14C Ages and Magnetic Stratigraphy in Three Australian Maars

C E Barton; H A Polach

doi:10.1017/S0033822200010092

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.

Detailed radiocarbon chronologies from three volcanic crater lakes (maars) in southeast Australia are examined in relationship to the magnetic mineral stratigraphies within lakes, and the magnetic secular variation stratigraphy between lakes. Some implications for magnetic dating are considered.

Footnotes

Present address: Geophysics Department, University of Edinburgh, King's Buildings, Edinburgh, EH9 3JZ, Scotland

References

Barton, C E and McElhinny, M W, 1979, Detrital remanent magnetisation in five slowly redeposited long cores of sediment: Geophys Research Letters, v 6, p 229–232.Google Scholar

Barton, C E, McElhinny, M W, and Edwards, D J, 1980, Laboratory studies of depositional DRM: Royal Astron Soc Geophys Jour, v 60, in press.Google Scholar

Bowler, J M and Hamada, T, 1971, Late Quaternary stratigraphy and radiocarbon chronology of water level fluctuation in L Keilambete, Victoria: Nature, v 237, p 330–332.Google Scholar

Clark, R M, 1975, A calibration curve for radiocarbon dates: Antiquity, v 49, p 251–266.Google Scholar

Creer, K M, 1974, Geomagnetic secular variations for the interval 7000-25000 yrs bp as recorded in a core of sediment from Station 1474 of the Black Sea Cruise of “Atlantic II”: Earth Planetary Sci Letters, v 23, p 34–42.Google Scholar

Creer, K M 1977, Geomagnetic secular variations during the last 25000 years: an interpretation of data obtained from rapidly deposited sediments: Royal Astron Soc Geophys Jour, v 48, p 91–109.Google Scholar

Dodson, J R, 1974, Vegetation and climatic history near Lake Keilambete, Western Victoria: Australian Jour Botany, v 22, p 709–717.Google Scholar

Goree, W S and Fuller, M, 1976, Magnetometers using R-F driven SQUIDS and their applications in rock magnetism and paleomagnetism: Rev Geophys Space Physics, v 14, p 591–608.Google Scholar

Mackereth, F J H, 1971, On the variation in direction of the horizontal of component of remanent magnetization in lake sediments: Earth Planetary Sci Letters, v 12, p 332–338.Google Scholar

Stuiver, Minze, 1970, Long term C¹⁴ variations, in Olsson, I U, ed, Radiocarbon variations and absolute chronology, Nobel symposium, 12th, Proc: New York, John Wiley & Sons, p 197–213.Google Scholar

Stuiver, Minze 1971, Evidence for variation of atmospheric C¹⁴ content in the Late Quaternary, in Turekian, K K, ed, Late Cenozoic glacial ages: New Haven, Yale Univ Press, p 57–70.Google Scholar

Stuiver, Minze 1978, Radiocarbon timescale tested against magnetic and other dating methods: Nature, v 273, p 271–274.Google Scholar

Tauber, Henrik, 1970, The Scandinavian varve chronology and ¹⁴C dating, in Olsson, I U, ed, Radiocarbon variations and absolute chronology: Nobel symposium, 12th, Proc: New York, John Wiley & Sons, p 173–196.Google Scholar

Verosub, K L and Banerjee, S K, 1977, Geomagnetic excursions and their paleomagnetic: record: Rev Geophys Space Physics, v 15, p 145–155.Google Scholar

Yezdani, G, ms, 1970, Quaternary vegetation history of western Victoria: MS thesis, Monash Univ, Victoria.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Barton, C. E. and McElhinny, M. W. 1981. A 10 000 yr geomagnetic secular variation record from three Australian maars. Geophysical Journal International, Vol. 67, Issue. 2, p. 465.

Barton, C. E. and McElhinny, M. W. 1982. Time series analysis of the 10 000 yr geomagnetic secular variation record from SE Australia. Geophysical Journal International, Vol. 68, Issue. 3, p. 709.

Barton, C.E. and Barbetti, Mike 1982. Geomagnetic secular variation from recent lake sediments, ancient fireplaces and historical measurements in southeastern Australia. Earth and Planetary Science Letters, Vol. 59, Issue. 2, p. 375.

King, John W. Banerjee, Subir K. Marvin, James and Lund, Steve 1983. Use of small-amplitude paleomagnetic fluctuations for correlation and dating of continental climatic changes. Palaeogeography, Palaeoclimatology, Palaeoecology, Vol. 42, Issue. 1-2, p. 167.

