), Institute of Geological & Nuclear Sciences, Lower Hutt. Pp. 156-156, 1 sheet.
  • Nelson CS, Cooke PJ. 2001. History of oceanic front development in the New Zealand sector of the Southern Ocean during the Cenozoic - a synthesis. New Zealand Journal of Geology and Geophysics. 44(4):535–553.
  • Németh K. 2001. Long-term erosion-rate calculation from the Waipiata volcanic field (New Zealand) based on erosion remnants of scoria cones, tuff rings and maars. Geomorphologie. 2001(2):137–152.
  • Németh K. 2003. Calculation of long-term erosion in Central Otago, New Zealand, based on erosional remnants of maar/tuff rings. Zeitschrift für Geomorphologie. 47(1):29–49.
  • Németh K. 2010. Volcanic glass textures, shape characteristics and compositions of phreatomagmatic rock units from the Western Hungarian monogenetic volcanic fields and their implications for magma fragmentation. Central European Journal of Geosciences. 2(3):399–419.
  • Németh K, Agustin-Flores J, Briggs R, Cronin SJ, Kereszturi G, Lindsay JM, Pittari A, Smith IEM. 2012a. Field guide: monogenetic volcanism of the South Auckland and Auckland Volcanic Fields. 4IMC Auckland, New Zealand 20-24 February 2012. Geoscience Society of New Zealand Miscellaneous Publication 131B. [ISBN 978-1-877480-16-4; ISSN Online 2230-4495; ISSN Print 2230-4487], pp. 1–72.
  • Németh K, Cronin SJ. 2008. Volcanic craters, pit craters and high-level magma-feeding systems of a mafic island-arc volcano; Ambrym, Vanuatu, South Pacific. Geological Society Special Publications. 302:87–102.
  • Németh K, Cronin SJ. 2011. Drivers of explosivity and elevated hazard in basaltic fissure eruptions: the 1913 eruption of Ambrym Volcano, Vanuatu (SW-Pacific). Journal of Volcanology and Geothermal Research. 201(1-4):194–209.
  • Németh K, Cronin SJ, Haller MJ, Brenna M, Csillag G. 2010. Modern analogues for Miocene to Pleistocene alkali basaltic phreatomagmatic fields in the Pannonian Basin: “soft-substrate” to “combined” aquifer controlled phreatomagmatism in intraplate volcanic fields. Central European Journal of Geosciences. 2(3):339–361.
  • Németh K, Cronin SJ, Smith IEM, Flores JA. 2012b. Amplified hazard of small-volume monogenetic eruptions due to environmental controls, Orakei Basin, Auckland Volcanic Field, New Zealand. Bulletin of Volcanology. 74(9):2121–2137.
  • Németh K, Kereszturi G. 2015. Monogenetic volcanism: personal views and discussion. International Journal of Earth Sciences. 104(8):2131–2146.
  • Németh K, Kósik S. 2020. Review of explosive hydrovolcanism. Geosciences. 10(2):44.
  • Németh K, Martin U, Csillag G. 2007. Pitfalls in erosion level calculation based on remnants of maar and diatreme volcanoes. Geomorphologie-Relief Processus Environnement. 3:225–235.
  • Németh K, Martin U, Harangi S. 2001. Miocene phreatomagmatic volcanism at Tihany (Pannonian Basin, Hungary). Journal of Volcanology and Geothermal Research. 111(1-4):111–135.
  • Németh K, White JDL. 2003. Reconstructing eruption processes of a Miocene monogenetic volcanic field from vent remnants: Waipiata Volcanic Field, South Island, New Zealand. Journal of Volcanology and Geothermal Research. 124(1-2):1–21.
  • Németh K, White JDL, Reay A, Martin U. 2003. Compositional variation during monogenetic volcano growth and its implications for magma supply to continental volcanic fields. Journal of the Geological Society of London. 160(4):523–530.
  • Nicol A, Mazengarb C, Chanier F, Rait G, Uruski C, Wallace L. 2007. Tectonic evolution of the active Hikurangi subduction margin, New Zealand, since the Oligocene. Tectonics. 26(4):TC4002.
  • Onken J, Forman S. 2017. Terminal Pleistocene to early Holocene volcanic eruptions at Zuni Salt Lake, west-central New Mexico, USA. Bulletin of Volcanology. 79(1). Article number: 10.
  • Ort MH, Lefebvre NS, Neal CA, McConnell VS, Wohletz KH. 2018. Linking the Ukinrek 1977 maar-eruption observations to the tephra deposits: new insights into maar depositional processes. Journal of Volcanology and Geothermal Research. 360:36–60.
