1887
24th International Geophysical Conference and Exhibition – Geophysics and Geology Together for Discovery
  • ISSN: 2202-0586
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Abstract

Embedded within Earth’s topography is a constantly evolving fluvial network sensitive to variations in horizontal and vertical motions, driving sediment transport from elevated sources to sedimentary basins. The notion that a river acts as a ‘tape recorder’ for positive vertical displacements suggests that changes in spatial and temporal characteristics of surface uplift can be deduced through the analysis of longitudinal river profiles. The relative tectonic quiescence of the Australian continent during the Cenozoic makes it an excellent natural laboratory to study recent large-scale variations in surface uplift, often linked with mantle convective processes. Here, we analyse X longitudinal river profiles from south Western Australia. Major knickzones in the longitudinal profiles of rivers in southwest Australia suggest recent surface uplift. Given the lack of recent large-scale tectonic activity in that region, this uplift requires an explanation. Applying an inverse algorithm to river profiles of south Western Australia reveals that this surface uplift started in the Eocene and culminated in the mid-late Neogene. The surface uplift rates deduced from this river profile analysis generally agree with independent geological observations including preserved shallow-marine sediment outcrops across the Eucla Basin and south Western Australia. The timing of this event is also to be compared with offshore stratigraphic sections to link onshore surface uplift to offshore sedimentation. We show that the interplay between global sea level and long-wavelength dynamic topography associated with south Western Australia’s plate motion path over the remnants of an ancient Pacific slab is a plausible mechanism driving this surface uplift.

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2015-12-01
2026-01-13

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References

  1. Beard, J., 1999. Evolution of the river systems of the southwest drainage division, Western Australia. J. R. Soc. West. Aust. 82.
  2. Beard, J., 2003. Palaeodrainage and the geomorphic evolution of passive margins in Southwestern Australia (with 7 figures). Z. Geomorphol. 47, 273-288.
  3. Berlin, M.M., Anderson, R.S., 2007. Modeling of knickpoint retreat on the Roan Plateau, western Colorado. J. Geophys. Res. 2003-2012, 112.
  4. Clark, D., Leonard, M., 2003. Principal stress orientations from multiple focal-plane solutions: new insight into the Australian intraplate stress field. Geol. Soc. Am. 91-106.
  5. Clark, D., Mcpherson, A., Van Dissen, R., 2012. Long-term behaviour of Australian stable continental region (SCR) faults. Tectonophysics 566-567, 1 -30.
  6. Cope, R., 1975. Tertiary epeirogeny in the southern part of Western Australia. Geol. Surv. West. Aust. Ann. Rep. 40-46.
  7. Czarnota, K., Hoggard, M., White, N., Winterbourne, J., 2013. Spatial and temporal patterns of Cenozoic dynamic topography around Australia. Geochem Geophys Geosyst 14, 634-658.
  8. Czarnota, K., Roberts, G.G., White, N.J., Fishwick, S., 2014. Spatial and tem- poral patterns of Australian dynamic topography from River Profile Mod- eling, J. Geophys, Res. Solid Earth 119, http ://dx. doi. org/10.1002/2013JB010436.
  9. D’arcy, M., Whittaker, A.C., 2013. Geomorphic constraints on landscape sensitivity to cli- mate in tectonically active areas. Geomorphol. 204, 366-381.
  10. Dicaprio, L., Gurnis, M., Muller, R.D., 2009. Long-wavelength tilting of the Australian con- tinent since the Late Cretaceous. Earth Planet Sci Lett 278, 175-185.
  11. Dicaprio, L., Muller, R.D., Gurnis, M., 2010. A dynamic process for drowning carbonate reefs on the northeastern Australian margin. Geology 38, 11 -14.
  12. England, P., Molnar, P., 1990. Surface uplift, uplift of rocks, and exhumation of rocks. Ge- ology 18, 1173-1177.
  13. Flament, N., Gurnis, M., Muller, R.D., 2013. A review of observations and models of dy- namic topography. Lithosphere 5, 189-210.
  14. Flament, N., Gurnis, M., Williams, S.E., Seton, M., Skogseid, J., Heine, C., Muller, R.D., 2014.Topographic asymmetry of the South Atlantic from global models of mantle flow and lithospheric stretching. Earth Planet Sci Lett 387, 107-119.
  15. Gurnis, M., Muller, R.D., Moresi, L., 1998. Cretaceous vertical motion of Australia and the Australian-Antarctic discordance. Science 279, 1499-1504.
  16. Haq, B.U., Al-Qahtani, A.M., 2005. Phanerozoic cycles of sea-level change on the Arabian Platform. GeoArabia 10, 127-160.
  17. Heine, C., Muller, R.D., Steinberger, B., Dicaprio, L., 2010. Integrating deep Earth dynamicsin paleogeographic reconstructions of Australia. Tectonophysics 483, 135-150.
  18. Jakica, S., Quigley, M.C., Sandiford, M., Clark, D., Fifield, L.K., Alimanovic, A., 2011. Geomor- phic and cosmogenic nuclide constraints on escarpment evolution in an intraplate setting, Darling Escarpment, Western Australia. Earth Surf. Proc. Land. 36, 449-459.
  19. Niemann, J.D., Gasparini, N.M., Tucker, G.E., Bras, R.L., 2001. A quantitative evaluation of Playfair’s law and its use in testing long-term stream erosion models. Earth Surf. Proc. Land. 26, 1317-1332.
  20. Pritchard, D., Roberts, G., White, N., Richardson, C., 2009. Uplift histories from river profiles. Geophys. Res. Lett. 36, L24301.
  21. Quigley, M.C., Clark, D., Sandiford, M., 2010. Tectonic geomorphology of Australia. Geol. Soc. Lond. Spec. Publ. 346, 243-265.
  22. Roberts, G.G., White, N., 2010. Estimating uplift rate histories from river profiles using African examples. J. Geophys. Res. Solid Earth 1978-2012, 115.
  23. Sandiford, M., 2007. The tilting continent: a new constraint on the dynamic topographic field from Australia. Earth Planet Sci Lett 261, 152-16
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  • Article Type: Research Article
Keyword(s): Australia; base level; Cenozoic; dynamic topography; geomorphology; surface uplift

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