Abstract
The Ihumātao Peninsula is located within the wider Mangere region in South Auckland, New Zealand. Significant sites of geological, cultural and ecological value are a recorded feature of this area. One of the most significant sites in the region is the Otuataua Stonefields Historic Reserve (OSHR). Geologically, this area is a Quaternary lava flow field with tuff rings, scoria and spatter cones. It sits within the Auckland Volcanic Field (AVF), and the landscape of the OSHR and the wider Ihumātao Peninsula may be seen as the physical expression of a unique convergence of ecological, geological and cultural values. Geosite evaluation methods applied to the Ihumātao Peninsula, following two distinct methods, shed light on potential high geoheritage values the region holds. These values may be looked at as a good base to develop effective geoeducational, geoconservational and geotouristic programs. The study also showed that implementing management strategies to add and conserve geosite values in the region could provide positive outcomes; however, reduction of its main geosite values would be inevitable and irreversible should proposed urban development take place on a block of land immediately bordering the OSHR. The Ihumātao Peninsula is one of several areas of South Auckland where urbanization has left significant areas relatively untouched until the present, whereby they are now threatened by intense housing and industrial development. The geological features of these areas unquestionably hold geological heritage values, allowing understanding of the interplay between low coastal land and rising basaltic magma. This interplay has resulted in a landscape potentially featuring the greatest volcanic geodiversity of the entire AVF. In addition, this relatively undeveloped land provides an unbroken physical and cultural record dating to arrival of the first humans in New Zealand. Of particular note is the physical artefacts and archaeological sites telling a story of settlers attracted to, utilizing and shaping this discrete region of the AVF. Geosite evaluations demonstrate that high geoheritage values of regions like the Ihumātao Peninsula are influenced by the strong cultural link between the community (in particular the indigenous population) and the volcanic landscape. These cultural factors could be given more weight in currently used geosite evaluation methods, enabling such geoheritage values to be demonstrated in a more explicit and meaningful way and providing a basis for further community education and protection of specific sites within the geographical context of the Ihumātao Peninsula.
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References
AC (2013) The proposed Auckland unitary plan. Notified 30 September 2013. New Zealand [Auckland Council], Auckland
AC (2015) Special housing areas—frequently asked questions [Fact-sheet]. Auckland, New Zealand. Retrieved from: http://www.aucklandcouncil.govt.nz/EN/ratesbuildingproperty/housingsupply/Documents/specialhousingareasfaqs.pdf
Affleck DK, Cassidy J, Locke CA (2001) Te Pouhawaiki volcano and pre-volcanic topography in Central Auckland: volcanological and hydrogeological implications. N Z J Geol Geophys 44(2):313–321
Agustin-Flores J, Nemeth K, Cronin SJ, Lindsay JM, Kereszturi G (2015a) Construction of the North Head (Maungauika) tuff cone: a product of Surtseyan volcanism, rare in the Auckland Volcanic Field, New Zealand. Bull Volcanol 77(2)
Agustin-Flores J, Nemeth K, Cronin SJ, Lindsay JM, Kereszturi G (2015b) Shallow-seated explosions in the construction of the Motukorea tuff ring (Auckland, New Zealand): evidence from lithic and sedimentary characteristics. J Volcanol Geotherm Res 304:272–286
Agustin-Flores J, Nemeth 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). J Volcanol Geotherm Res 276:46–63
Antrop M (2005) Why landscapes of the past are important for the future. Landsc Urban Plan 70(1–2):21–34