  • Panisova J, Balazs A, Zalai Z, Bielik M, Horvath F, Harangi S, Schmidt S, Goetze H-J. 2018. Intraplate volcanism in the Danube Basin of NW Hungary: 3D geophysical modelling of the Late Miocene Pasztori volcano. International Journal of Earth Sciences. 107(5):1713–1730.
  • Panter KS, Blusztajn J, Hart SR, Kyle PR, Esser R, McIntosh WC. 2006. The origin of HIMU in the SW Pacific: evidence from intraplate volcanism in southern New Zealand and subantarctic islands. Journal of Petrology. 47(9):1673–1704.
  • Pardo N, Cronin SJ, Németh K, Brenna M, Schipper CI, Breard E, White JDL, Procter J, Stewart B, Agustin-Flores J, et al. 2014. Perils in distinguishing phreatic from phreatomagmatic ash; insights into the eruption mechanisms of the 6 August 2012 Mt. Tongariro eruption, New Zealand. Journal of Volcanology and Geothermal Research. 286:397–414.
  • Pedrazzi D, Nemeth K, Adelina G, Alvarez-Valero AM, Aguirre-Diaz G, Bartolini S. 2018. Historic hydrovolcanism at Deception Island (Antarctica): implications for eruption hazards. Bulletin of Volcanology. 80:1.
  • Prebble JG, Reichgelt T, Mildenhall DC, Greenwood DR, Raine JI, Kennedy EM, Seebeck HC. 2017. Terrestrial climate evolution in the Southwest Pacific over the past 30 million years. Earth and Planetary Science Letters. 459:136–144.
  • Price RC, Coombs DS. 1975. Phonolitic lava domes and other features of the Dunedin Volcano, East Otago. Journal of the Royal Society of New Zealand. 5(2):133–152.
  • Price RC, Cooper AF, Woodhead JD, Cartwright I. 2003. Phonolitic diatremes within the Dunedin Volcano, South Island, New Zealand. Journal of Petrology. 44(11):2053–2080.
  • Ramon Avellan D, Luis Macias J, Pardo N, Scolamacchia T, Rodriguez D. 2012. Stratigraphy, geomorphology, geochemistry and hazard implications of the Nejapa Volcanic Field, western Managua, Nicaragua. Journal of Volcanology and Geothermal Research. 213:51–71.
  • Reichgelt T, Kennedy EM, Jones WA, Jones DT, Lee DE. 2016. Contrasting palaeoenvironments of the mid/late Miocene Dunedin Volcano, southern New Zealand: climate or topography? Palaeogeography Palaeoclimatology Palaeoecology. 441:696–703.
  • Risso C, Németh K, Combina AM, Nullo F, Drosina M. 2008. The role of phreatomagmatism in a Plio-Pleistocene high-density scoria cone field: Llancanelo Volcanic Field (Mendoza), Argentina. Journal of Volcanology and Geothermal. Research. 169(1-2):61–86.
  • Rooney TO, Deering CD. 2014. Conditions of melt generation beneath the Taupo Volcanic Zone: the influence of heterogeneous mantle inputs on large-volume silicic systems. Geology. 42(1):3–6.
  • Ross PS, Delpit S, Haller MJ, Németh K, Corbella H. 2011. Influence of the substrate on maar-diatreme volcanoes - An example of a mixed setting from the Pali Aike volcanic field, Argentina. Journal of Volcanology and Geothermal Research. 201(1-4):253–271.
  • Schiøler P, Powell S, Rexilius J. 2014. PEP 38451 biostratigraphy of Romney-1 well (2370–4618 m) Deepwater Taranaki, New Zealand. New Zealand Unpublished Openfile Petroleum Report, PR4951.
  • Schiøler P, Raine JI, Hollis CJ, Kulhanek DK, Morgans HEG, Roncaglia L, Strong CP, Uruski C. 2011. Revised biostratigraphy and well correlation, Canterbury Basin, New Zealand. GNS Science Consultancy Report 2011/12.: 1–142.
  • Scott JM, Pontesilli A, Brenna M, White JDL, Giacalone E, Palin JM, le Roux PJ. 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.
  • Scott JM, Turnbull IM. 2019. Geology of New Zealand’s Sub-Antarctic Islands. New Zealand Journal of Geology and Geophysics. 62(3):291–317.
