Geomorphological evidence for late Quaternary tectonic deformation of the Cape Region, coastal west central Australia

B.B. Whitney, James Hengesh

    Research output: Contribution to journalArticlepeer-review

    26 Citations (Scopus)

    Abstract

    © 2015. A late Pleistocene (Marine Isotope Stage 5e) emergent marine sequence fringes the coastline of the Cape Region of coastal west central Australia and provides elevation and age control to characterize the locations and rates of crustal deformation. There is a systematic measurable change in relative paleo sea-level elevations across the Cape Region. High-precision leveling of modern and Pleistocene shoreline features indicates the minimum elevation range of MIS 5e shoreline features along the coast is 10.4. m. This compares with the 2.5. m elevation range for observed modern shoreline analogs. The lack of continuity of MIS 5e shoreline elevations along 300. km of coastline demonstrates continuing tectonic deformation along coastal anticlines in the Cape Region. Topographic expression of MIS 5e features indicates tectonic uplift consistent with late Neogene to Quaternary deformation on the Cape Cuvier and Cape Range anticlines. Post-MIS 5e tectonic uplift rates are up to 0.054. ±. 0.035. mm/yr at fold axial locations. Estimated subsidence rates are -. 0.013. ±. 0.034. mm/yr on fold limbs. While the estimated vertical tectonic deformation is small and the rates are low, the geomorphological data also demonstrate tectonic activity, not stability.
    Original languageEnglish
    Pages (from-to)160-174
    JournalGeomorphology
    Volume241
    DOIs
    Publication statusPublished - 2015

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