Eric Cowgill Katherine M. Scharer Devin McPhillips Arjun Heimsath Adrien Moulin 2023 <div class="article-section__content en main"><p>To determine the post-40&nbsp;ka slip-rate along the Mojave section of the San Andreas Fault (MSAF) we re-analyze the sedimentary record preserved where Little Rock (LR) Creek flows across the fault. At this location, interaction between the northeast-flowing stream and right-lateral fault has resulted in the abandonment and preservation of 11 strath terraces and one paleo-floodplain in the downstream trailing corner of the river, two of which are also preserved upstream to provide cross-fault matches. A new model of fault-induced river deflection, together with standard terrace riser restoration, yields strike-slip displacements of 1,140&nbsp;±&nbsp;160&nbsp;m for the older terrace and 360&nbsp;±&nbsp;70&nbsp;m for the younger one. When combined with new<span>&nbsp;</span>¹⁰Be dating and reinterpretation of prior measurements the displaced terraces yield right-lateral slip-rates of 27.7^+6.9/−3.5<span>&nbsp;</span>and 26.8^+3.4/−3.0&nbsp;mm/yr over the last 23&nbsp;k.y. and last 40&nbsp;k.y., where uncertainties are at 95% credible intervals. These new rate determinations are consistent with independent late Holocene estimates, indicating that the long-term rate of strain accumulation along the MSAF is relatively fast and does not vary significantly when averaged over timescales of 15–20&nbsp;k.y. Using our new model of stream deflection, we find that the fluvial sequence was emplaced in two distinct periods, each characterized by a temporally stable but markedly different deflected river geometry. Each period coincides with a distinct stage of erosive power along LR Creek determined from independent paleoclimate proxies. Importantly, application of the new river-deflection model allows strike-slip displacements to be determined in the absence of upstream piercing points.</p></div> application/pdf 10.1029/2023GC010869 en American Geophysical Union The Mojave section of the San Andreas fault (California), 1: Shaping the terrace stratigraphy of Littlerock Creek through the competition between rapid strike-slip faulting and lateral stream erosion over the last 40ka. article