  • Scott JM, Turnbull IM, Auer A, Palin JM. 2013. The sub-Antarctic Antipodes Volcano: a <0.5 Ma HIMU-like Surtseyan volcanic outpost on the edge of the Campbell Plateau, New Zealand. New Zealand Journal of Geology and Geophysics. 56(3):134–153.
  • Segev A, Rybakov M, Mortimer N. 2012. A crustal model for Zealandia and Fiji. Geophysical Journal International. 189(3):1277–1292.
  • Seghedi I, Szakacs A, Pacheco AH, Matesanz JLB. 2007. Miocene lamproite volcanoes in south-eastern Spain - an association of phreatomagmatic and magmatic products. Journal of Volcanology and Geothermal Research. 159(1-3):210–224.
  • Self S. 1983. Large-scale phreatomagmatic silicic volcanism; a case study from New Zealand. Journal of Volcanology and Geothermal Research. 17(1-4):433–469.
  • Self S, Kienle J, Huot JP. 1980. Ukinrek Maars, Alaska 2. Deposits and formation of the 1977 craters. Journal of Volcanology and Geothermal Research. 7(1-2):39–65.
  • Sheridan MF, Wohletz KH. 1983. Hydrovolcanism - Basic considerations and review. Journal of Volcanology and Geothermal Research. 17(1-4):1–29.
  • Shoemaker EM. 1957. Primary structures of maar rims and their bearing on the origin of Kilbourne Hole and Zuni Salt Lake, New Mexico. Geological Society of America Bulletin. 68(12, Part 2):1846–1846.
  • Smith IEM, Briggs RM. 2008. Hot spots in the North. Geological Society of New Zealand Miscellaneous Publication. 124:158–161.
  • Smith RT, Houghton BF. 1995. Vent migration and changing eruptive style during the 1800a Taupo eruption: new evidence from the Hatepe and Rotongaio phreatoplinian ashes. Bulletin of Volcanology. 57(6):432–439.
  • Smith IEM, Németh K. 2017. Source to surface model of monogenetic volcanism: a critical review. In: Németh K, Carrasco-Nuñez G, Aranda-Gomez JJ, Smith IEM, editors. Monogenetic volcanism. Bath (UK): The Geological Society Publishing House; p. 1–28.
  • Sohn YK, Chough SK. 1989. Depositional processes of the Suwolbong Tuff Ring, Cheju Island (Korea). Sedimentology. 36(5):837–855.
  • Sohn YK, Cronin SJ, Brenna M, Smith IEM, Németh K, White JDL, Murtagh RM, Jeon YM, Kwon CW. 2012. Ilchulbong tuff cone, Jeju Island, Korea, revisited: a compound monogenetic volcano involving multiple magma pulses, shifting vents, and discrete eruptive phases. Geological Society of America Bulletin. 124(3-4):259–274.
  • Sonder I, Harp AG, Graettinger AH, Moitra P, Valentine GA, Buettner R, Zimanowski B. 2018. Meter-Scale experiments on magma-water interaction. Journal of Geophysical Research-Solid Earth. 123(12):10597–10615.
  • Sorrentino L, Cas RAF, Stilwell JD. 2011. Evolution and facies architecture of Paleogene Surtseyan volcanoes on Chatham Islands, New Zealand, Southwest Pacific Ocean. Journal of Volcanology and Geothermal Research. 202(1-2):1–21.
  • Sorrentino L, Stilwell JD, Mays C. 2014. A model of tephra dispersal from an early Palaeogene shallow submarine Surtseyan-style eruption(s), the Red Bluff Tuff Formation, Chatham Island, New Zealand. Sedimentary Geology. 300:86–102.
  • Stárková M, Rapprich V, Breitkreuz C. 2011. Variable eruptive styles in an ancient monogenetic volcanic field: examples from the permian levín volcanic field (krkonoše piedmont basin, Bohemian massif). Journal of Geosciences. 56(2):163–180.
  • Stilwell JD, Consoli CP. 2012. Tectono-stratigraphic history of the Chatham Islands, SW Pacific-The emergence, flooding and reappearance of eastern ‘Zealandia’. Proceedings of the Geologists Association. 123(1):170–181.
  • Suhr P, Goth K, Lorenz V, Suhr S. 2006. Long lasting subsidence and deformation in and above maar-diatreme volcanoes - a never ending story. Zeitschrift der Deutschen Gesellschaft für Geowissenschaften. 157(3):491–511.
  • Suhr P, Lorenz V, Goth K. 2004. Subsidence within and above maar-diatreme volcanoes. Abstract Volume of the 2nd International Maar Conference Occasional Papers of the Geological Institute of Hungary. 203; p. 94.
