D E T E R M I N I N G V O L C A N I C R I S K I N A U C K L A N D

Auckland is a vital link in New Zealand’s economy and the city and surrounding region are internationally desirable places to work. However, Auckland sits on a volcanic field. The DEVORA research programme is aimed at a much-improved assessment of volcanic hazard and risk in the Auckland metropolitan area.

DEVORA Publications

This is your portal to peer-reviewed and other publications covering an extensive and evolving range of DEVORA- related research and observations. (For use with Peer-Reviewed Publications - Open-Access Publications)

This work is licensed under a Creative Commons Attribution 3.0 New Zealand License. The authors and DEVORA have taken all reasonable care to ensure the accuracy of the information supplied in this legacy document. However, neither the authors nor DEVORA, warrant that the information contained in this legacy document will be complete or free of errors or inaccuracies. By using this legacy document you accept all liability arising from your use of it. Neither the authors nor DEVORA, will be liable for any loss or damage suffered by any person arising from the use of this legacy document, however caused. DEVORA Publications. Last updated on 07/07/2020. Open Access

Arentsen K, Németh K, & Smid E (Eds), 2012: Abstract Volume of the Fourth International Maar ​ Conference: A Multidisciplinary Congress on Monogenetic Volcanism. Auckland, New Zealand 20-24 February 2012. Geoscience Society of New Zealand Miscellaneous Publication ​ ​ 131A. [ISBN 978-1-877480-15-7; ISSN Online 2230-4495; ISSN Print 2230-4487]

Auckland Council, 2015: Auckland Volcanic Field Contingency Plan March 2015. Civil Defense and ​ ​ Emergency Management. Auckland. (Written by Auckland Council with DEVORA input)

Blake DM, Deligne NI, Mcdonald TW, Wilson G, 2017: Improving volcanic ash fragility functions ​ through laboratory studies: example of surface transportation networks. Journal of Applied Volcanology, 6(16). DOI: 10.1186/s13617-017-0066-5

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. DOI: 10.1016/j.jvolgeores.2017.04.010

Blake DM, Wilson TM, Cole JW, Deligne NI, Lindsay JM, 2017: Impact of volcanic ash on road and ​ airfield surface skid resistance. Sustainability, 9(8): 1389. DOI:10.3390/su9081389 ​ Brenna M and Cronin S, 2015: Mantle heterogeneity controls on small-volume basaltic volcanism: ​ COMMENT. Geology 43: e370. DOI: 10.1130/G37023C.1 ​ ​ Daly M & Johnston D, 2015: The genesis of volcanic risk assessment for the Auckland engineering ​ lifelines project: 1996–2000. Journal of Applied Volcanology, 4(1): 1-17. DOI: 10.1186/s13617-015-0027-9

Deligne NI, Fitzgerald RH, Blake DM, Davies AJ, Hayes JL, Stewart C, Wilson G, Wilson TM, Castelino R, Kennedy BM, Muspratt S, 2017: Investigating the consequences of urban volcanism using ​ a scenario approach I: Development and application of a hypothetical eruption in the Auckland Volcanic Field, New Zealand. Journal of Volcanology and Geothermal Research. ​ Deligne NI, Horspool N, Canessa S, Matcham I, Williams GT, Wilson G, Wilson TM, 2017: Evaluating ​ the impacts of volcanic eruptions using Riskscape. Journal of Applied Volcanology, 6(18). ​ DOI 10.1186/s13617-017-0069-2

Dohaney J, Brogt E, Kennedy B, Wilson T, and Lindsay J, 2015: Training in crisis communication and ​ volcanic eruption forecasting: design and evaluation of an authentic role-play simulation. ​ Journal of Applied Volcanology 4(1): 1-26. DOI: 10.1186/s13617-015-0030-1

Hayes J, Wilson TM, Deligne NI, Cole J, and Hughes M, 2017: A model to assess tephra clean-up ​ requirements in urban environments. Journal of Applied Volcanology, 6(1) ​ Kenny JA, Lindsay JM, & Howe TM, 2012: Post-Miocene faults in Auckland: insights from borehole ​ and topographic analysis. New Zealand Journal of Geology & Geophysics, 55 (4): 323-343. ​ ​ DEVORA Publications. Last updated on 07/07/2020.

