1887
ASEG2010 - 21st Geophysical Conference
  • ISSN: 2202-0586
  • E-ISSN:
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Abstract

Summary

We present a revised set of Euler poles describing the relative motion between Australia and Antarctica from the onset of continental rifting at ~160-140 Ma to the reorganisation of the spreading system at ~50 Ma. Our revised reconstruction addresses two key issues that remain unresolved in current plate reconstructions.

Firstly, we present new estimates of the pre-rift plate boundary locations for the conjugate Australian-Antarctic margins. These reconstructions are truly palinspastic, incorporating estimates of crustal thickness along these margins, derived from gravity inversions. Integrating the crustal thickness along tectonic flowlines results in the pre-rift location of the continental plate boundary. This integration relies on defining the present-day extent of stretched continental crust within the margin, which is the subject of the companion paper, Williams et al. [2010]. Once restored, we are then able to use the pre-rift plate boundary positions to compute ‘full-fit’ poles of rotation for Australia relative to Antarctica. This approach allows us to model a deforming passive margin, with implications for understanding and modelling the formation of basins and deposition of sediments along passive margins.

Secondly, reconstructions for plate motions since ~83 Ma have been revised to obtain a better fit along the entire Australian-Antarctic conjugate margins, which extend from at least the Kerguelen Plateau and Broken Ridge in the west to Tasmania, Australia and Cape Adare, Antarctica in the east. Previously published reconstruction models for the period 83-50 Ma had resulted in a poor fit between the two plates at the extreme ends of the conjugate margins.

© 2010 ASEG
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/content/journals/10.1081/22020586.2010.12042015
2010-12-01
2026-01-19

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References

  1. Bullard, E., J. E. Everett, and A. Gilbert Smith (1965), The fit of the continents around the Atlantic, in A symposium on continental drift, edited by P. M. S. Blackett, E. Bullard and S. K. Runcorn, pp. 41-51, Royal Society of London, Philosophical Transactions
  2. Cande, S. C., and D. V. Kent (1995), Revised calibration of the geomagnetic polarity timescale for the Late Cretaceous and Cenozoic, Journal of Geophysical Research, 100(B4), 6093-6095.
  3. Coffin, M. F., M. S. Pringle, R. A. Duncan, T. P. Gladczenko, M. Storey, R. D. Müller, and L. M. Gahagan (2002), Kerguelen Hotspot Magma Output Since 130 Ma, Journal of Petrology, 43, 1121-1139.
  4. Gohl, K. (2008), Antarctica's Continent-Ocean Transitions: Consequences for Tectonic Reconstructions, paper presented at Antarctica: Keystone in a Changing World. Proceedings of the 10th International Symposium on Antarctic Earth Sciences, The National Academies Press, Washington, DC.
  5. Kusznir, N. (2009), GA Report: South Australia - Antarctica Conjugate Rifted Margins: Mapping Crustal Thickness and Lithosphere Thinning Using Satellite Inversion Report, Geoscience Australia, Canberra.
  6. Lawver, L. A., L. M. Gahagan, and I. W. D. Dalziel (1998), A Tight Fit - Early Mesozoic Gondwana, A Plate Reconstruction Perspective, Memoirs of the National Institute of Polar Research, Special Issue, 53, 214-229.
  7. Müller, R. D., M. Sdrolias, C. Gaina, and W. R. Roest (2008), Age, spreading rates and spreading asymmetry of the world's ocean crust, Geochemistry Geophysics Geosystems, 9(Q04006), doi:10.1029/2007GC001743.
  8. Sandwell, D. T., and W. H. F. Smith (2005), Retracking ERS-1 altimeter waveforms for optimal gravity field recovery, Geophysical Journal International, 163(1), 79-89.
  9. Sayers, J., P. A. Symonds, N. G. Direen, and G. Bernadel (2001), Nature of the continent-ocean transition on the nonvolcanic rifted margin in the central Great Australian Bight, in Non-volcanic rifting of continental margins: a comparison of evidence from land and sea, edited by R. C. L. Wilson, R. B. Whitmarsh, B. Taylor and N. Froitzheim, pp. 51-76, Geological Society of London.
  10. Schettino, A., and C. R. Scotese (2005), Apparent polar wander paths for the major continents (200 Ma to the present day): a palaeomagnetic reference frame for global plate tectonic reconstructions Geophysical Journal International, 163, 727-759.
  11. Tikku, A., and N. G. Direen (2008), Comment on "Major Australian-Antarctic Plate Reorganization at Hawaiian-Emperor Bend Time", Science, 321.
  12. Tikku, A. A., and S. C. Cande (1999), The oldest magnetic anomalies in the Australian-Antarctic Basin: Are they isochrons?, Journal of Geophysical Research, 104, 661-677.
  13. Tikku, A. A., and S. C. Cande (2000), On the fit of Broken Ridge and Kerguelen plateau, Earth and Planetary Science Letters, 180(1-2), 117-132.
  14. Totterdell, J. M., J. E. Blevin, H. I. M. Struckmeyer, B. E. Bradshaw, J. B. Colwell, and J. M. Kennard (2000), A new sequence framework for the great Australian Bight: starting with a clean slate, APPEA Journal, 40(1), 95-117.
  15. Whittaker, J., and R. D. Müller (2008), The origin of seafloor roughness, paper presented at EGU General Assembly, Vienna, Austria, April.
  16. Whittaker, J. M., R. D. Müller, G. Leitchenkov, H. Stagg, M. Sdrolias, C. Gaina, and A. Goncharov (2007), Major Australian-Antarctic Plate Reorganisation at Hawaiian-Emperor Bend Time, Science, 318, 83-86.
  17. Willcox, J. B., and H. M. J. Stagg (1990), Australia's southern margin: a product of oblique extension, Tectonophysics, 172, 269-281.
  18. Williams, S., J. Whittaker, and S. Mazur (2010), What can potential field data really tell us about Continent-Ocean transitions? in ASEG-PESA 21st International Geophysical Conference & Exhibition, edited, Australian Society of Exploration Geophysicists & Petroleum Exploration Society of Australia, Sydney, Australia.
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  • Article Type: Research Article
Keyword(s): continent-ocean boundary; passive margin; plate tectonic reconstruction

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