Polach, Henry and Barton, Charles 1983. ANU Radiocarbon Date List X. Radiocarbon, Vol. 25, Issue. 1, p. 30.

Chivas, Allan R. De Deckker, Patrick and Shelley, J. Michael G. 1985. Strontium content of ostracods indicates lacustrine palaeosalinity. Nature, Vol. 316, Issue. 6025, p. 251.

Clark, Robin L. 1989. Environmental magnetism in Australia and Papua New Guinea. Eos, Transactions American Geophysical Union, Vol. 70, Issue. 48, p. 1512.

Harrison, Sandy P. 1993. Late Quaternary lake-level changes and climates of Australia. Quaternary Science Reviews, Vol. 12, Issue. 4, p. 211.

Mooney, Scott 1997. A fine-resolution palaeoclimatic reconstruction of the last 2000 years, from Lake Keilambete, southeastern Australia. The Holocene, Vol. 7, Issue. 2, p. 139.

Jones, R.N McMahon, T.A and Bowler, J.M 2001. Modelling historical lake levels and recent climate change at three closed lakes, Western Victoria, Australia (c.1840–1990). Journal of Hydrology, Vol. 246, Issue. 1-4, p. 159.

Anker, Sharon A. Colhoun, Eric A. Barton, Charles E. Peterson, Mike and Barbetti, Mike 2001. Holocene Vegetation and Paleoclimatic and Paleomagnetic History from Lake Johnston, Tasmania. Quaternary Research, Vol. 56, Issue. 2, p. 264.

Wilkins, Daniel De Deckker, Patrick Fifield, L. Keith Gouramanis, Chris and Olley, Jon 2012. Comparative optical and radiocarbon dating of laminated Holocene sediments in two maar lakes: Lake Keilambete and Lake Gnotuk, south-western Victoria, Australia. Quaternary Geochronology, Vol. 9, Issue. , p. 3.

Kirono, D. G. C. Kent, D. M. Jones, R. N. and Leahy, P. J. 2012. Assessing Climate Change Impacts and Risks on Three Salt Lakes in Western Victoria, Australia. Human and Ecological Risk Assessment: An International Journal, Vol. 18, Issue. 1, p. 152.

Gouramanis, Chris De Deckker, Patrick Switzer, Adam D. and Wilkins, Daniel 2013. Cross-continent comparison of high-resolution Holocene climate records from southern Australia — Deciphering the impacts of far-field teleconnections. Earth-Science Reviews, Vol. 121, Issue. , p. 55.

Kohfeld, K.E. Graham, R.M. de Boer, A.M. Sime, L.C. Wolff, E.W. Le Quéré, C. and Bopp, L. 2013. Southern Hemisphere westerly wind changes during the Last Glacial Maximum: paleo-data synthesis. Quaternary Science Reviews, Vol. 68, Issue. , p. 76.

Wilkins, Daniel Gouramanis, Chris De Deckker, Patrick Fifield, L Keith and Olley, Jon 2013. Holocene lake-level fluctuations in Lakes Keilambete and Gnotuk, southwestern Victoria, Australia. The Holocene, Vol. 23, Issue. 6, p. 784.

Chivas, Allan R. De Deckker, Patrick Cali, Joseph A. Chapman, Audrey Kiss, Elmer and G. Shelley, J. Michael 2013. Climate Change in Continental Isotopic Records. p. 113.

Haberzettl, Torsten St-Onge, Guillaume Behling, Hermann and Kirleis, Wiebke 2013. Evaluating Late Holocene radiocarbon-based chronologies by matching palaeomagnetic secular variations to geomagnetic field models: an example from Lake Kalimpaa (Sulawesi, Indonesia). Geological Society, London, Special Publications, Vol. 373, Issue. 1, p. 245.

Gale, SJ Cook, DE and Dorrington, NJ 2013. The eastern Australian magnetic inclination record: Dating the recent past and re-assessing the historical geomagnetic archive. The Holocene, Vol. 23, Issue. 3, p. 398.

Barr, Cameron Tibby, John Gell, Peter Tyler, Jonathan Zawadzki, Atun and Jacobsen, Geraldine E. 2014. Climate variability in south-eastern Australia over the last 1500 years inferred from the high-resolution diatom records of two crater lakes. Quaternary Science Reviews, Vol. 95, Issue. , p. 115.

Article contents

14C Ages and Magnetic Stratigraphy in Three Australian Maars

Abstract

Footnotes

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests