Jointly determined focal parameters along a fault in California's northern coast range

Abstract

The authors recently determined seismic parameters of earthquakes located along a lineation of microearthquakes in the Coast Range Province of northern California (Dehlinger and Bolt, 1984). The lineation closely follows the mapped Bartlett Springs fault zone, which is considered to be the source of seismic activity. This fault strikes N40°W for about 40 km and the mapped fault zone consists of a 2–3 km-wide belt of melange. Earthquake hypocenters indicate that this belt dips steeply to the northeast, with shocks occurring along multiple dislocation planes that together extend downward to depths of about 12 km. Focal mechanisms and associated stress fields were determined for 22 of the best recorded recent shocks along the earthquake lineation. Analyses of these shocks provided a comparison between individually and jointly determined focal mechanisms and of the directions of the corresponding stress axes, for identical shocks along the entire fault length. Thirteen of the shocks exhibited right-lateral, San Andreas type of source motions. Average values of these 13 individually determined focal parameters are within the standard deviation of the same set of jointly determined values. It is thus verified that the probability model algorithm for joint parameters determinations developed by Brillinger et al. (1980) yields reliable values of focal parameters. Moreover, the jointly determined parameters appear to be more reliable than the average-determined ones. The focal mechanisms and associated stress fields along the entire length of the Bartlett Springs fault zone are consistent with shearing motions between the North American and Pacific lithospheric plates that produce displacements along the San Andreas transform fault.