Abstract
The southeast Australian passive continental margin is narrow, steep and sediment-deficient, and characterized by relatively low rates of modern sedimentation. Upper slope (<1,200 m) sediments comprise mixtures of calcareous and terrigenous sand and mud. Three of twelve sediment cores recovered from geologically-recent, submarine landslides located offshore New South Wales/Queensland (NSW/QLD) are interpreted to have sampled failure surfaces at depths of between 85 and 220 cm below the present-day seabed. Differences in sediment physical properties are recorded above and below the three slide-plane boundaries. Sediment taken directly above the inferred submarine landslide failure surfaces and presumed to be post-landslide, returned radiocarbon ages of 15.8, 20.7 and 20.1 ka. The last two ages correspond to adjacent slide features, which are inferred to be consistent with their being triggered by a single event such as an earthquake. Slope stability models based on classical soil mechanics and measured sediment shear-strengths indicate that the upper slope sediments should be stable. However, multibeam sonar data reveal that many upper slope landslides occur across the margin and that submarine landsliding is a common process. We infer from these results that: (a) an unidentified mechanism regularly acts to reduce the shear resistance of these sediments to the very low values required to enable slope failure, and/or (b) the margin experiences seismic events that act to destabilise the slope sediments.
Shipboard Party SS12/2008
Ron Boyd, Jock Keene, Neville Exon, Asrar Talukder, Tom Hubble, Kev Ruming, Jim Gardner, Janice Felzenberg, David Mitchell, Samantha Clarke, Michael Kinsela, Peter Dunn, Hiski Kippo, Tony Veness, Bernadette Heaney
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References
Bardet JP, Synolakis CE, Davies HL, Imamura F, Okal EA (2003) Landslide tsunamis: recent findings and research directions. Pure Appl Geophys 160:1793–1809
Blott SJ, Pye K (2001) Gradistat: a grain size distribution and statistics package for the analysis of unconsolidated sediments. Earth Surf Proc Landf 26:1237–1248. doi:10.1002/esp. 261
Boyd R (2009) SS12/2008 Voyage summary: marine geology and geohazard survey of the SE Australian margin off Northern NSW and Southern Queensland. CSIRO Division of Marine and Atmospheric Research Hobart
Boyd R, Keene J, Hubble T, Gardner J, Glenn K, Ruming K, Exon N (2010) Southeast Australia: a Cenozoic continental margin dominated by mass transport. In: Mosher DC, Moscardelli L et al (eds) Submarine mass movements and their consequences, vol 28, Advances in natural and technological hazards research. Springer, Dordrecht, pp 1–8
Bronk Ramsey C (2005) Improving the resolution of radiocarbon dating by statistical analysis. In: Levy TE, Higham T (eds) The bible and radiocarbon dating: archaeology, Text and Science. Equinox, London, pp 57–64
Glenn K, Post A, Keene J, Boyd R, Fountain L, Potter A, Osuchowski M, Dando N, Party S (2008) NSW continental slope survey – post cruise report vol Geoscience Australia, Record 2008/14, 160 pp
Harris PT, O’Brien PE, Sedwick P, Truswell EM (1996) Late Quaternary history of sedimentation on the Mac. Robertson Shelf, East Antarctica: problems with 14C-dating of marine sediment cores. Papers and proceedings. Royal Soc Tas 130:47–53
Heiri O, Lotter AF, Lemcke G (2001) Loss on ignition as a method for estimating organic and carbonate content in sediments: reproducibility and comparability of results. J Paleolimnol 25(1):101–110
Hubble T, Yu P, Airey D, Clarke S, et al (2012) Physical properties and age of continental slope sediments dredged from the Eastern Australian continental margin – implications for timing of slope failure. In: Yamada Y et al (eds) Submarine mass movements and their consequences, vol. 31, Advances in natural and technological hazards research. Springer, Dordrecht, pp 43–54
Jenkins CJ, Keene JB (1992) Submarine slope failures on the southeast Australian continental slope. Deep Sea Res 39:121–136
Locat J, Lee HJ (2002) Submarine landslides: advances and challenges. Can Geotech J 39:193–212
McAdoo BG, Pratson LF, Orange DL (2000) Submarine landslide geomorphology, US continental slope. Mar Geol 169:103–136. doi:10.1016/s0025-3227(00)00050-5
Ozkan MY (1998) A review of considerations on seismic safety of embankments and earth and rock-fill dams. Soil Dyn Earthq Eng 17:439–458
Reimer PJ, Baillie MGL, Bard E, Bayliss A, Beck JW, Weyhenmeyer CE (2009) Intcal09 and Marine09 radiocarbon age calibration curves, 0–50,000 years cal BP. Radiocarbon 51:1111–1150
Seed HB, Martin GR (1966) The seismic coefficient in earth dam design. J Geotech Eng ASCE 92:25–58
Stuiver MP, Henry A (1977) Discussion: Reporting of 14C data. Radiocarbon 19:355–363
Varnes DJ (1978) Slope movements and types and processes. Landslides: analysis and control, special report, vol 176. Transportation Research Board, National Academy of Sciences, Washington, DC
Acknowledgments
We would like to acknowledge the P&O crew and scientific crews of the RV Southern Surveyor voyage (12/2008). Funding for this voyage was provided by ARC Australia and ConocoPhillips Pty Ltd. Funding for the radiocarbon age determinations was provided by Professor Ron Boyd and Newcastle University, Australia. This paper benefitted from reviews by Dr. Andrew D. Heap and Dr. Julie Dickinson.
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Clarke, S. et al. (2012). Submarine Landslides on the Upper Southeast Australian Passive Continental Margin – Preliminary Findings. In: Yamada, Y., et al. Submarine Mass Movements and Their Consequences. Advances in Natural and Technological Hazards Research, vol 31. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-2162-3_5
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DOI: https://doi.org/10.1007/978-94-007-2162-3_5
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