The Lick Observatory 7.5-minute quadrangle exposes evidence of geologic eve
nts that range from subduction of Mesozoic Franciscan Complex, through accu
mulation of marine Miocene porcellanite and clastics, to the development of
the San Andreas fault system and deformation within it. The active Calaver
as fault zone, with its linear valleys and subparallel strike-slip strands,
transects the quadrangle and, northwest of San Filipe Valley, joins and in
corporates the older Madrone Springs fault. The topography has formed in th
e past 1 to 2 million years and rises northeastward from the East Evergreen
range-front thrust, across the Calaveras and several inferred mountain-bui
lding faults, to the 1280 m crest of Mt. Hamilton.
The stratigraphy includes coherent, variously schistose metagraywacke of th
e late Mesozoic Franciscan Complex; discordant zones of melange of sheared
shale and blocks that include blueschist and eclogite; serpentine that may
represent the Coast Range Ophiolite; relatively undeformed sandstone, shale
, and conglomerate of the late Mesozoic Great Valley sequence; marine Mioce
ne Claremont Porcellanite, mudstone, and Briones Sandstone; and deformed no
nmarine gravels of the Pleistocene and Pliocene Santa Clara Formation.
The Franciscan sandstones are complexly deformed and discordantly transecte
d by tectonically emplaced melange zones; a local chert mass marks the remn
ant of a discordantly overlying thrust sheet. Southwest of the Calaveras zo
ne, folded Miocene rocks are faulted over the more strongly deformed Great
Valley sequence. Those rocks, in turn, are thrust over small windows of Fra
nciscan rock, and the entire mountain mass is thrust over Santa Clara grave
ls at the foot of the range. These latter structures postdate the 3.5 Ma im
position of compression across the plate margin suggested by plate tectonic
reconstructions.