ARC (1994a) Archaeology and brief history of the Ambury area (Auckland Regional Council Ambury Regional Park Management Plan) [Auckland Regional Council]. Auckland, New Zealand
ARC (1994b) Archaeology and brief history of the ambury area (Auckland Regional Council ambury Regional Park management plan. 1994). New Zealand [Auckland Regional Council], Auckland
Best E (1925) The cultivated food plants of the natives of New Zealand, with some account of native methods of agriculture, its ritual and origin myths. Dominion Museum, Wellington, New Zealand
Bollati I, Pelfini M, Pellegrini L (2012) A geomorphosites selection method for educational purposes: a case study in Trebbia Valley (Emilia Romagna, Italy). Geografia Fisica E Dinamica Quaternaria 35(1):23–35
Boskov J, Kotrla S, Jovanovic M, Tomic N, Lukic T, Rvovic I (2015) Application of the preliminary geosite assessment model (GAM): the case of the Bela Crkva municipality (Vojvodina, North Serbia). Geographica Pannonica 19(3):146–152
Brand BD, Gravley DM, Clarke AB, Lindsay JM, Bloomberg SH, Agustin-Flores J, Nemeth K (2014) A combined field and numerical approach to understanding dilute pyroclastic density current dynamics and hazard potential: Auckland volcanic field, New Zealand. J Volcanol Geotherm Res 276:215–232
Brilha J, Andrade C, Azeredo A, Barriga F, Cachao M, Couto H, Cunha PP, Crispim JA, Dantas P, Duarte LV, Freitas MC, Granja HM, Henriques MH, Henriques R, Lopes L, Madeira J, Matos JMX, Noronha F, Pais J, Picarra J, Ramalho MM, Relvas J, Ribeiro A, Santos A, Santos VF, Terrinha P (2005) Definition of the Portuguese frameworks with international relevance as an input for the European geological heritage characterisation. Episodes 28(3):177–186
Brocx M, Semeniuk V (2007) Geoheritage and geoconservation—history, definition, scope and scale. J R Soc West Aust 90(Part 2):53–87
Brocx M, Semeniuk V (2009) Coastal geoheritage: encompassing physical, chemical, and biological processes, landforms, and other geological features in the coastal zone. J R Soc West Aust 92(Part 3):243–260
Brocx M, Semeniuk V (2010) Coastal geoheritage: a hierarchical approach to classifying coastal types as a basis for identifying geodiversity and sites of significance in Western Australia. J R Soc West Aust 93(Part 2):81–113
Brocx M, Semeniuk V (2015) Using the geoheritage tool-kit to identify inter-related geological features at various scales for designating geoparks: case studies from Western Australia. In: Errami E, Brocx M, Semeniuk V (eds) From geoheritage to geoparks: case studies from africa and beyond. pp 245–259
Brown H (1961) The despoliation of Auckland’s archaeological sites. New Zealand Archaeological Association Newsletter 4(2):96–100
Bulmer S (1985) Auckland’s vanishing stonefield sites. Auckland Regional Committee of the New Zealand Historic Places Trust Newsletter 14(3):1
Cameron E, Hayward B, Murdoch G (1997) A field guide to Auckland. Exploring the region’s natural and historic heritage. Godwit, Auckland, New Zealand
Campbell M, Hudson B (2011) The NRD site community report. CFG Heritage, Auckland, New Zealand
Carruthers B, Kelly B (2012) Gavin H Wallace ltd & Ors v Auckland council [2012] NZEnvC: NZEnvC 120 (case notes). Resource Management Law Association of New Zealand, Auckland, New Zealand Retrieved from: http://www.rmla.org.nz/casenote/view/id/18
Cassidy J, Locke CA, Miller CA, Rout DJ (1999) The Auckland volcanic field, New Zealand: geophysical evidence for its eruption history. Geol Soc Lond, Spec Publ 161:1–10
Chapple G (2016) A very special area. New Zealand Listener 254(3967):20–25
Clough R, Bickler S (2015) Response to section 64 information requirements, draft heritage report on the Oruarangi SHA (Simon Bickler, Adina Brown, Zarah Burnett and Rod Clough. Mangere Oruarangi SHA. Oruarangi Road, historic heritage assessment, pp 545–561.
