Uri S. ten Brink Christopher D. P. Baxter Jason Chaytor 2023 <div id="abstracts" class="Abstracts u-font-gulliver text-s"><div id="ab0005" class="abstract author" lang="en"><div id="as0005"><p id="sp0085"><span>Considerable effort has been made to link&nbsp;submarine slope&nbsp;failures to changes in local and global-scale environmental conditions, in order to assess&nbsp;landslide&nbsp;hazard probability. Here we provide the first radiocarbon dates of hemipelagic sediment overlying mass transport deposits and inferred failure surfaces of the Currituck Slide Complex (CSC), a prominent landslide scar on the&nbsp;U.S.&nbsp;mid-Atlantic&nbsp;continental slope. The dates, taken from both the upper and lower scars of the complex, constrain the age of the last major failure event to 13,835 and 16,020&nbsp;years BP. Time correlation of the hemipelagic sediments across the landslide scar and proximal deposit suggests a single failure of both the upper and lower parts of this 160&nbsp;km</span>³<span>&nbsp;volume. A higher rate of sediment supply from the periglacial Appalachian Mountains and from glacial melt-water pulses, with an exposed&nbsp;continental shelf&nbsp;at that time, may have enlarged a shelf-edge delta at the site of the CSC, which may have facilitated or triggered failure. A smaller landslide at the southern edge of the complex with a less well-defined geomorphologic footprint is dated at 5500 BP and possibly represents the reshaping of the seafloor around the CSC triggered by low-frequency earthquakes on the nearby continental margin.</span></p></div></div></div> application/pdf 10.1016/j.margeo.2023.107080 en Elsevier Late Pleistocene-Holocene age and stratigraphy of the Currituck Slide Complex, U.S. mid-Atlantic continental slope: Implications for landslide triggering article