Hostname: page-component-8448b6f56d-tj2md Total loading time: 0 Render date: 2024-04-24T22:16:20.670Z Has data issue: false hasContentIssue false
  • English
  • Français

Palynological and Sedimentological Evidence for a Radiocarbon Chronology of Environmental Change and Polynesian Deforestation from Lake Taumatawhana, Northland, New Zealand1

Published online by Cambridge University Press:  18 July 2016

M. B. Elliot ,
B. Striewski ,
J. R. Flenley  and
D. G. Sutton
M. B. Elliot
Affiliation:
Department of Geography, Massey University, Private Bag 11-222, Palmerston North, New Zealand
B. Striewski
Affiliation:
Department of Geography, Massey University, Private Bag 11-222, Palmerston North, New Zealand
J. R. Flenley
Affiliation:
Department of Geography, Massey University, Private Bag 11-222, Palmerston North, New Zealand
D. G. Sutton
Affiliation:
Centre for Archaeological Research, University of Auckland, Private Bag 92019, Auckland, New Zealand
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

We present pollen diagrams and sedimentological analyses from a lake site within an extensive dune system on the Aupouri Peninsula, Northland. Five thousand years ago, a regional Agathis australis–podocarp-broadleaf forest dominated the vegetation, which manifested an increasing preponderance of conifer species. Climate was cooler and drier than at present. From ca. 3400 bp, warmth-loving species such as A. australis and drought-intolerant species, Dacrydium cupressinum and Ascarina lucida, became common, implying a warm and moist climate. The pollen record also suggests a windier climate. The most significant event in the record, however, occurred after ca. 900 bp (800 cal bp) when anthropogenic deforestation commenced. A dramatic decline in forest taxa followed, accompanied by the establishment of a Pteridium–esculentum-dominated community. Fire almost certainly caused this, evidenced by a dramatic increase of charcoal. Sedimentological evidence for this site indicates a relatively stable environment before humans arrived and an increasingly unstable environment with frequent erosional events after human contact.

Type
Articles
Information
Radiocarbon , Volume 37 , Issue 3 , 1995 , pp. 899 - 916
Copyright
Copyright © The American Journal of Science 

