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Quaternary Coastal Evolution and Vegetation History of Northern New South Wales, Australia, Based on Dinoflagellates and Pollen

Published online by Cambridge University Press:  20 January 2017

Andrew McMinn
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Abstract

The Richmond River Valley of northern N.S.W. contains a late Pleistocene succession dating back to approximately 250,000 yr B.P. Dinoflagellate and spore-pollen assemblages from the lowest interval, the lower “Dungarubba Clay” of Drury (1982), indicate deposition in a restricted estuarine environment at approximately 250,000 yr. Deposition in the overlying interval, the upper “Dungarubba Clay” and “Gundurimba Clay”, at approximately 120,000 yr B.P., began in a restricted estuary, but rising sea level caused inundation and deposition in a more open, marine-dominated environment. Dinoflagellate cyst assemblages from the last interglaciation (stage 5) are interpreted by analogy with those from the morphologically similar, modern Broken Bay, N.S.W. They are indicative of an open, marine-dominated environment and imply that barrier formation in the Richmond River Valley, and possibly elsewhere in northern N.S.W., did not commence until after the initial postglacial transgression. Synchronous changes in sea level and rainforest development suggest that there was no significant time lag between climate and sea-level change.

Type
Research Article
Information
Quaternary Research , Volume 38 , Issue 3 , November 1992 , pp. 347 - 358
Copyright
University of Washington

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References

Bolch, C.J. Hallegraeff, G. Dinoflagellate cysts in Recent marine sediments from Tasmania, Australia Botanica Marina 33 1990 173 192 CrossRefGoogle Scholar
Broecker, W.S. van Donk, J. Insolation curves, ice volumes and O18 record in deep sea cores Review of Geophysics and Space Physics 8 1970 169 198 CrossRefGoogle Scholar
Chappell, J. Geology of coral terraces on Huon Peninsula, New Guinea: A study of Quaternary tectonic movements and sea level changes Geological Society of America, Bulletin 85 1974 553 570 2.0.CO;2>CrossRefGoogle Scholar
Chappell, J. Veeh, N.H. Late Quaternary tectonic movements and sea level changes at Timor and Atauro Island Geological Society of American Bulletin 89 1978 356 368 2.0.CO;2>CrossRefGoogle Scholar
Drury, L.W. Geology, Hydrodynamics, and Hydrochemistry of the Unconsolidated Sediment, Richmond River Valley, New South Wales Unpublished PhD thesis 1982 University of New South Wales Google Scholar
Drury, L.W. Roman, D. Chronological correlation of interglacial sediments of the Richmond River Valley, New South Wales Ambrose, W. Duerden, P. Archaeometry, an Australian Perspective 1983 Australian National University Canberra 290 296 Google Scholar
Kershaw, A.P. Late Quaternary vegetation and climate in northeastern Australia Suggate, R.P. Cresswell, M.M. Quaternary Studies 1975 Royal Society of New Zealand Wellington 181 187 Google Scholar
Kershaw, A.P. A late Pleistocene and Holocene pollen diagram from Lynch's Crater, northeastern Queensland, Australia New Phytologist 77 1976 469 498 CrossRefGoogle Scholar
Kershaw, A.P. Sluiter, I.R. Late Cenozoic pollen spectra from the Atherton Tableland, north-eastern Australia Australian Journal of Botany 30 1982 279 295 CrossRefGoogle Scholar
MacKenzie, K.G. Pickett, J.W. Environmental interpretations of late Pleistocene ostracode assemblages from the Richmond River Valley, New South Wales Proceedings of the Royal Society of Victoria 96 1984 227 242 Google Scholar
Marshall, J.F. Thom, B.G. The sea level in the last interglacial Nature 263 1976 120 121 CrossRefGoogle Scholar
Matthews, R.K. Relative elevation of late Pleistocene high sea level stands: Barbados uplift rates and their implications Quaternary Research 3 1973 147 153 CrossRefGoogle Scholar
McMinn, A. A late Pleistocene dinoflagellate assemblage from Bulahdelah, N.S.W. Proceedings of the Linnean Society of N.S.W. 109 1988 175 181 Google Scholar
McMinn, A. Late Pleistocene dinoflagellates from Botany Bay, N.S.W. Micropaleontology 35 1989 1 9 CrossRefGoogle Scholar
McMinn, A. Distribution of dinoflagellate cysts in estuarine deposits from the east coast of Australia: Proceedings of the 7th International Palynological Congress Review of Palynology and Palaeobotany 65 1990 305 309 CrossRefGoogle Scholar
McMinn, A. Quaternary dinoflagellate cyst distribution in Lake Macquarie Quarterly Notes of the New South Wales Geological Survey 85 1991 1 6 Google Scholar
McMinn, A. (in press a). Recent dinoflagellate cysts from estuaries on the central N.S.W. coast. Micropaleontology .Google Scholar
McMinn, A. (in press b). Pliocene to Recent dinoflagellate cysts biostratigraphy of the Gippsland Basin, Australia: Second International Symposium on Neogene dinoflagellates. Special Publication of the American Association of Stratigraphic Palynologists .Google Scholar
McMinn, A. (in press c). Neogene dinoflagellate cysts from Site 765, eastern Indian Ocean. In “Scientific Results of Ocean Drilling Project Leg 123” (Gradstein, F. Ludden, J., et al., Eds.). College Station, TX.Google Scholar
Pickett, J.W. A late Pleistocene coral fauna from Evans Head, N.S.W. Alcheringa 5 1981 71 83 CrossRefGoogle Scholar
Pickett, J.W. Geological implications of Pleistocene invertebrates from water bore WRC 34275, near Bulahdelah Quarterly Notes of the N.S.W. Geological Survey 52 1983 8 15 Google Scholar
Roy, P.S. N.S.W. estuaries: Their origin and evolution Thom, B.G. Coastal Geomorphology in Australia 1984 Academic Press San Diego 99 122 Google Scholar
Roy, P.S. Holocene sedimentation in estuaries—case histories from N.S.W., Australis Estuarine Environments of the Southern Hemisphere Hodgkin, E.P. Bulletin 161 1984 Dept. Conservation and Environment Perth, WA 23 59 Google Scholar
Roy, P.R. Thom, B.G. Late Quaternary marine deposition in New South Wales and southern Queensland—an evolutionary model Journal of the Geological Society of Australia 28 1981 471 490 CrossRefGoogle Scholar
Roy, P.R. Thom, B.G. Wright, L.D. Holocene sequences on an embayed high-energy coast: An evolutionary model Sedimentary Geology 26 1980 1 19 CrossRefGoogle Scholar
Shackelton, N.J. Opdyke, N.D. Oxygen isotope and palaeomagnetic stratigraphy of equatorial Pacific core V28–283: Oxygen isotope temperature and ice volume on a 105 and 106 scale Quaternary Research 3 1973 147 153 Google Scholar
Shackelton, N.J. Opdyke, N.D. Oxygen isotope and palaeomagnetic stratigraphy of Pacific core V28–239 late Miocene to latest Pleistocene Geological Society of America Memoir 145 1976 449 463 CrossRefGoogle Scholar
Sluiter, I.R. Kershaw, A.P. The nature of late Tertiary vegetation in Australia Alcheringa 6 1982 211 222 CrossRefGoogle Scholar