Coney S (2007) Heritage gem will be lost amid ‘big boxes’. New Zealand Herald. Retrieved from: http://www.nzherald.co.nz/nz/news/article.cfm?c_id=1&objectid=10433184op. April 9
Cranwell L (1981) The botany of Auckland. A book for all seasons, Auckland, New Zealand
Csillag G, Korbely B, Nemeth K (2004) Volcanological sites of Balaton uplands National Park as key points for a proposed geopark in western Hungary. Occasional Papers of the Geological Institute of Hungary 203:49–49
Curran-Cournane F, Vaughan M, Memon A, Fredrickson C (2014) Trade-offs between high class land and development: recent and future pressures on Auckland's valuable soil resources. Land Use Policy 39:146–154
Davidson J (1993) The chronology of occupation on Maungarei (mount wellington): a large volcanic cone pa in Auckland. N Z J Archaeol 15:39–55
de Vries BvW, Marquez A, Herrera R, Granja Bruna JL, Llanes P, Delcamp A (2014) Craters of elevation revisited: forced-folds, bulging and uplift of volcanoes. Bull Volcanol 76(11)
Delcamp A, de Vries BW, Stephane P, Kervyn M (2014) Endogenous and exogenous growth of the monogenetic Lemptegy volcano, Chaine des Puys, France. Geosphere 10(5):998–1019
Doyle P, Easterbrook G, Reid E, Skipsey E, Wilson C (1994) Earth heritage conservation. The geological society in association with Open University. City Print (Milton Keynes) Ltd, United Kingdom, London
Dunn CE (2007) Participatory GIS - a people's GIS? Progress in Human Geography 31(5):616–637
Edbrooke SW, Mazengarb C, Stephenson W (2003) Geology and geological hazards of the Auckland urban area, New Zealand. Quat Int 103:3–21
English P (2001) Stones tell of a rich history. New Zealand Herald. Retrieved from: http://www.nzherald.co.nz/nz/news/article.cfm?c_id=1&objectid=171478, February 7
Fairfield F (1938) Puketutu pa on Weekes’ Island, Manukau Harbour. The Journal of the Polynesian Society 47(3(187)):119–128
Firth CW (1930) The geology of the northwest portion of the Manukau County, Auckland. Transactions of the Royal Society of New Zealand 61:85–137
Fowlds G (1928) Auckland’s unique heritage: 63 wonderful volcanic cones and craters: an appeal to save them. (report on preservation of volcanic cones and craters / by the Auckland town planning Associaton). Auckland Town Planning Association, Auckland, New Zealand
Fowlds G (1967) The Maori association with the volcanic hills and craters of the Auckland isthmus. Auckland, New Zealand
Fowlds GM, Golson J (1974) Auckland's volcanic cones : a report on their condition and a plea for their preservation. In: Golson J. (ed) Appendix by G. M. Fowlds. Historic Auckland Society. Unity Press, Auckland, p 32
Furey L (2005) Mangere Puhinui rural zone review: archaeological appraisal (report to Manukau City council). GFC Heritage, Auckland, New Zealand Retrieved from: http://www.aucklandcity.govt.nz/council/documents/districtplanmanukau/changes/pc14proposedapp8.pdf
Furey L (2006) Maori gardening. An archaeological perspective. Department of Conservation, Wellington, New Zealand
Geotechnics (2015) Quarry road site report—ground penetrating radar survey. http://www.aucklandcouncil.govt.nz/EN/AboutCouncil/meetings_agendas/hearings/Documents/CloughGPRReport.pdf
Grierson H (2015) Mangere gateway sub precinct D. Qualifying development application. Fletcher Residential Limited, Wellington, New Zealand
Groube L (1966) Rescue excavations in the bay of islands. New Zealand Archaeological Association Newsletter 9(3):108–114
Harawira W (2015) Sacrifices but no reward. E-tangata.(2015, October 4). Retrieved from: http://e-tangata.co.nz/news/sacrifices-but-no-reward
Hargreaves R (1959) The Maori agriculture of the Auckland province in the mid-nineteenth century. The Journal of the Polynesian Society 68(2):61–79
Harmon B, Viles H (2013) Beyond geomorphosites: trade-offs, optimization, and networking in heritage landscapes. Environment Systems & Decisions 33(2, Sp. Iss. SI):272–285
