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Far-Field Test of the ICE-4G Model of Global Isostatic Response to Deglaciation Using Empirical and Theoretical Holocene Sea-Level Reconstructions for the Fiji Islands, Southwestern Pacific

Published online by Cambridge University Press:  20 January 2017

Patrick D. Nunn  and
W. Richard Peltier
Patrick D. Nunn
Affiliation:
Department of Geography, The University of the South Pacific, Suva, Fiji, E-mail:nunn_p@usp.ac.fj
W. Richard Peltier
Affiliation:
Department of Physics, University of Toronto, Toronto, Ontario, M5S-1A7, Canada
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Abstract

Holocene paleosea-level data for Fiji, represented by 77 dates and emergence magnitudes, are presented, screened, and adjusted. Most data are from coral microatolls, potentially the most precise paleosea-level indicators in this region. Holocene sea-level changes are reconstructed for five areas within Fiji known to have had different late Quaternary tectonic histories. Resulting analysis suggests that postglacial sea level in Fiji reached its present level more than 6900 14C yr B.P. It also suggests either that a single maximum 5650–3200 14C yr B.P. (perhaps +2.19 m but more likely +1.35–1.50 m) occurred or that two maxima occurred 6100–4550 14C yr B.P. (+0.75–1.85 m) and 3590–2800 14C yr B.P. (+0.90–2.46 m). Broad agreement exists between these empirical sea-level reconstructions and those derived theoretically using the ICE-4G model (predicted maximum ∼4000 14C yr B.P.; ∼+2.1 m). This suggests that both methods of reconstructing Holocene sea-level changes are valid, as are the assumptions underpinning the ICE-4G model. The most important of these, that eustatic sea level had effectively stopped rising by late middle-Holocene time (5000–4000 yr B.P.), is confirmed by observations from Fiji.

Keywords

Holocenesea levelmodelglacial isostasyFijiPacificcoralmicroatolls
Type
Research Article
Information
Quaternary Research , Volume 55 , Issue 2 , March 2001 , pp. 203 - 214
Copyright
University of Washington