Kereszturi G and Procter J, 2016: Error in topographic attributes for volcanic hazard assessment of the Auckland Volcanic Field (New Zealand). New Zealand Journal of Geology and Geophysics 59(2): 286-301. DOI: 10.1080/00288306.2015.1130155

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. DOI: ​ 10.1002/ggge.20223. Field Note #3: Searching for Patterns in the AVF

Le Corvec N, Menand T, & Lindsay J, 2013: Interaction of ascending magma with pre-existing crustal ​ fractures in monogenetic basaltic volcanism: an experimental approach. Journal of ​ Geophysical Research: Solid Earth, 118: 1-17. DOI: 10.1002/jgrb.50142

Lindsay JM, Leonard GS, Smid ER, & Hayward B, 2011: Age of the Auckland Volcanic Field: A review ​ ​ ​ of existing data. New Zealand Journal of Geology and Geophysics, 54 (4): 379-401. DOI: ​ 10.1080/00288306.2011.595805.

McGee LE, Smith IEM, Millet M-A, Handley H, & Lindsay JM, 2013: Asthenospheric control of ​ melting processes in a monogenetic basaltic system: a case study of the Auckland Volcanic Field, New Zealand. Journal of Petrology. DOI: 10.1093/petrology/egt043 ​ Field Note #1: How Low Does it Go?

McGee LE, Millet M-A, Beier C, Smith IEM, & Lindsay JM, 2015: Mantle heterogeneity controls on ​ small-volume basaltic volcanism. Geology 43(6): 551-554. DOI: 10.1130/G36590.1 ​ Potter SH, Jolly GE, Neall VE, Johnston DM, & Scott BJ, 2014: Communicating the status of volcanic ​ activity: revising New Zealand’s volcanic alert level system. Journal of Applied Volcanology, 3(1): 1-16. DOI: 10.1186/s13617-014-0013-7

Spörli KB, Black PM, & Lindsay JM, 2015: Excavation of buried Dun Mountain-Maitai Terrane ​ ophiolite by volcanoes of the Auckland Volcanic field, New Zealand. New Zealand Journal ​ ​ of Geology and Geophysics, 58 (3): 229-243. DOI: 10.1080/00288306.2015.1035285.

Stewart C, Wilson TM, Sword-Daniels V, Wallace KL, Magill CR, Horwell CJ, Leonard GS, & Baxter PJ, 2017: Communication demands of volcanic ashfall events. In Advances in Volcanology, pp ​ ​ 1-27. DOI: 10.1007/11157_2016_19

Sword-Daniels VL, Rossetto T, Wilson TM, and Sargeant S, 2015. Interdependence and dynamics of ​ essential services in an extensive risk context: a case study in Montserrat, West Indies. Natural Hazards and Earth System Science 15: 947-961. http://dx.doi.org/10.5194/nhess-15-947-2015.

Thompson MA, Lindsay JM, & Gaillard JC, 2015: The influence of probabilistic volcanic hazard map ​ properties on hazard communication. Journal of Applied Volcanology, 4(1): 1-24. ​ DOI: 10.1186/s13617-015-0023-0

Thompson MA, Lindsay JM, & Leonard GS, 2017: More Than Meets the Eye: Volcanic Hazard Map ​ Design and Visual Communication, In: Fearnley C, Bird D, Jolly G, Haynes K, McGuire B (eds.) ​ DEVORA Publications. Last updated on 07/07/2020.

Observing the Volcano World: Volcano Crisis Communication, Advances in Volcanology. DOI: 10.1007/11157_2016_47

Tomsen E, Lindsay J, Gahegan M, Wilson T, & Blake D, 2014: Auckland Volcanic Field evacuation ​ planning: a spatio-temporal approach for emergency management and transportation network decisions. Journal of Applied Volcanology, 3(6): 1-22. DOI: 10.1186/2191-5040-3-6 ​ Wilson G, Wilson TM, Deligne NI, & Cole JW, 2014: Volcanic hazard impacts to critical ​ infrastructure: A review. Journal of Volcanology and Geothermal Research, 286: 148-182. DOI: 10.1016/j.jvolgeores.2014.08.030

Wilson G, Wilson TM, Deligne NI, Blake DM, & Cole JW, 2017: Framework for developing volcanic ​ fragility and vulnerability functions for critical infrastructure. Journal of Applied Volcanology, 6(1): 14.