Hayward B (1983) Prehistoric pa sites of metropolitan Auckland. Tane 29:3–14
Hayward B, Murdoch G, Maitland G (2011) Volcanoes of Auckland: the essential guide. Auckland University Press, Auckland, New Zealand, p. 234
Hayward BW (2007) Protecting what's left of Auckland's volcanic heritage. Geological Society of New Zealand Newsletter 143:36–40
Hayward BW (2009) Protecting fossil sites in New Zealand. In: Lipps JH, Granier BRC (eds) . PaleoParks - The Protection and conservation of fossil sites worldwide.- Brest, France
Hayward BW, Mason AP (2008) Did Hochstetter plagiarise Heaphy's map of Auckland volcanoes? Geological Society of New Zealand Miscellaneous Publication 124A:217
Hayward JJ, Hayward BW (1995) Fossil forests preserved in volcanic ash and lava at Ihumatao and Takapuna, Auckland. Tane 35:127–142
Heaphy C (1860) On the volcanic country of Auckland, New Zealand. Quarterlv Journal of the Geological Society London 16:242–252
Hochstetter F (1864) Geology of New Zealand. Government Printer, Wellington
Hochstetter F (1867) New Zealand, its physical geography, geology, and natural history with special reference to the Resulls of government expeditions in the provinces of Auckland and Nelson. J.G. Cotta, Stuttgart
Horrocks M, Lawlor I (2005) Plant microfossil analysis of soils from Polynesian stonefields in South Auckland, New Zealand. J Archaeol Sci 33(2):200–217
Horvath G, Csullog G (2013) A new Slovakian-Hungarian cross-border geopark in Central Europe—possibility for promoting better connections between the two countries. European Countryside 5(2):146–162
Houghton BF, Wilson CJN, Smith IEM (1999) Shallow-seated controls on styles of explosive basaltic volcanism: a case study from New Zealand. J Volcanol Geotherm Res 91(1):97–120
Ilies DC, Josan N (2009) Geosites—geomorphosites and relief. GeoJournal of Tourism and Geosites II/1(3):78–85
Kereszturi G, Cappello A, Ganci G, Procter J, Nemeth K, Del Negro C, Cronin SJ (2014a) Numerical simulation of basaltic lava flows in the Auckland Volcanic Field, New Zealand-implication for volcanic hazard assessment. Bull Volcanol 76(11)
Kereszturi G, Nemeth 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. J Volcanol Geotherm Res 266:16–33
Kereszturi G, Nemeth K, Cronin SJ, Procter J, Agustin-Flores J (2014b) Influences on the variability of eruption sequences and style transitions in the Auckland volcanic field, New Zealand. J Volcanol Geotherm Res 286:101–115
Kereszturi G, Nemeth K, Vioufti MR, Cappello A, Murcia H, Ganci G, Del Negro C, Procter J, Zahran HMA (2016) Emplacement conditions of the 1256 AD Al-Madinah lava flow field in Harrat Rahat, Kingdom of Saudi Arabia—insights from surface morphology and lava flow simulations. J Volcanol Geotherm Res 309:14–30
Kermode LO (1992) Geology of the Auckland urban area [with map in scale 1: 50 000]. Institute of geological & nuclear sciences geological map 2. 1 sheet + explanatory book 63 p. Institute of Geological & Nuclear Sciences, Lower Hutt, New Zealand
Korbely B, Csillag G (2004) Proposed protection and conservation strategies of volcanological features in a monogenetic volcanic field in the western Pannonian Basin; a perspective of Balaton uplands National Park, Hungary. Occasional Papers of the Geological Institute of Hungary 203:68–68
Kubalikova L, Kirchner K (2016) Geosite and geomorphosite assessment as a tool for geoconservation and geotourism purposes: a case study from Vizovicka vrchovina highland (eastern part of the Czech Republic). Geoheritage 8(1):5–14
Lawlor I (2009) Destroying our past in the present: promoting respect for a better future. mangere historical society presentation. [Blog]. Retrieved from: www.ian-lawlor-shc.com/Blog_(ITL)/Entries/2009/7/21_Destroying_Our_Past_in_the_Present__Promoting_Respect_for_a_Better_Future_Mangere_Historical_Society_Presentation_(21_Jul_2009).htmlh. 21 July