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References

Ash, J., (1987). Holocene sea levels in northern Viti Levu, Fiji. New Zealand Journal of Geology and Geophysics 30, 431435.CrossRefGoogle Scholar
Ash, W., Ash, J., (1985). Holocene marine deposits on the south coast of Viti Levu, Fiji. New Zealand Journal of Geology and Geophysics 28, 571573.CrossRefGoogle Scholar
Berryman, K., (1979). Seismotectonic zoning of the Fiji Islands. New Zealand Geological Survey Report 70, .Google Scholar
Bloom, A.L., (1980). Late Quaternary sea level change on south Pacific coasts: A study in tectonic diversity. Mörner, N.-A. Earth Rheology, Isostasy and Eustasy Wiley, New York.505515.Google Scholar
Dickinson, W.R., (1967). Tectonic development of Fiji. Tectonophysics 4, 543553.CrossRefGoogle Scholar
Dickinson, W.R., Burley, D.V., Nunn, P.D., Anderson, A., Hope, G., de Biran, A., Burke, C., Matararaba, S., (1998). Geomorphic and archaeological landscapes of the Sigatoka Dunes site, Viti Levu, Fiji: Interdisciplinary investigations. Asian Perspectives 37, 131.Google Scholar
Easton, W.H., Olson, E.A., (1976). Radiocarbon profile of Hanauma Reef, Oahu, Hawaii. Geological Society of America Bulletin 87, 711719.2.0.CO;2>CrossRefGoogle Scholar
Ellison, J.C., (1994). Palaeo-lake and swamp stratigraphic records of Holocene vegetation and sea-level changes, Mangaia, Cook Islands. Pacific Science 48, 115.Google Scholar
Guilcher, A., (1988). Coral Reef Geomorphology. Wiley, New York.Google Scholar
Hamburger, M.W., Everingham, I.B., (1986). Seismic and aseismic zones in the Fiji region. Bulletin of the Royal Society of New Zealand 24, 439453.Google Scholar
McLean, R., (1979). The coast of Lakeba: A geomorphological reconnaissance. UNESCO/UNFPA Fiji Islands Report. Australian National University, Canberra.p. 65–81.Google Scholar
Malahoff, A., Feden, R.H., Fleming, H.F., (1982). Magnetic anomalies and tectonic fabric of marginal basins north of New Zealand. Journal of Geophysical Research 87, 41094125.CrossRefGoogle Scholar
Matsushima, Y., Sugimura, A., Berryman, K., Ishii, T., Maeda, Y., Matsumoto, E., Yonekura, N., (1984). Holocene sea-level changes in Fiji and Western Samoa. Sugimura, A. Sea-Level Changes and Tectonics in the Middle Pacific: Report of the HIPAC Project in 1981, 1982, and 1983 Kobe University, 137185.Google Scholar
Miyata, T., (1984). Geologic development of Viti Levu, Fiji. Sugimura, A. Sea-Level Changes and Tectonics in the Middle Pacific: Report of the HIPAC Project in 1981, 1982, and 1983 Kobe University, 5762.Google Scholar
Miyata, T., Maeda, Y., Matsumoto, E., Matsushima, Y., Rodda, P., and Sugimura, A. (1988). Emerged notches and microatolls on Vanua Levu, Fiji. InSea-Level Changes and Tectonics in the Middle Pacific: Report of the HIPAC Project in 1986 and 1987N . Yonekura, Ed., pp. 6776. University of Tokyo, Japan.Google Scholar
Miyata, T., Maeda, Y., Matsumoto, E., Matsushima, Y., rodda, P., Sugimura, A., Kayanne, H., (1990). Evidence for a Holocene high sea-level stand, Vanua Levu, Fiji. Quaternary Research 33, 352359.CrossRefGoogle Scholar
Neumann, A.C., Maclntyre, I., (1985). Reef response to sea level rise: Keep-up, catch-up or give-up. Proceedings of the 5th International Coral Reef Congress. p. 105110.Google Scholar
Nunn, P.D., (1990). Coastal geomorphology of Beqa and Yanuca islands, South Pacific Ocean, and its significance for the tectonic history of the Vatulele-Beqa Ridge. Pacific Science 44, 348365.Google Scholar
Nunn, P.D., (1990). Coastal processes and landforms of Fiji and their bearing on Holocene sea-level changes in the south and west Pacific. Journal of Coastal Research 6, 279310.Google Scholar
Nunn, P.D., (1991). Tectonic environments of Fiji. United Nations ESCAP, CCOP/SOPAC Technical Bulletin 7, 6776.Google Scholar
Nunn, P. D. (1994)., Oceanic Islands, Blackwell, Oxford, UK Cambridge, MA .Google Scholar
Nunn, P.D., (1995). Holocene tectonic histories for five islands in the south-central Lau group, South Pacific. The Holocene 5, 160171.CrossRefGoogle Scholar