References

Allan, H. H. 1961 Flora of New Zealand, Vol. I. Wellington, Government Printer: 1085 p.Google Scholar
Anderson, A. J. 1989 Prodigous Birds: Moa and Moa-Hunting in Prehistoric New Zealand. Cambridge, Cambridge University Press: 238 p.Google Scholar
Anderson, A. J. 1991 The chronology of colonization in New Zealand. Antiquity 65: 767795.CrossRefGoogle Scholar
Anderson, A. J. and McGovern-Wilson, R. 1990 The pattern of prehistoric Polynesian colonisation in New Zealand. Journal of the Royal Society of New Zealand 20(1): 4163.Google Scholar
Baker, S. R. and Friedman, G. M. 1969 A non-destructive core analysis technique using x-rays. Journal of Sedimentary Petrology 39(4): 13711383.Google Scholar
Berezin, P. N. and Voronin, A. D. 1981 Use of the sedimentograph for particle size analysis of soils and subsoils. Pochvovedeniye 5: 5661 (in Russian). Translated in Soviet Soil Science 13: 101–109.Google Scholar
Bulmer, S. (ms.) 1988 A model of the colonisation of Aotearoa. Paper presented to New Zealand Archaeological Association Conference, Auckland, May 1988.Google Scholar
Bussell, M. R. 1988 Mid and late Holocene pollen diagrams and Polynesian deforestation, Wanganui district, New Zealand. New Zealand Journal of Botany 26: 431451.CrossRefGoogle Scholar
Chester, P. I. (ms.) 1986 Forest Clearance in the Bay of Islands. M. A. thesis, Department of Anthropology, University of Auckland: 359 p.Google Scholar
Connor, H. E. and Edgar, E. 1987 Name changes in the indigenous New Zealand flora, 1960–1986 and Nomina Nova IV, 1983–1986. New Zealand Journal of Botany 25: 115170.Google Scholar
Davidson, J. 1984 The Prehistory of New Zealand. Auckland, Longman Paul: 270 p.Google Scholar
Dawson, S. (ms.) 1990 A Chemical and Mineralogical Study of a Sediment Core from Lake Tiriara, Mangaia, Southern Cook Islands with Special Reference to the Impact of Early Man. B. Sc. dissertation, University of Hull: 50 p.Google Scholar
Dodson, J. R., Enright, N. J. and McLean, R. F. 1988 A late Quaternary vegetation history for far northern New Zealand. Journal of Biogeography 15: 647656.Google Scholar
Ecroyd, C. E. 1982 Biological flora of New Zealand 8. Agathis australis (D. Don) Lindl. (Araucariaceae) Kauri. New Zealand Journal of Botany 20: 1736.CrossRefGoogle Scholar
Enright, N. J. and Osborne, N. M. 1988 Comments on D G Sutton's paper: “A paradigmatic shift in Polynesian prehistory: implications for New Zealand”. New Zealand Journal of Archaeology 10: 139146.Google Scholar
Enright, N. J., McLean, R. F. and Dodson, J. R. 1988 Late Holocene development of two wetlands in the Te Paki region, far northern New Zealand. Journal of the Royal Society of New Zealand 18(4): 369382.CrossRefGoogle Scholar
Faegri, K. and Iversen, J. 1989 Textbook of Pollen Analysis, 4th edition (revised by Faegri, K., Kaland, P. E. and Krzywinski, K.). Chichester, John Wiley & Sons: 328 p.Google Scholar
Flenley, J. R. 1988 Palynological evidence for land use changes in South-East Asia. Journal of Biogeography 15:185–197.Google Scholar
Flenley, J. R., King, A. S. M., Jackson, J., Chew, C., Teller, J. T. and Prentice, M. E. 1991 The Late Quaternary vegetational and climatic history of Easter Island. Journal of Quaternary Science 6(2): 85115.Google Scholar
Gee, G. W. and Bauder, J. W. 1986 Particle-size analysis. In Klute, A., ed., Methods of Soil Analysis, Part I, Agronomy 9: 383411.Google Scholar
Gibb, J. G. 1986 A New Zealand regional Holocene eustatic sea-level curve and its application to determination of vertical tectonic movements. Royal Society of New Zealand Bulletin 24: 377395.Google Scholar
Håkansson, L. and Jansson, M. 1983 Principles of Lake Sedimentology. Berlin, Springer-Verlag: 316 p.CrossRefGoogle Scholar
Heim, D. 1991 Tone und Tonminerale: Grundlagen der Sedimentologie and Mineralogie. Stuttgart, Enke Verlag: 157 p.Google Scholar
Kershaw, A. P. and Strickland, K. M. 1988 A Holocene pollen diagram from Northland, New Zealand. New Zealand Journal of Botany 26: 145152.Google Scholar
Kirch, P. V., Flenley, J. R. and Steadman, D. W. 1991 A radiocarbon chronology for human-induced environmental change on Mangaia, Southern Cook Islands, Polynesia. Radiocarbon 33(3): 317328.CrossRefGoogle Scholar
Kirch, P. V., Flenley, J. R., Steadman, D. W., Lamont, F. and Dawson, S. 1992 Ancient environmental degradation. National Geographic Research and Exploration 8(2): 166179.Google Scholar
Kretzschmar, R. 1989 Kulturtechnisch-bodenkundliches Praktikim. Ausgewählte Laboratoriums-Methoden – eine Auleitung zum Selbstandigen Arbeiten an Böden. Universitätsdruckerei Universität Kiel: 527 p.Google Scholar
Kunze, G. W. and Dixon, J. B. 1986 Pre-treatment for mineralogical analysis. In Klute, A. ed., Methods of Soil Analysis, Part I. Agronomy 9: 91100.Google Scholar
Loveland, P. J. and Whalley, W. R. 1991 Particle size analysis. In Smith, K. A. and Mullins, C. E., eds., Soil Analysis: Physical Methods. New York, Marcel Dekker: 271328.Google Scholar
Mackereth, F. J. H. 1965 Chemical investigation of lake sediments and their interpretation. Proceedings of the Royal Society of London, Series B, Biological Sciences 161: 295309.Google Scholar