  • Sutherland R, Collot J, Bache F, Henrys S, Barker D, Browne GH, Lawrence MJF, Morgans HEG, Hollis CJ, Clowes C, et al. 2017. Widespread compression associated with Eocene Tonga-Kermadec subduction initiation. Geology. 45(4):355–358.
  • Sutherland R, King PR, Wood RA. 2001. Tectonic evolution of Cretaceous rift basins in south-eastern Australia and New Zealand: implications for exploration risk assessment. In: Hill KC, Bernecker T, editors. Eastern Australasian Basins Symposium 2001. Melbourne (Australia): Petroleum Exploration Society of Australia; p. 3–13.
  • Swanson DA, Zolkos SP, Haravitch B. 2012. Ballistic blocks around Kilauea Caldera; their vent locations and number of eruptions in the late 18th century. Journal of Volcanology and Geothermal Research. 231–232:1–11.
  • Sweeney MR, Grosso ZS, Valentine GA. 2018. Topographic controls on a phreatomagmatic maar-diatreme eruption: field and numerical results from the Holocene Dotsero volcano (Colorado, USA). Bulletin of Volcanology. 80:11.
  • Thompson NK, Bassett KN, Reid CM. 2014. The effect of volcanism on cool-water carbonate facies during maximum inundation of Zealandia in the Waitaki-Oamaru region. New Zealand Journal of Geology and Geophysics. 57(2):149–169.
  • Timm C, Hoernle K, Werner R, Hauff F, van den Bogaard P, White J, Mortimer N, Garbe-Schonberg D. 2010. Temporal and geochemical evolution of the Cenozoic intraplate volcanism of Zealandia. Earth-Science Reviews. 98(1-2):38–64.
  • Uruski CI. 2020. Seismic recognition of igneous rocks of the Deepwater Taranaki Basin, New Zealand, and their distribution. New Zealand Journal of Geology and Geophysics. 63(2):190–209.
  • Valentine GA. 2012. Shallow plumbing systems for small-volume basaltic volcanoes, 2: evidence from crustal xenoliths at scoria cones and maars. Journal of Volcanology and Geothermal Research. 223:47–63.
  • Valentine GA, Connor CB. 2015. Chapter 23 - basaltic volcanic fields. In: Sigurdsson H, editor. The encyclopedia of volcanoes. 2nd ed. Amsterdam: Academic Press; p. 423–439.
  • Valentine GA, Cortes JA, Widom E, Smith EI, Rasoazanamparany C, Johnsen R, Briner JP, Harp AG, Turrin B. 2017a. Lunar Crater volcanic field (Reveille and Pancake Ranges, Basin and Range Province, Nevada, USA). Geosphere. 13(2):391–438.
  • Valentine GA, Graettinger AH, Macorps E, Ross P-S, White JDL, Doehring E, Sonder I. 2015. Experiments with vertically and laterally migrating subsurface explosions with applications to the geology of phreatomagmatic and hydrothermal explosion craters and diatremes. Bulletin of Volcanology. 77(3). Article number: 15.
  • Valentine GA, White JDL. 2012. Revised conceptual model for maar-diatremes: subsurface processes, energetics, and eruptive products. Geology. 40(12):1111–1114.
  • Valentine GA, White JDL, Ross P-S, Graettinger AH, Sonder I. 2017b. Updates to Concepts on phreatomagmatic Maar-diatremes and their pyroclastic deposits. Frontiers in Earth Science. 5. https://doi.org/10.3389/feart.2017.00068.
  • van der Meer QHA, Waight TE, Scott JM, Munker C. 2017. Variable sources for Cretaceous to recent HIMU and HIMU-like intraplate magmatism in New Zealand. Earth and Planetary Science Letters. 469:27–41.
  • Van Eaton AR, Herzog M, Wilson CJN, McGregor J. 2012. Ascent dynamics of large phreatomagmatic eruption clouds; the role of microphysics. Journal of Geophysical Research. 117(B3): 0-Citation B03203.
  • Van Niekerk R. 2016. Reconstructing the complex history of a small-volume basaltic volcano (Ngatutura volcanic field, New Zealand): the role of subsurface processes and implications for diatreme formation: a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Earth Science at Massey University, Palmerston North, New Zealand. Unpublished Masters thesis, Massey University.