Wilson TM, Stewart C, Wardman JB, Wilson G, Johnston DM, Hill D, Hampton SJ, Villemure M, McBride S, Leonard GS, Daly M, Deligne NI and Roberts L, 2014: Volcanic ashfall ​ preparedness poster series: a collaborative process for reducing the vulnerability of critical infrastructure. Journal of Applied Volcanology 3(10): 1-25. ​ Constantinescu R & Lindsay J, 2010: Tracking a volcanic eruption with BET_EF software: Application ​ to the Auckland Volcanic Field, New Zealand. Geographia Technica No. 2(2010): 1-10. ​ ​ McGee L, Millet M-A, Beier C, Smith IEM, and Lindsay JM, 2015: Mantle heterogeneity controls on ​ small-volume basaltic volcanism: REPLY. Geology 43: e371. doi:10.1130/G37100Y.1 ​

Non-Open

Agustín-Flores J, Németh K, Cronin SJ, Lindsay JM, Kereszturi G, Brand BD, & Smith IE, 2014: Phreatomagmatic eruptions through unconsolidated coastal plain sequences, Maungataketake, Auckland Volcanic Field, New Zealand. Journal of Volcanology and Geothermal Research, 276: 46-63. DOI: 10.1016/j.jvolgeores.2014.02.021

Agustín-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): 1-17. DOI: 10.1007/s00445-014-0892-9

Agustín-Flores J, Németh K, Cronin SJ, Lindsay JM, & Kereszturi G, 2015: Shallow-seated explosions ​ in the construction of the Motukorea tephra ring (Auckland, New Zealand): evidence from lithic pyroclasts and sedimentary characteristics. Journal of Volcanology and Geothermal ​ Research 304: 272-286. DOI: 10.1016/j.jvolgeores.2015.09.013 DEVORA Publications. Last updated on 07/07/2020.

Ashenden CL, Lindsay JM, Sherburn S, Smith IEM, Miller C, & Malin P, 2011: Some challenges of ​ monitoring a potentially active volcanic field in a large urban area: Auckland Volcanic Field, New Zealand. Natural Hazards, 59 (1): 507-528. DOI 10.1007/s11069-011-9773-0. ​ ​ Bebbington M & Cronin S, 2011: Spatio-temporal hazard estimation in the Auckland Volcanic Field, ​ New Zealand, with a new event-order model. Bulletin of Volcanology 73(1): 55-72. ​ ​ Bebbington M, 2015: Spatio-volumetric hazard estimation in the Auckland Volcanic Field. Bulletin ​ ​ of Volcanology 77: 39. DOI: 10.1007/s00445-015-0921-3

Blake DM, Wilson TM, and Gomez C, 2106. Road marking coverage by volcanic ash: an ​ experimental approach. Environmental Earth Sciences: 75(20): 1348. ​ Brand BD, Gravley D, Clarke A, Lindsay J, Boomberg SH, Agustin-Flores J, & Németh K, 2014: Combined field and numerical approach to understanding dilute pyroclastic density current dynamics and hazard potential: Auckland Volcanic Field, New Zealand. Journal of ​ Volcanology and Geothermal Research, 276: 215-232. DOI: 10.1016/j.jvolgeores.2014.01.008.

Brenna M, Cronin SJ, Smith IE, Tollan PM, Scott JM, Prior DJ, Bambery K, Ukstins IA, 2018. Olivine ​ xenocryst diffusion reveals rapid monogenetic basaltic magma ascent following complex storage at Pupuke Maar, Auckland Volcanic Field, New Zealand. Earth and Planetary Science Letters 499: 13-22. (Affiliated) ​ ​ Doyle EE, Johnston DM, McClure J, & Paton D, 2012: The communication of uncertain scientific ​ advice during natural hazard events. New Zealand Journal of Psychology, 40(4): 39-50. ISSN ​ 0112-109X.

Doyle EE & Johnston DM, 2011: Science advice for critical decision making. In: Paton D and Violanti JM (Eds):Working in High Risk Environments: Developing Sustained Resilience. Charles C. ​ ​ Thomas Publisher, Springfield, Ill.: 69-92. ISBN 978-0-398-08693-0.