Mackereth, F. J. H. 1966 Some chemical observations on post-glacial lake sediments. Philosophical Transactions of the Royal Society of London, Series B, Biological Sciences 250: 165213.Google Scholar
Maingay, J. (ms.) 1991 Proposals for a historic reserve at Onepu. Report, Department of Conservation, Northland Conservancy: 23 p.Google Scholar
McFadgen, B. G., Knox, F. B. and Cole, T. R. L. 1994 Radiocarbon calibration curve variations and their implications for the interpretation of New Zealand prehistory. Radiocarbon 36(2): 221236.Google Scholar
McGlone, M. S. 1978 Forest destruction by early Polynesians, Lake Poukawa, Hawkes Bay, New Zealand. Journal of the Royal Society of New Zealand 8(3): 275281.Google Scholar
McGlone, M. S. 1983 Polynesian deforestation of New Zealand: a preliminary synthesis. Archaeology in Oceania 18: 1125.Google Scholar
McGlone, M. S. 1989 The Polynesian settlement of New Zealand in relation to environmental and biotic changes. New Zealand Journal of Ecology 12: 115129.Google Scholar
McGlone, M. S., Anderson, A. J. and Holdaway, R. N. 1994 An ecological approach to the Polynesian settlement of New Zealand. In Sutton, D. G., ed., The Origins of the First New Zealanders. Auckland, Auckland University Press: 136163.Google Scholar
McGlone, M. S., Mark, A. F. and Bell, D. 1995 Late Pleistocene and Holocene vegetation history, Central Otago, South Island, New Zealand. Journal of the Royal Society of New Zealand 25(1): 122.Google Scholar
McGlone, M. S. and Moar, N. T. 1977 The Ascarina decline and post-glacial climatic change in New Zealand. New Zealand Journal of Botany 15: 485489.CrossRefGoogle Scholar
McGlone, M. S. and Topping, W. W. 1977 Aranuian (post-glacial) pollen diagrams from the Tongariro region, North Island, New Zealand. New Zealand Journal of Botany 15: 749760.Google Scholar
Micromeritics 1991 Sedigraph 5100: Particle analysis system. Operator's Manual V3.02.Google Scholar
Mildenhall, D. C. 1979 Holocene pollen diagrams from Pauatahanui Inlet, Porirua, New Zealand. New Zealand Journal of Geology and Geophysics 22: 585591.CrossRefGoogle Scholar
Molloy, B. P. J. 1995 Manoao (Podocarpaceae), a new monotypic conifer genus endemic to New Zealand. New Zealand Journal of Botany 33: 183201.CrossRefGoogle Scholar
Moore, L. B. and Edgar, E. 1976 Flora of New Zealand, Vol. II. Wellington, Government Printer: 354 p.Google Scholar
Newnham, R. M. (ms.) 1990 Late quaternary palynological investigations into the history of vegetation and climate in northern New Zealand. Ph. D. dissertation, Department of Geology, University of Auckland, New Zealand: 359 p.Google Scholar
Newnham, R. M. (ms.) 1992 A 30,000 year pollen, vegetation and climate record from Otakairangi (Hikurangi), Northland, New Zealand. Journal of Biogeography 19: 541554.Google Scholar
Newnham, R. M., Lowe, D. J. and Green, J. D. 1989 Palynology, vegetation and climate of the Waikato lowlands, North Island, New Zealand, since ca. 18,000 years ago. Journal of the Royal Society of New Zealand 19(2): 127150.Google Scholar
Newnham, R. M., Ogden, J. and Mildenhall, D. C. 1993 A vegetation history of the Far North of New Zealand during the Late Otira (Last) Glacial. Quaternary Research 39: 361372.Google Scholar
Newsome, J. and Flenley, J. R. 1988 Late Quaternary vegetational history of the central highlands of Sumatra. II. Palaeopalynology and vegetational history. Journal of Biogeography 15: 555578.Google Scholar
Ogden, J. 1985 An introduction to plant demography with particular reference to New Zealand trees. New Zealand Journal of Botany 23: 751772.Google Scholar
Ogden, J., Wilson, A., Hendy, C. and Newnham, R. M. 1992 The late Quaternary history of kauri (Agathis australis) in New Zealand and its climatic significance. Journal of Biogeography 19: 611622.Google Scholar
Pennington, W., Cambray, R. S., Eakins, J. D. and Harkness, D. D. 1976 Radionuclide dating of the recent sediments of Blelham Tarn. Freshwater Biology 6: 317331.Google Scholar
Reineck, H. E. and Singh, I. B. 1975 Depositional Sedimentary Environments. Berlin, Springer-Verlag: 439 p.Google Scholar
Risberg, J. 1989 Grain size distribution of sediments: A comparison between pipette and sedigraph analysis. Geologiska Föreningens i Stockholm Förhandlingar 111(3): 247250.Google Scholar
Schlichting, E. and Blume, H. P. 1966 Bodenkundliches Praktikum: Eine Einführung in Pedologisches Arbeiten für Ökologen, Insbesondere Land- und Forstwirte und für Geowissenschaftler. Berlin, Springer-Verlag: 255 p.Google Scholar
Stockmarr, J. 1971 Tablets with spores used in absolute pollen analysis. Pollen et Spores 13(4): 615621.Google Scholar
Sutton, D. G. 1987 A paradigmatic shift in Polynesian prehistory: Implications for New Zealand. New Zealand Journal of Archaeology 9: 135155.Google Scholar
Sutton, D. G. 1988 to Enright and Osborne. New Zealand Journal of Archaeology 10: 147149.Google Scholar
Walker, D. 1964 A modified Vallentyne Mud Sampler. Ecology 45: 642644.Google Scholar
Wardle, P. 1991 Vegetation of New Zealand. Cambridge, Cambridge University Press: 672 p.Google Scholar