R. Randall Schumann Jordon Bright Helen M. Roberts Lindsey T. Groves Daniel R. Muhs 2026 <p><span id="_mce_caret" data-mce-bogus="1" data-mce-type="format-caret"><span>In several early studies, central California marine terraces between Santa Barbara and Point Conception were interpreted to record sea-level high stands of the last interglacial complex, ∼80&nbsp;ka to ∼120&nbsp;ka (marine isotope stage [MIS] 5). These ages and their elevations (∼20&nbsp;m to ∼45&nbsp;m) indicate modest rates of tectonic uplift, similar to those from other localities in southern and central California. A recent study, using a combination of luminescence and radiocarbon dating, has challenged the older age interpretations, implying much younger terrace ages, between ∼40&nbsp;ka and&nbsp;∼55&nbsp;ka (MIS 3). From these new ages and a considerably lower sea level during MIS 3, much higher rates of tectonic uplift are inferred. In the present study, new uranium-series ages of terrace corals and amino acid age estimates of terrace mollusks were determined to test these competing interpretations. With the exception of a low-elevation terrace in Isla Vista (near Santa Barbara) that dates to MIS 3, terraces farther west are interpreted to date to MIS 5 and imply tectonic uplift rates of 0.20–0.34&nbsp;m/kyr. A compilation of data for the region yields a decreasing rate of late Quaternary uplift from east, near Ventura, to west, near Point Conception. This trend is interpreted to reflect a decreasing influence of the processes of compression and crustal shortening south of the Big Bend in the San Andreas fault.</span></span></p> application/pdf 10.1016/j.geomorph.2026.110179 en Elsevier Revisiting the geochronology of late Quaternary marine terraces and uplift rates in coastal Santa Barbara County, California, USA article