Nunn, P.D., (1995). Lithospheric flexure in southeast Fiji consistent with the tectonic history of islands in the Yasayasa Moala. Australian Journal of Earth Sciences 42, 377389.CrossRefGoogle Scholar
Nunn, P.D., (1995). Holocene sea-level changes in the south and west Pacific. Journal of Coastal Research, Special Issue 17, 311319.Google Scholar
Nunn, P.D., (1998). Pacific Island Landscapes. The University of the South PacificInstitute of Pacific Studies, Suva.Google Scholar
Nunn, P.D., (1998). Late Quaternary tectonic change on the islands of the northern Lau-Colville Ridge, southwest Pacific. Stewart, I.S., Vita-Finzi, C. Coastal Tectonics Geological Society, London.269278.Google Scholar
Nunn, P.D., (2000). Significance of emerged Holocene corals around Ovalau and Moturiki islands, Fiji, southwest Pacific. Marine Geology 163, 345351.CrossRefGoogle Scholar
Nunn, P.D., Omura, A., (1999). Penultimate interglacial emerged reef around Kadavu Island, Southwest Pacific: Implications for late Quaternary island-arc tectonics and sea-level history. New Zealand Journal of Geology and Geophysics 42, 219227.CrossRefGoogle Scholar
Parson, L. M., Pearce, J. A., Murton, B. J., Hodkinson, R. A., and RRS Charles Darwin Scientific Party. (1990). ). Role of ridge jumps and ridge propagation in the tectonic evolution of the Lau back-arc basin, southwest Pacific. Geology 18, 470473.Google Scholar
Peltier, W.R., (1974). The impulse response of a Maxwell Earth. Reviews of Geophysics and Space Physics 12, 649669.CrossRefGoogle Scholar
Peltier, W.R., (1998). Postglacial variations in the level of the sea: Implications for climate dynamics and solid earth geophysics. Reviews of Geophysics 36, 603689.CrossRefGoogle Scholar
Peltier, W. R. (1998b). Global glacial isostatic adjustment and coastal tectonics . In Coastal Tectonics Stewart, I. S. and Vita-Finzi, C., Eds., Special Publications 146, . pp. 129. Geological Society, London.Google Scholar
Peltier, W.R., (2000). Glacial isostatic adjustment and the modern instrumental record of global sea level rise. Douglas, B. Global Sea Level Rise Academic Press, San Diego.Google Scholar
Rodda, P. (1990)., Sucutolu (the three sisters). Fiji Mineral Resources Department. Unpublished Note, BP1/88.Google Scholar
Rodda, P., (1994). Geology of Fiji. Stevenson, A.J., Herzer, R.H., Balance, P.F. Geology and Submarine Resources of the Tonga–Lau–Fiji Region SOPAC Secretariat, Suva.131151.Google Scholar
Rodda, P, and Nunn, P. D. (1990)., Emerged microatolls off Government House, Suva . Fiji Mineral Resources Department, Note, BP1/92.Google Scholar
Roy, P. (1988)., Coastal and nearshore geology of Savusavu Bay, Vanua Levu, Fiji . United Nations ESCAP, CCOP/SOPAC Technical Report, 60.Google Scholar
Saito, Y., (1990). A compiled list of radiocarbon dates for the samples in the middle Pacific (revised version). Yonekura, N. Sea-Level Changes and Tectonics in the Middle Pacific: Report of the HIPAC Project in 1988 and 1989 University of Tokyo, 922.Google Scholar
Scoffin, T.P., Stoddart, D.R., (1978). The nature and significance of microatolls. Philosophical Transactions of the Royal Society of London B 284, 99122.Google Scholar
Shepherd, M.J., (1990). The evolution of a moderate energy coast in Holocene time, Pacific Harbour, Viti Levu, Fiji. New Zealand Journal of Geology and Geophysics 33, 547556.CrossRefGoogle Scholar
Sugimura, A., (1984). Sea-Level Changes and Tectonics in the Middle Pacific: Report of the HIPAC Project in 1981, 1982 and 1983. Kobe University, .Google Scholar
Sugimura, A., (1986). Sea-Level Changes and Tectonics in the Middle Pacific: Report of the HIPAC Project in 1984 and 1985. Kobe University, .Google Scholar
Sugimura, A., Maeda, Y., Matsushima, Y., Rodda, P., Matsumoto, E., (1988). Lobau lowland, Viti Levu, Fiji. Yonekura, N. Sea-Level Changes and Tectonics in the Middle Pacific: Report of the HIPAC Project in 1986 and 1987 University of Tokyo, 5965.Google Scholar
Woodroffe, C., McLean, R., (1990). Microatolls and recent sea level change on coral atolls. Nature 344, 531534.CrossRefGoogle Scholar
Yonekura, N., (1988). Sea-Level Changes and Tectonics in the Middle Pacific: Report of the HIPAC Project in 1986 and 1987. University of Tokyo, Japan.Google Scholar