Communications Earth & Environment (Mar 2024)

Deep-ocean channel-wall collapse order of magnitude larger than any other documented

  • Adam D. McArthur,
  • Daniel E. Tek,
  • Miquel Poyatos-Moré,
  • Luca Colombera,
  • William D. McCaffrey

DOI
https://doi.org/10.1038/s43247-024-01311-z
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 11

Abstract

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Abstract Submarine channels are the largest conveyors of sediment on Earth, yet little is known about their stability in the deep-ocean. Here, 3D seismic data from the deep-ocean Hikurangi channel-levee system, offshore New Zealand, reveal the largest channel-wall failure yet documented. Collapse of both channel-walls along a 68 km stretch created a mass-transport deposit of 19 km3, containing 4 km long blocks. Channel-walls typically collapse piecemeal, but here synchronous failure of both channel-walls and landslide erosion of the seafloor is documented, requiring a new process model for channel-wall failure. Mass-failure on this scale poses an under-appreciated risk to seafloor infrastructure both within channels and over regions extending twice the channel width into their overbank. Hitherto, channel-wall failures of this size are unrecognised in abyssal plains; its scale changes our understanding of how channel-levee systems are constructed and how they conduct sediment, carbon and pollutants into the deep-ocean.