Geophysical Research Letters (Apr 2024)

Effect of Seismicity and Tectonic‐Glacial Interactions on Submarine Megaslides

  • Sean P. S. Gulick,
  • Robert S. Reece,
  • Derek E. Sawyer,
  • Gail L. Christeson,
  • Brian K. Horton

DOI
https://doi.org/10.1029/2024GL108374
Journal volume & issue
Vol. 51, no. 7
pp. n/a – n/a

Abstract

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Abstract Enhanced sedimentation at glacial margins can produce submarine megaslides (>10,000 km3). We report a single megaslide in the Surveyor Fan, Gulf of Alaska. Minimum extant size is ∼16,124 km2 in area and ∼9,080 km3 in volume. Slope failure occurred ∼1.2 Ma at the onset of the mid‐Pleistocene transition (MPT). With accretion along the Aleutian‐Alaska Trench, the original volume is conservatively ∼16,280 km3, with only a 140 km run‐out due to its blocky, high shear strength nature. We suggest the megaslide was triggered by a major sediment influx at the onset of the MPT, when glacial‐interglacial cycles shifted from 41 to 100 Kyr. The absence of repeat megaslides may reflect a changing balance between seismic strengthening and sediment flux, where later sedimentation driven by cross‐shelf ice streams results in thin, fluidized, non‐cohesive slides. Continued accretion of the Surveyor Fan and megaslide also reduces critical wedge taper, further inhibiting major failure.

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