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Three‐Dimensional Investigation of a 5 m Deflected Swale along the San Andreas Fault in the Carrizo Plain
Active tectonics and the LiDAR revolution
Applications of airborne and terrestrial laser scanning to paleoseismology
Century-long average time intervals between earthquake ruptures of the San Andreas fault in the Carrizo Plain, California
Low-altitude Aerial Color Digital Photographic Survey of the San Andreas Fault
Geomorphic response to uplift along the Dragon's Back pressure ridge, Carrizo Plain, California
Patterns of bedrock uplift along the San Andreas fault and implications for mechanisms of transpression
The majority of the San Andreas fault zone is convergently oblique to relative plate motion. The commonness of transpression makes it significant for understanding deformation of the continental lithosphere. We have quantified the distribution of transpressional deformation along the San Andreas fault zone with respect to variations in boundary conditions along its length and distance from the fault zone itself. Rock uplift was used as a proxy for transpressional deformation. The pattern of exhumation along the fault was synthesized based on previously determined apatite fission-track and (U-Th)/He ages from 210 locations within 40 km of the fault trace. Patterns of mean elevation and slope in swaths along the fault were used as rough proxies of surface uplift and erosion. Relatively higher exhumation rates and mean elevations occur most commonly along the most oblique sections of the fault, such as in the Transverse Ranges. The highest rates of exhumation (>0.5 mm/yr) and highest and steepest topography also occur almost exclusively in the near field (i.e., within ∼10 km) of the fault trace. These trends are consistent with the strain-partitioning model of transpression, in which distributed deformation is concentrated in the fault zone and the degree of partitioning between simple and pure shear is a function of obliquity. However, the pattern of rock uplift also exhibits considerable variability. Neither the degree of obliquity nor the distance to the fault trace is enough to predict where high exhumation or mean elevation will occur. This suggests that heterogeneity in boundary conditions, including mechanical weaknesses and variations in erodibility, is equally important for controlling the pattern of transpressional deformation.