  • van Niekerk R, Lube G, Németh K. 2015a. New constraints on subsurface processes of monogenetic volcanism; an example from the Ngatutura volcanic field, Waikato, New Zealand. Newsletter - Geoscience Society of New Zealand. 17:8–9.
  • van Niekerk R, Lube G, Németh K. 2015b. The role of primary explosive processes on the formation of diatremes; the Ngatutura Diatreme, New Zealand. Geoscience Society of New Zealand Miscellaneous Publication. 143A:136.
  • van Niekerk R, Németh K, Lube G. 2014. The roots of a monogenetic volcano; hyaloclastites, dykes and diatremes reveal a complex history of Pliocene volcanism along the Waikato coast, New Zealand. Geoscience Society of New Zealand Miscellaneous Publication. 139A:111–112.
  • van Otterloo J, Cas RAF. 2013. Reconstructing the eruption magnitude and energy budgets for the pre-historic eruption of the monogenetic similar to 5 ka Mt. Gambier Volcanic Complex, south-eastern Australia. Bulletin of Volcanology. 75(12). Article number: 769.
  • van Otterloo J, Cas RAF, Sheard MJ. 2013. Eruption processes and deposit characteristics at the monogenetic Mt. Gambier Volcanic Complex, SE Australia: implications for alternating magmatic and phreatomagmatic activity. Bulletin of Volcanology. 75(8). Article number: 737.
  • Walker GPL. 1993. Basaltic-volcano systems. Geological Society Special Publications. 76:3–38.
  • White JDL. 1991. Maar-diatreme phreatomagmatism at Hopi Buttes, Navajo Nation (Arizona), USA. Bulletin of Volcanology. 53:239–258.
  • White JDL, Schipper CI, Kano K. 2015. Chapter 31 - submarine explosive eruptions. In: Sigurdsson H, editor. The Encyclopedia of volcanoes. 2nd ed. Amsterdam: Academic Press; p. 553–569.
  • White JDL, Valentine GA. 2016. Magmatic versus phreatomagmatic fragmentation: absence of evidence is not evidence of absence. Geosphere. 12(5):1478–1488.
  • Wijbrans J, Németh K, Martin U, Balogh K. 2007. Ar-40/Ar-39 geochronology of Neogene phreatomagmatic volcanism in the western Pannonian Basin, Hungary. Journal of Volcanology and Geothermal Research. 164(4):193–204.
  • Wilson CJN. 1993. Stratigraphy, chronology, styles and dynamics of Late Quaternary eruptions from Taupo Volcano, New-Zealand. Philosophical Transactions of The Royal Society of London Series A-Mathematical Physical and Engineering Sciences. 343(1668):205–306.
  • Wilson CJN. 1994. Ash-fall deposits from large-scale phreatomagmatic volcanism: limitations of available eruption column models. In: Casadevall TJ, editor. Volcanic ash and aviation safety: Proceedings of the first international conference on volcanism and aviation safety (U.S. Geological Survey Bulletin 2047). Wasington, DC: U.S. Geological Survey; p. 93–99.
  • Wilson CJN. 2001. The 26.5 ka Oruanui eruption, New Zealand: an introduction and overview. Journal of Volcanology and Geothermal Research. 112(1-4):133–174.
  • Wilson CJN, Houghton BF, McWilliams MO, Lanphere MA, Weaver SD, Briggs RM. 1995. Volcanic and structural evolution of Taupo Volcanic Zone, New-Zealand - A review. Journal of Volcanology and Geothermal Research. 68(1-3):1–28.
  • Wilson CJN, Rowland JV. 2016. The volcanic, magmatic and tectonic setting of the Taupo Volcanic Zone, New Zealand, reviewed from a geothermal perspective. Geothermics. 59:168–187.
  • Wilson CJN, Smith IEM. 1985. A basaltic phreatomagmatic eruptive centre at Acacia Bay, Taupo volcanic centre. Journal of the Royal Society of New Zealand. 15(3):329–337.
  • Wong LJ, Larsen JF. 2010. The Middle Scoria sequence: a Holocene violent strombolian, subplinian and phreatomagmatic eruption of Okmok volcano, Alaska. Bulletin of Volcanology. 72(1):17–31.
  • Zimanowski B, Buettner R, Lorenz V. 1997a. Premixing of magma and water in MFCI experiments. Bulletin of Volcanology. 58(6):491–495.
  • Zimanowski B, Buettner R, Lorenz V, Haefele H-G. 1997b. Fragmentation of basaltic melt in the course of explosive volcanism. Journal of Geophysical Research. 102(B1):803–814.

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