2022
DOI: 10.1130/g49745.1
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Non-steady-state slip rates emerge along evolving restraining bends under constant loading

Abstract: Recent field studies provide evidence of fault slip-rate variability over time periods of 10–100 k.y., yet researchers do not know how processes internal to the fault system (e.g., fault reorganization) impact records of fault slip rates. In this study, we directly observed fault-system evolution and measured slip-rate histories within a scaled physical experiment of a dextral strike-slip 15° restraining bend representative of a gentle crustal restraining bend. To assess the degree of slip-rate variability at … Show more

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Cited by 7 publications
(8 citation statements)
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“…Because the activity among fault strands in the San Gorgonio Pass has shifted over the past 100 ka, strands that were active 60 ka may have different activity now. Laboratory experiments of restraining bends with similar geometry to the San Andreas fault through the San Gorgonio Pass show that such bends are not stable fault configurations (Cooke, Schottenfeld, & Buchanan, 2013;Hatem et al, 2015) and slip rates can vary on time spans of ~50 ka (Elston, Cooke, & Hatem, 2022). For this reason, we only use slip rates from offset of features younger than ~16 ka to constrain the models.…”
Section: Impact Of Slip Rates and Their Uncertaintymentioning
confidence: 99%
“…Because the activity among fault strands in the San Gorgonio Pass has shifted over the past 100 ka, strands that were active 60 ka may have different activity now. Laboratory experiments of restraining bends with similar geometry to the San Andreas fault through the San Gorgonio Pass show that such bends are not stable fault configurations (Cooke, Schottenfeld, & Buchanan, 2013;Hatem et al, 2015) and slip rates can vary on time spans of ~50 ka (Elston, Cooke, & Hatem, 2022). For this reason, we only use slip rates from offset of features younger than ~16 ka to constrain the models.…”
Section: Impact Of Slip Rates and Their Uncertaintymentioning
confidence: 99%
“…2). Faults in the analogue model 50 representing Mount Lebanon thrust show very smooth linkage (e.g. Roum fault) to central through-going fault and distributed linkage on the other side (e.g.…”
Section: Mount Lebanonmentioning
confidence: 99%
“…Lebanon has identical surface expression as experiments from physical models 51,56 . A recent model 50 shows a detailed evolution of the fault system in restraining bend, including curved thrust (e.g. Mount Lebanon thrust) nucleating with a single fault trace (e.g.…”
Section: Synthesis and Outlookmentioning
confidence: 99%
“…In the face of these large uncertainties, collecting slip rate data from additional sites provides one way to improve constraints on active slip partitioning. However, in regions of multiple active faults with complex evolving geometry, where slip rates can vary both in space and in time (e.g., Elston et al, 2022;McGill et al, 2021;Zinke et al, 2017), this approach can yield slip rates that are inconsistent with each other. One such region is where the southern San Andreas fault in southern California forms a restraining bend in the San Gorgonio Pass region (SGPr) (Figure 1).…”
Section: Introductionmentioning
confidence: 99%
“…These slip rates are averaged over different time periods (Table 1), which complicates their direct application to current seismic hazard assessment. Long term slip rates from very young deposits (fewer than five earthquakes) may be impacted by earthquake cycles (e.g., Styron, 2019) and older deposits have in- creasing vulnerability for recording temporal variation in slip rates (e.g., Rittase et al, 2014;Hatem et al, 2020;Elston et al, 2022;Zinke et al, 2017). An interesting outcome of having abundant slip rate data is that inconsistency between slip rates decreases our confidence in our estimates of current fault activity along the southern San Andreas fault more than if we had just one slip rate; this is similar to the conundrum of having several clocks tell you different times.…”
Section: Introductionmentioning
confidence: 99%