<div dir="ltr"><br clear="all"><div><div dir="ltr" class="gmail_signature" data-smartmail="gmail_signature"><div dir="ltr"><div><div dir="ltr"><div><div dir="ltr"><div><br></div></div></div></div></div></div></div></div><div class="gmail_quote"><br><p><img alt="SDSU_CSRC Logo.jpg" width="534px" height="107px" src="cid:68d1b231-58bf-439b-a0c1-80b3839e8770"><br></p><p><br></p><p><font size="4">DATE: <br><b>Friday, February 18, 2022</b></font></p><p><br></p><div dir="ltr"><p></p><p></p><p><font size="4">TITLE:<br><b>Coupled poroelastic modeling of an active plate boundary fault zone: was a lake responsible for past M7+ earthquakes on the Southern San Andreas Fault? </b> <b> </b> </font> <b> </b> <b> </b> <b> </b> <b> </b> <b> </b> </p><div><br></div><p><font size="4">TIME: <br><b>3:30-4:30PM</b></font></p><p> <br></p><p><font size="4">LOCATION:<br><b>In Person - GMCS 314</b><br><span style="font-weight:bold">or<br>Join Zoom Meeting - </span> <a href="https://sdsu.zoom.us/j/84471061245" target="_blank">https://SDSU.zoom.us/j/84471061245</a></font></p><p><br></p><p><font size="4">SPEAKER/BIO: <br><b>Matthew Weingarten, Geological Sciences, San Diego State University </b> <b> </b> <b> </b> <b> </b> <b> </b> <b> </b></font></p><p><br></p><p><font size="4">ABSTRACT:<br>Recent paleoseismic evidence shows that previous ruptures on the Southern San Andreas Fault (SSAF) correlate with high-stands of the ancient Lake Cahuilla, a ∼236 km^3 body of water adjacent to the SSAF. We investigate time-dependent Coulomb stress changes caused by high-stands of ancient Lake Cahuilla for the last ∼1100 years using a fully coupled 3D finite element model of a strike-slip fault in a poroelastic crust overlying a viscoelastic mantle. We find the Coulomb stress perturbations are positive – enhancing the likelihood of SSAF rupture. Stress perturbations are on the order of 0.3-0.7 MPa for a plausible range of the fault damage zone permeabilities. The relatively high "hydrologic" stress perturbation is due in part to what we refer to as the "memory" effect whereby increases in pore pressure due to previous high stands do not completely vanish by diffusion and constructively interfere with the undrained response due to subsequent increases in the lake level. Our preferred model estimates that lake loading complemented the interseismic stress accumulation by 12-24.5% at the seismogenic depths during several previous earthquake cycles. Our model also indicates that the destabilizing effects of lake inundation are enhanced in the presence of a non-vertical fault dip, fault damage zone, and lateral pore pressure diffusion<br></font><br></p></div><div dir="ltr"><p><font size="4">Host:<br><b>Christopher Paolini</b></font></p></div><div><br></div><div><p><font size="4"><span style="font-weight:bold">Note:</span><span style="font-weight:bold"> </span>Videos of previous colloquium talks can be seen on the CSRC website in the colloquium archive section or on the <a href="https://www.youtube.com/channel/UCN0ZEztlmyDqG2pm-Rle_Eg/feed" target="_blank">CSRC YouTube page here</a>.</font></p><p><br><br><br></p></div><br>
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