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Multiple strike slip faults sets: A case study from the Dead Sea transformIn many strike slip tectonic settings, large rotations of crust blocks about vertical axes have been inferred from paleomagnetic data. These blocks are bounded by sets of parallel faults which presumably accommodate the relative motion between the blocks as regional deformation progress. A mechanical model by Nur et al., (1986) suggests that rotations greater than phi sub c equals 25 to 45 degrees must be accommodated by more than one set of faults, with angle phi sub c between their direction; consequently the sum of the angles between sets must be roughly equal to the total tectonic material rotation. To test this model, the authors investigated the fault geometry and field relation of fault sets in the Mt. Hermon area in northern Israel, where paleomagnetic declination implies data 69 degrees plus or minus 13 degrees counter-clockwise block rotation. The statistical and field relation analysis of over 315 faults shows that the faulting is predominantly right lateral strike slip consisting of three distinct sets. The oldest set strikes 253 degrees, the second oldest set strikes 293 degrees and the youngest strikes 339 degrees. This last direction is consistent also with the current north-south direction of the maximum principle stress axis. The angle phi sub c between the first and second sets is 39 degrees and between the second and third sets 46 degrees, in good agreement with the phi sub c angle predicted from mechanical considerations. The sum of the two angles is 85 degrees, in good agreement with the 69 degrees plus or minus 13 degrees CCW paleomagnetically derived rotation. The results suggest specifically that the sequential development of multiple intersecting fault sets is responsible for the faulting in the Mt. Hermon area; and generally that the model of block rotation with multiple faults provides very good simple rules for analyzing very complex fault patterns.
Document ID
19910005356
Acquisition Source
Legacy CDMS
Document Type
Other
Authors
Ron, Hagai (Institute for Petroleum Research and Geophysics Holon (Israel)., United States)
Nur, Amos (Stanford Univ. CA., United States)
Eyal, Y. (Beersheva Univ.)
Date Acquired
September 6, 2013
Publication Date
February 28, 1990
Publication Information
Publication: Reports on Block Rotations, Fault Domains and Crustal Deformation
Subject Category
Geophysics
Accession Number
91N14669
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.

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