Ensing JX, van Wijk K, Spörli KB, 2017. Probing the subsurface of the Auckland Volcanic Field with ​ ambient seismic noise. New Zealand Journal of Geology and Geophysics. 29: 1-2. DOI: ​ 10.1080/00288306.2017.1337643

Ensing J and van Wijk K, 2018: Estimating the orientation of borehole seismometers from ambient ​ seismic noise. Bulletin of the Seismological Society of America, 109(1), ​ 424-432. https://doi.org/10.1785/0120180118

Gravis I, Németh K, Procter JN, 2017. The role of cultural and indigenous values in geosite ​ evaluations on a quaternary monogenetic volcanic landscape at Ihumātao, Auckland volcanic field, New Zealand. Geoheritage, 9(3): 373-93. ​ Green RM, Bebbington MS, Cronin SJ, & Jones G, 2014: Automated statistical matching of multiple ​ tephra records exemplified using five long maar sequences younger than 75ka, Auckland, New Zealand. Quaternary Research, 82(2), 405-419. DOI:10.1016/j.yqres.2014.06.004 ​ DEVORA Publications. Last updated on 07/07/2020.

Hampton SJ, Cole JW, Wilson G, Wilson TM, and Broom S, 2015: Volcanic Ash Fall and Loading on ​ Gutters and Pitched Roofs: Implications for Risk Assessment. Journal of Volcanology and Geothermal Research 304: 237–252. DOI: 10.1016/j.jvolgeores.2015.08.012

Hayes JL, Wilson TM, and Magill C, 2015: Tephra fall clean-up in urban environments. Journal of ​ ​ Volcanology and Geothermal Research 304: 359-377. DOI: 10.1016/j.jvolgeores.2015.09.014

Hopkins J, Millet MA, Timm C, Wilson CJ, Leonard GS, Palin MJ, and Neil H, 2015: Tools and ​ techniques for developing tephra stratigraphies in lake cores: a case study from the basaltic Auckland Volcanic Field, New Zealand. Quaternary Science Reviews 123: 58-75. ​ DOI: 10.1016/j.quascirev.2015.06.014 ​ Hopkins JL, Timm C, Millet MA, Poirier A, Wilson CJ, Leonard GS, 2016. Os isotopic constraints on ​ crustal contamination in Auckland Volcanic Field basalts, New Zealand. Chemical Geology, 439: 83-97.

Hopkins JL, Wilson CJN, Millet MA, Leonard GS, Timm C, Mcgee LE, Smith IEM, Smith EGC. 2017: Multi-criteria correlation of tephra deposits to source centres applied in the Auckland Volcanic Field, New Zealand. Bulletin of Volcanology, 79 (55). ​ doi:10.1007/s00445-017-1131-y.

Hopkins JL, Smid ER, Eccles JD, Hayes JL, Hayward BW, McGee LE, van Wijk K, Wilson TM, Cronin SJ, Leonard GS, Lindsay JM, Németh K, and Smith IEM 2020: Auckland Volcanic Field ​ magmatism, volcanism, and hazard: a review. New Zealand Journal of Geology and ​ Geophysics. 1-22. doi: 10.1080/00288306.2020.1736102.

Kawabata E, Bebbington MS, Cronin SJ, Wang T, 2016. Optimal likelihood-based matching of ​ volcanic sources and deposits. Journal of Volcanology and Geothermal Research. ​ Kereszturi G, Bebbington M, Németh K, 2017. Forecasting transitions in monogenetic eruptions ​ using the geologic record. Geology, G38596-1. ​ Kereszturi G, Cappello A, Ganci G, Procter J, Németh K, Del Negro C, & Cronin S J, 2014: Numerical ​ simulation of basaltic lava flows in the Auckland Volcanic Field, New Zealand implication for volcanic hazard assessment. Bulletin of Volcanology, 76(11), 1-17. DOI: 10.1007/s00445-014-0879-6

Kereszturi G, Németh K, Cronin SJ, Agustín-Flores J, & 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, online 21 ​ September 2013. DOI: 10.1016/j.jvolgeores.2013.09.003

Kereszturi G, Németh K, Cronin SJ, Procter J, & Agustín-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. DOI:10.1016/j.jvolgeores.2014.09.002

Kereszturi G and Nemeth K, 2016:Sedimentology, eruptive mechanism and facies architecture of ​ basaltic scoria cones from the Auckland Volcanic Field (New Zealand). Journal of Volcanology and Geothermal Research 324: 41-56. DOI: 10.1016/j.jvolgeores.2016.05.012 DEVORA Publications. Last updated on 07/07/2020.