Lilburn K (1982) Ambury Farm Park archaeological investigations: stage 1, sites N/421143, 1137 & 1251: interim report. Auckland, New Zealand, New Zealand Historic Places Trust
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, Massey CI (eds) Geologically active. Taylor & Francis Group, London, pp. 63–72
Lindsay JM, Leonard GS, Smid ER, Hayward BW (2011) Age of the Auckland volcanic field: a review of existing data. N Z J Geol Geophys 54(4):379–401
Marra MJ, Alloway BV, Newnham RM (2006) Paleoenvironmental reconstruction of a well-preserved stage 7 forest sequence catastrophically buried by basaltic eruptive deposits, northern New Zealand. Quat Sci Rev 25(17–18):2143–2161
MCC (2006) Otuataua stonefields historic reserve conservation plan [Manukau City Council]. Auckland, New Zealand
McGee LE, Smith IEM, Millet M-A, Handley HK, Lindsay AM (2013) Asthenospheric control of melting processes in a monogenetic basaltic system: a case study of the Auckland volcanic field, New Zealand. J Petrol 54(10):2125–2153
Mills M (2003) Restoring the mauri of Oruarangi Creek. Water Sci Technol 48(7):129–137
Molloy L (1993) Soils in the New Zealand landscape. The living mantle. New Zealand Society of Soil Science, Christchurch, New Zealand
Moufti MR, Németh K (2013) The intra-continental Harrat Al Madinah volcanic field, western Saudi Arabia: a proposal to establish Harrat Al Madinah as the first volcanic geopark in the Kingdom of Saudi Arabia. Geoheritage 5(3):185–206
Moufti MR, Németh K, El-Masry N, Qaddah A (2013a) Geoheritage values of one of the largest maar craters in the Arabian peninsula: the Al Wahbah crater and other volcanoes (Harrat Kishb, Saudi Arabia). Central European Journal of Geosciences 5(2):254–271
Moufti MR, Németh K, Murcia H, Al-Gorrry SF, Shawali J (2013b) Scientific basis of the geoheritage and geotouristic values of the 641 AD Al Madinah eruption site in the Al Madinah volcanic field, Kingdom of Saudi Arabia. The Open Geology Journal [Bentham Science Publisher] 7:31–44
Murcia H, Nemeth K, Moufti MR, Lindsay JM, El-Masry N, Cronin SJ, Qaddah A, Smith IEM (2014) Late Holocene lava flow morphotypes of northern Harrat Rahat, Kingdom of Saudi Arabia: implications for the description of continental lava fields. J Asian Earth Sci 84:131–145
Murdoch G (2009) Statement of evidence of Graeme John Murdoch in the matter of The Resource Management Act 1991; and in the matter of the Proposed Plan Change 14 to the Manukau District Plan; and in the matter of Proposed Private Plan Change 13 to the Auckland Regional Policy Statement; and in the matter of Notices of Requirement by Manukau City Council to designate land for public open space purposes at Ihumatao, and for AIAL to designate land for “Auckland International Airport: Land use (Renton Road Area)”
Neches IM (2013) From geomorphosite evaluation to geotourism interpretation. Case study: the sphinx of Romania's southern Carpathians. GeoJournal of Tourism and Geosites 12(2):145–162
Németh K (2010) Monogenetic volcanic fields: origin, sedimentary record, and relationship with polygenetic volcanism. The Geological Society of America Special Paper 470:43–66
Németh K, Kereszturi G (2015) Monogenetic volcanism: personal views and discussion. Int J Earth Sci 104(8):2131–2146
O’Malley V (2012) The meeting place. Māori and Pākehā encounters, 1642–1840. Auckland University Press, Auckland, New Zealand
Panizza M (2001) Geomorphosites: concepts, methods and examples of geomorphological survey. Chin Sci Bull 46:4–6
Panizza M (2009) The Geomorphodiversity of the dolomites (Italy): a key of geoheritage assessment. Geoheritage 1(1):33–42
Paxton C (2001) Saving Mangere’s agricultural history. New Zealand Geographic 50:10–11
