Estimating prehistoric earthquake magnitude from point measurements of surface rupture

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Estimating prehistoric earthquake magnitude from point measurements of surface rupture

Mark A. Hemphill-Haley and Ray J. Weldon, II

Department of Geological Sciences University of Oregon, Eugene, Eugene, Oregon 97403-1272

Abstract

We have developed a method for estimating the magnitude of prehistoricearthquakes using displacement data that usually can be collectedfrom paleoseismic investigations. This method is necessary becauseessentially all current magnitude estimates for prehistoricevents rely on determining the total length of coseismic surfacerupture, which is rarely measurable, or rely on segmentationscenarios, for which uncertainties cannot be quantified. Althoughsurface rupture length is a better predictor of magnitude thandisplacement for historic earthquakes, paleoseismic investigationsare better at providing measurements of the amount of displacementat a site along a fault. The key to our method is to incorporatethe variability in displacement observed in 14 modern events,which allows a formal uncertainty in magnitude to be assignedto prehistoric ruptures. We show how multiple measurements alonga preserved fraction of a rupture can be combined to reducethe uncertainty in the estimate of magnitude. Our analysis showsthat uncertainty asymptotically approaches the natural variabilityof ruptures, so 5 to 10 displacement measurements are sufficientto characterize paleomagnitude. We conclude that sampling ofscarps with lengths of even 10% of the original rupture canprovide magnitude values that reasonably estimate the earthquake.Tests of the method, using randomly sampled data from the 1992M_w 7.3 Landers and 1954 M_s 6.8 Dixie Valley earthquakes, provideclose approximations of the actual magnitudes.

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