Kereszturi G, Procter J, Cronin SJ, Németh K, Bebbington M, & Lindsay J, 2012: LiDAR-based ​ quantification of lava flow susceptibility in the City of Auckland (New Zealand). Remote ​ Sensing of Environment, 125: 198 – 213. DOI: 10.1016/j.rse.2012.07.015.

Le Corvec N, Sporli KB, Rowland J, & Lindsay J, 2013: Spatial distribution and alignments of volcanic ​ centers: Clues to the formation of monogenetic volcanic fields. Earth-Science Reviews 124: ​ 96-114.DOI: 10.1016/j.earscirev.2013.05.005

Leonard GS, Calvert AT, Hopkins JL, Wilson CJN, Smid ER, Lindsay JM, Champion DE, 2017: 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. DOI: 10.1016/j.jvolgeores.2017.05.033

Lindsay JM, 2010: Volcanoes in the big smoke: a review of hazard and risk in the Auckland Volcanic ​ Field. in: Williams AL, Pinches GM, Chin CY, McMorran TJ, and Massey CI (eds). Geologically ​ Active. Delegate Papers of the 11th Congress of the International Association for Engineering Geology and the Environment (IAEG). 2010 Taylor & Francis Group, London, ISBN 978-0-415-60034-7. Field Note #4: Volcanoes in the Big Smoke

Lindsay JM, Jolly G, Sandri L, Marzocchi W, & Holland G, 2010: New probabilistic hazard assessment ​ tools for mitigating volcanic risk in Auckland, New Zealand. International Association of ​ Engineering Geology and the Environment (IAEG) Congress 2010. Auckland, New Zealand. 2010 Taylor & Francis Group, London, ISBN 978-0-415-60034-7.

Lindsay JM, Marzocchi W, Jolly G, Constantinescu R, Selva J, & Sandri L, 2009: Towards real-time ​ eruption forecasting in the Auckland Volcanic Field: application of BET_EF during the New Zealand National Disaster Exercise ‘Ruaumoko’. Bulletin of Volcanology, 72(2): 185-204. ​ DOI: 10.1007/s00445-009-0311-9.

Lindsay JM, Thompson MA, & Shane PA, 2016. Chapter 5: Volcanic Hazards. In Goff J & de Freitas C ​ ​ ​ (Eds), Natural Hazards in Australasia. United Kingdom, Cambridge University Press. ISBN 9781107682597.

Linnell T, Shane P, Smith I., Augustinus P, Cronin S, Lindsay JM, & Maas R, 2016: Long-lived shield ​ volcanism within a monogenetic basaltic field: The conundrum of Rangitoto volcano, New Zealand. GSA Bulletin. 10.1130/b31392.1 ​ Liu J, Salmond JA, Dirks KN and Lindsay JM, 2015: Validation of ash cloud modelling with satellite ​ retrievals: a case study of the 16-17 June 1996 Mount Ruapehu eruption. Natural Hazards 78(2): 973-993. DOI: 10.1007/s11069-015-1753-3

Mazot A, Smid E R, Schwendenmann L, Delgado-Granados H, & Lindsay J, 2013: Soil CO2 flux ​ baseline in an urban monogenetic volcanic field: the Auckland Volcanic Field, New Zealand. Bulletin of Volcanology, 75 (11): 1-9. DOI: 10.1007/s00445-013-0757-7 ​ McGee L, Beier C, Smith I, & Turner S, 2010: Dynamics of melting beneath a small scale basaltic ​ system: a U-Th-Ra study from Rangitoto Volcano, Auckland Volcanic Field, New Zealand. Contributions to Mineralogy and Petrology, 162(3): 547-563. ​ ​ DEVORA Publications. Last updated on 07/07/2020.

