Surface faulting accompanying the Borah Peak earthquake and segmentation of the lost river fault, central Idaho

Surface faulting accompanying the Borah Peak earthquake and segmentation of the lost river fault, central Idaho

ANTHONY J. CRONE, MICHAEL N. MACHETTE, MANUEL G. BONILLA, JAMES J. LIENKAEMPER, KENNETH L. PIERCE, WILLIAM E. SCOTT and ROBERT C. BUCKNAM

U.S. GEOLOGICAL SURVEY, P.O. BOX 25046DENVER FEDERAL CENTER, DENVER, COLORADO 80225
U.S. GEOLOGICAL SURVEY, 345 MIDDLEFIELD ROAD, MENLO PARK, CALIFORNIA 94025

Abstract

On the morning of 28 October 1983, the M_s 7.3 Borah Peak earthquakestruck central Idaho and formed a Y-shaped zone of surface faultsthat is divided into a southern, a western, and a northern section.The total length of the surface faults is 36.4 ± 3.1km, and the maximum net throw is 2.5 to 2.7 m. The near-surfacenet slip direction, determined from the rakes of striationsin colluvium, averaged 0.17 m of sinistral slip for 1.00 m ofdip slip.

The 20.8-km-long southern section is the main zone of surfacefaulting and coincides with the Thousand Springs segment ofthe Lost River fault. It has the largest amount of net throw,most complex rupture patterns, and best evidence of sinistralslip. The surface faults include zones of ground breakage asmuch as 140 m wide, en echelon scarps with synthetic and antitheticdisplacements, and individual scarps that are nearly 5 m high.

The 14.2-km-long western section diverges away from the LostRiver fault near the northern end of the southern section. Thenet throw on this section is generally less than 0.5 m but locallyis as much as 1.6 m. The new ruptures are poorly developed acrossthe crest and north flank of the Willow Creek hills; they aremostly downhill-facing, arcuate scars, perhaps incipient landslides,that may overlie a deeper zone of tectonic movement.

The northern section, at least 7.9 km long, is on the Warm Springsegment of the Lost River fault and has a maximum net throwof about 1 m. The pattern of surface faulting on this sectionis simple compared to the other sections. A 4.7-km-long gapin 1983 surface faults separates the northern and southern sectionsbut contains an older scarp of late Pleistocene age.

Geologic, seismologic, and geodetic data from the earthquakesuggest that barriers confined the primary coseismic ruptureto the Thousand Springs segment of the fault. The rupture propagatedunilaterally to the northwest from a hypocenter near the southeasternend of the segment. The southeastern boundary of the segmentis marked by an abrupt bend in the range front, a 4-km-longgap in late Quaternary scarps, and transverse faults of Eoceneage that intersect the Lost River fault.

The northwestern boundary of the Thousand Springs segment isat the junction of the Willow Creek hills and the Lost Riverfault. Here, the southern and western sections of surface faultsdiverge and there is a gap in the 1983 scarps. During the firstfew weeks after the main shock, the large-magnitude and largestress-drop aftershocks clustered near this barrier. Later,aftershocks were mainly northwest of the barrier on the WarmSpring and Challis segments, and showed that strain adjustmentseventually affected the entire northern part of the Lost Riverfault. Fault-scarp morphology and the bedrock geology suggestthat the boundary between the Thousand Springs and Warm Springsegments has probably ruptured less frequently and had lessnet slip during much of the late Cenozoic than the interiorof the adjacent segments. The 1983 faulting shows that althoughsegment boundaries can stop or deflect primary ruptures, secondarysurface faulting can occur on adjacent segments of the mainfault. A late Pleistocene scarp in the 1983 gap suggests thatinfrequent earthquakes, perhaps larger than the 1983 event,might break through a segment boundary and thus release strainon two adjacent segments.

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