Peart R (2004) A place to stand. The protection of New Zealand’s natural and cultural landscapes. Environmental Defense Society, Auckland, New Zealand
Pereira DI, Pereira P, Brilha J, Cunha PP (2015) The Iberian massif landscape and fluvial network in Portugal: a geoheritage inventory based on the scientific value. Proc Geol Assoc 126(2):252–265
Petronis MS, Delcamp A, de Vries BvW (2013) Magma emplacement into the Lemptegy scoria cone (Chaine Des Puys, France) explored with structural, anisotropy of magnetic susceptibility, and Paleomagnetic data. Bull Volcanol 75(10)
Petrovic MD, Vasiljevic DA, Vujicic MD, Hose TA, Markovic SB, Lukic T (2013) Global geopark and candidate – comparative analysis of Papuk Mountain geopark (Croatia) and Fruska Gora Mountain (Serbia) by using GAM model. Carpathian Journal of Earth and Environmental Sciences 8(1):105–116
Reynard E, Coratza P, Giusti C (2011) Geomorphosites and geotourism. Geoheritage 3(3):129–130
Reynard E, Fontana G, Kozlik L, Scapozza C (2007) A method for assessing «scientific» and «additional values» of geomorphosites. Geographica Helvetica 62(3):148–158
Rickard V, Veart D, Bulmer S (1983) A review of archaeological stone structures of South Auckland. New Zealand historic Places Trust, Auckland, New Zealand
Searle EJ (1959) The volcanoes of Ihumatao and Mangere, Auckland. N Z J Geol Geophys 2(5):870–888
Searle EJ, Mayhill RD (1981) City of volcanoes: a geology of Auckland. Longman Paul, Auckland, New Zealand, p. 195
Smale A (2016) There’s no place like home. Mana - Māori Perspect 127(44–53)
Stone R (2001) From Tamaki-makau-rau to Auckland. Auckland University Press, Auckland, New Zealand
Sullivan A (1972) Stone walled complexes of Central Auckland. New Zealand Archaeological Association Newsletter 15(4):148–160
Taylor A (1961) Five Manukau pa sites. New Zealand Archaeological Association Newsletter 4(2):89–94
Veart D (1986) Stone structures and land use at three South Auckland volcanic sites (unpublished master’s thesis). Auckland University, Auckland, New Zealand
Veart D (1994) Archaeological survey of Puketutu Island. Department of Conservation, Auckland, New Zealand
Vujicic MD, Vasiljevic DA, Markovic SB, Hose TA, Lukic T, Hadzic O, Janicevic S (2011) Preliminary geosite assessment model (GAM) and its application on Fruska Gora Mountain, potential geotourism destination of Serbia. Acta Geographica Slovenica-Geografski Zbornik 51(2):361–376
Wilson H (2015) Sworn affidavit of Haki Wilson dated 7 December 2015. (WAI 2547, #A1). Waitangi Tribunal, Wellington, New Zealand Retrieved from: https://forms.justice.govt.nz/search/Documents/WT/wt_DOC_99361888/A0001.pdf
WT (1989) Report of the Waitangi Tribunal on the Manukau claim, Wai 8, 2nd edn. Wellington, New Zealand.
Acknowledgments
This paper dedicated to the memory of John Divers, 1958–2016.
We would like to thank all for the support of geoheritage research in the Ihumatao Peninsula: David Veart, Bruce Hayward, Ian Lawlor, Peter Crossley, Jeremy Treadwell, Members and supporters of Save Our Unique Landscapes Campaign (Waimarie McFarland, Moana Waa Thomas Katene, Pania Newton, Haki Wilson, Qiane Matata-Sipu, Bobbi-Jo Pihema), Mangere Mountain Education Centre (Ane Karika, Graeme Campbell, Brendan Corbett, Farrell Cleary). This research is partially supported through Massey University. KN was supported through the New Zealand National Hazard Platform project and Massey University Research Fund. Formal reviews of the manuscript by Bruce Hayward and Hugo Murcia lifted significantly the quality of this work, many thanks for the valuable comments and suggestions.
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Gravis, I., Németh, K. & Procter, J.N. 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, 373–393 (2017). https://doi.org/10.1007/s12371-016-0198-8
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DOI: https://doi.org/10.1007/s12371-016-0198-8