McGee LE, Millet M-A, Beier C, Smith IEM, & Lindsay JM, 2015: Mantle heterogeneity controls on ​ small-volume basaltic volcanism. Geology 43(6): 551-554. DOI:10.1130/G36590.1v. ​ ​ McGee LE, Millet M-A, Smith IEM, Németh K, & Lindsay JM, 2012: The inception and progression of ​ melting in a monogenetic eruption: Motukorea Volcano, the Auckland Volcanic Field, New Zealand. Lithos 155, 360-374. ​ McGee LE, Smith IE, 2016:Interpreting chemical compositions of small scale basaltic systems: A ​ review. Journal of Volcanology and Geothermal Research, 325, 45-60. ​ Murray C, McDonald G, & Cronin S, 2014: Interpreting Auckland’s volcanic governance through an ​ ​ institutional lens. Natural Hazards, 75(1): 441-464. DOI: 10.1007/s11069-014-1340-z. ​ Needham AJ, Lindsay JM, Smith IEM, Augustinus P, & Shane PA (2011): 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, 201(1-4): ​ 126-142.

Németh K, Agustin-Flores J, Briggs R, Cronin SJ, Kereszturi G, Lindsay JM, Pittari A, & Smith IEM, 2012: 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]

Németh K, Cronin SJ, Smith IEM, & Augustin-Flores J, 2012: 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. DOI: ​ 10.1007/s00445-012-0653-6. Peti L, Augustinus PC, Gadd PS, Davies SJ, 2018. Towards characterising rhyolitic tephra layers from ​ New Zealand with rapid, non-destructive μ-XRF core scanning. Quaternary International. ​ Potter SH, Scott BJ, Jolly GE, Neall VE, and Johnston DM, 2015: Introducing the Volcanic Unrest ​ Index (VUI): A tool to quantify and communicate the intensity of volcanic unrest. Bulletin ​ of Volcanology 77:77. doi: 10.1007/s00445-015-0957-4

Sandri L, Jolly G, Lindsay J, Howe T, & Marzocchi W, 2012: Combining long- and short-term ​ probabilistic volcanic hazard assessment with cost-benefit analysis to support decision making in a volcanic crisis from the Auckland Volcanic Field, New Zealand. Bulletin of ​ Volcanology, 74 (3): 705-723. DOI: 10.1007/s00445-011-056-y. Field Note #2: Evacuation - The Big Decision

Shane P, Gehrels M, Zawalna Geer A, Augustinus P, Lindsay J, & Chaillou I, 2013: Longevity of a small ​ shield volcano revealed by crypto-tephra studies (Rangitoto volcano, New Zealand: Change in eruptive behaviour of a basaltic field. Journal of Volcanology and Geothermal Research, ​ 257: 174-183. DOI: 10.1016/j.jvolgeores.2013.03.026 ​ Shane P & Zawalana-Geer A, 2011: Correlation of basaltic tephra from Mt Wellington volcano: ​ implications for the penultimate eruption from the Auckland Volcanic Field. Quaternary ​ International, 246(1-2): 374-381. DOI: 10.1016/j.quaint.2011.01.033. DEVORA Publications. Last updated on 07/07/2020.

Stewart C, Craig HM, Gaw S, Wilson TM, Villarosa G, Outes V, Cronin SJ, and Oze C, 2016: Fate and ​ agricultural consequences of leachable elements added to the environment from the 2011 Cordón Caulle tephra fall. Journal of Volcanology and Geothermal Research. ​ Thompson MA, Lindsay JM, Sandri L, Biass S, Bonadonna C, Jolly G, Marzocchi W, 2015: Exploring the ​ influence of uncertainties in vent location and eruption style on long-term tephra fall hazard from Okataina Volcanic Centre caldera complex, New Zealand. Bulletin of ​ Volcanology, 77: 1-38. DOI: 10.1007_s00445-015-0926-y

Thompson MA, Owen S, Lindsay JM, Leonard GS, & Cronin SJ, 2017: Scientist and stakeholder ​ perspectives of transdisciplinary research: early attitudes, expectations and tensions. Environmental Science & Policy 74: 30-29.

Zawalna-Geer A, Lindsay JM, Davies S, Augustinus P, Davies S, 2016: Extracting a primary Holocene ​ crytoptephra record from Pupuke maar sediments, Auckland, New Zealand. Journal of Quaternary Science. 31(5):442-57.

