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Scour in large braided rivers and the recognition of sequence stratigraphic boundaries

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  • James L. Best

    (University of Leeds)

  • Philip J. Ashworth

    (University of Leeds)

Abstract

Alluvial scour into shallow marine sediments may be caused by the incision of a river adjusting to a new base level1–4 following a fall in sea level. The identification of such erosion surfaces1–3 has therefore been pivotal in the reconstruction of past sea-level changes from ancient sedimentary sequences1–14. Here we report data from a study of the Jamuna river, Bangladesh, one of the world's largest modern braided rivers15, which illustrate that bed scour associated with channel confluences and bends alone can be substantial—as much as five times greater than the mean channel depth. Indeed, the basal erosion surfaces produced by such deep scours have characteristics similar to those of boundaries in some ancient sedimentary sequences that have been assumed to result from sea-level fall1–14, potentially leading to radically different interpretations of past variation in base level and climate. We suggest that, to discount unambiguously the influence of fluvial scour in ancient sediments, the erosive boundary should be greater than five times the mean channel depth and extend for distances greater than the floodplain width. Ideally, it should be traceable between different basins.

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  • James L. Best & Philip J. Ashworth, 1997. "Scour in large braided rivers and the recognition of sequence stratigraphic boundaries," Nature, Nature, vol. 387(6630), pages 275-277, May.
    • Handle: RePEc:nat:nature:v:387:y:1997:i:6630:d:10.1038_387275a0
    DOI: 10.1038/387275a0
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    Cited by:

    1. Nafis Sadik Khan & Sujit Kumar Roy & Md. Touhidur Rahman Mazumder & Swapan Talukdar & Javed Mallick, 2022. "Assessing the long-term planform dynamics of Ganges–Jamuna confluence with the aid of remote sensing and GIS," Natural Hazards: Journal of the International Society for the Prevention and Mitigation of Natural Hazards, Springer;International Society for the Prevention and Mitigation of Natural Hazards, vol. 114(1), pages 883-906, October.

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