Reports

Blake DM, Wilson G, Stewart C, Craig HM, Hayes JL, Jenkins SF, Wilson TM, Horwell CJ, Andreastuti S, Daniswara R, Ferdiwijaya D, Leonard GS, Hendrasto M, and Cronin S, 2015: The 2014 ​ eruption of Kelud volcano, Indonesia: impacts on infrastructure, utilities, agriculture and health. GNS Science Report 2015/15, 130 p. ​ Coomer MA, Lambie ES, Wilson T, Potter SH, Leonard GS, Maxwell K, Bates A, and Keith H, 2015. DEVORA volcanic survey: people’s panel. GNS Science report 2015/39 (pp. 60). Lower Hutt, ​ New Zealand: GNS Science

Daly M, 2009: Synthesis of Existing Risk and Social Data for the Auckland Volcanic Field. IESE ​ ​ Technical Report 1-2009.05.

McGee L, 2020: U-Th-Ra analyses of samples from the 2016 drill core of the Rangitoto lava field: ​ Devora report. GNS Science report 2020/03. Lower Hutt, New Zealand: GNS Science. ​ DOI:10.21420/QBHS-EW37.

Deligne, N.I.; Blake, D.M.; Davies, A.J.; Grace, E.S.; Hayes, J.; Potter, S.H.; Stewart, C.; Wilson, G.; Wilson, T.M. 2015. Economics of Resilient Infrastructure Auckland Volcanic Field Scenario. ​ ​ Lower Hutt, N.Z.: GNS Science. ERI research report 2015/03 x, 151 p.; doi: 10.21420/G2GK56

Deligne NI, Lindsay JM, and Smid E, 2015: An integrated approach to Determining Volcanic Risk in ​ Auckland, New Zealand: the multi-disciplinary DEVORA project. In: S.C. Loughlin, R.S.J. ​ Sparks, S.K. Brown, S.F. Jenkins & C. Vye-Brown (eds) Global Volcanic Hazards and Risk, Cambridge: Cambridge University Press. [Reprinted from supplementary material supporting the 2015 Global Assessment Report on Disaster Risk Reduction] DEVORA Publications. Last updated on 07/07/2020.

Fitzgerald RH, Dohaney J, Hill D, Wilson TM, Kennedy B, and Lindsay J, 2016: Teaching volcanic ​ monitoring and hazard mitigation within an urban area: A volcanic hazards simulation of the Auckland Volcanic Field. GNS Science Report. p. 47. ​ Hopkins J, 2017: Shining a light on Auckland’s volcanic monster under the bed. New Zealand ​ ​ Science Review 72(1): 3-9.

Irwin M, 2009: Synthesis of existing structural data for the Auckland Volcanic Field. IESE Technical ​ ​ Report 1-2009.01

Kenny J, Lindsay J, & Howe T, 2011: Large Scale Faulting in the Auckland Region. IESE Technical ​ ​ ​ Report 1-2011.04.

Lindsay J & Leonard GS, 2009: Age of the Auckland Volcanic Field. IESE Technical Report 1-2009.02. ​ ​ ​ Smid E, Lindsay J, & Jolly G, 2009: Review of Statistical Methods Used to Assess Probabilistic Hazard ​ in Monogenetic Basaltic Fields IESE Technical Report 1-2009.04. ​ Smid E & Mazot A, 2012: Soil Gas CO2 Concentrations and CO2 Fluxes in the Auckland Volcanic ​ Field. IESE Report ​ 1.2011.02._Leonard_GS_2009_Age_of_the_Auckland_Volcanic_Field_IESE_Technica

Smith I, McGee L, & Lindsay J, 2009: Review of the Petrology of the Auckland Volcanic Field. IESE ​ ​ Technical Report 1-2009.03.

Sporli KB & Black PM, 2013: Catalogue of crustal xenoliths from the St Heliers Volcanoes, Auckland ​ ​ Volcanic Field, New Zealand. IESE Technical Report 1-2013.01. ​ Wright K, Baldi M, Lindsay J, Van Dissen R, Salinger J, Dellow G, Page M, Power W, & King D, 2009: Natural Hazards and Their Impacts: Auckland Region. Prepared for Auckland Regional ​ ​ Council. Auckland Regional Council Technical Report 2009/010.

Lindsay J, Leonard GS, Deligne NI, Smid E, Kenedi CL, Wilson TM, Charlton D, 2019: DEVORA Review ​ and Benefit Statement – May 2019. DEVORA Report. ​

Postgraduate Research

Agustín-Flores J, 2015: The role of substrate hydrogeology and surface hydrology in the ​ construction of phreatomagmatic volcanoes on an active monogenetic field (Auckland, New Zealand). PhD, Massey University. ​ ​ Ashenden C, 2009: A velocity model for Auckland, using seismic and complimentary methods. ​ ​ Unpublished MSc thesis, University of Auckland. DEVORA Publications. Last updated on 07/07/2020.

Blake D, 2016: Impacts of volcanic ash on surface transportation networks: considerations for ​ Auckland City, New Zealand. PhD thesis, University of Canterbury. ​ ​ Chislett K, 2009: Lava flow modeling of young basaltic flows in Northland, New Zealand. ​ ​ Unpublished MSc thesis, University of Auckland.

Eade J, 2009: Petrology and correlation of lava flows from the central part of the Auckland Volcanic ​ Field. Unpublished MSc thesis, University of Auckland. ​ Ensing J, 2015: Ambient seismic noise tomography in the Auckland Volcanic Field. Unpublished MSc ​ ​ thesis, University of Auckland.

Gasston C, 2017: A new method for mapping and modelling buried faults within the Auckland ​ Region, using gravity and borehole data. Unpublished MSc thesis, University of Auckland. ​ ​ Govind V, 2013: The Puhinui Craters: Gravity and magnetic surveying of newly discovered volcanic ​ centres within the Auckland Volcanic Field. Unpublished BSc (Hons) thesis, University of Auckland. [Contact Jen to request] ​ ​ Hayes JL, 2016: Estimating the impact of an Auckland Volcanic Field eruption on residential ​ habitability in Auckland City, New Zealand. CERG-C unpublished dissertation, University of Geneva, Geneva, Switzerland.

Hopkins J, 2015: New perspectives on the chronostratigraphy and magmatic evolution of the ​ Auckland Volcanic Field, New Zealand. PhD, Victoria University of Wellington ​ Kawabata E, 2015: Spatio-temporal volcanic hazard estimation. PhD, Massey University. ​ ​ Le Corvec N, 2012: Physical Controls on Monogenetic Basaltic Volcanism, Auckland Volcanic Field. ​ ​ PhD, School of Environment, University of Auckland. (Dissertation).

Linnell, T, 2016. The Eruptive History of Rangitoto Volcano: Geochemical and Lithological Variation ​ in a 148 m Core. MSc, School of Environment, University of Auckland (Thesis) ​ McGee L, 2012: Melting processes in small basaltic systems : the Auckland Volcanic Field, New ​ Zealand. PhD, School of Environment, University of Auckland. (Thesis) ​ Murray R, 2010: A geophysical investigation of volcanic deposits and paleotopography in the ​ Auckland Isthmus. Unpublished MSc thesis, University of Auckland. ​ Needham AJ, 2009: The Eruptive History of Rangitoto Island, Auckland Volcanic Field, New ​ Zealand. Unpublished MSc Thesis, University of Auckland, 215 p. ​ Rhodé D, 2016: Spatial Changes in Lava Flow Properties. an Estimate of Lava Flow Rheology: Cases ​ Studies from the Auckland Volcanic Field. MSc thesis, University of Auckland. ​ ​ Slabbert C, 2017: New Insights into Eruption Styles in the Auckland Volcanic Field based on ​ Textures, Volumes and Dispersal of Proximal to Medial Pyroclastic Fall Deposits. MSc ​ thesis, University of Auckland. DEVORA Publications. Last updated on 07/07/2020.

Tan C, 2012: Social Dimension of Risk: Vulnerability in Facing Natural Hazards of Asian ​ Communities in Auckland. Unpublished MSc thesis, University of Auckland, 146 p. ​ Tomsen E, 2010: GIS-Based Mass Evacuation Planning for the Auckland Volcanic Field. MSc thesis, ​ ​ University of Auckland, 167 p

Wilson G, 2015: Volcanic risk for the built environment. PhD, University of Canterbury. ​ ​ ​ Zawalna Geer A, 2012: Towards a tephra framework for the Auckland maar lake sediments and the ​ potential of applying cryptotephra techniques. PhD, School of Environment, University of ​ Auckland (Dissertation).