Regional Geology of Mount Diablo, California: Its Tectonic Evolution on the North America Plate Boundary
CONTAINS OPEN ACCESS
Mount Diablo and the geology of the Central California Coast Ranges are the subject of a volume celebrating the Northern California Geological Society’s 75th anniversary. The breadth of research illustrates the complex Mesozoic to Cenozoic tectonic evolution of the plate boundary. Recent faulting and folding along the eastern edge of the San Andreas system have exposed in the mountain a core of Franciscan accretionary wedge complex faulted against Cretaceous and Cenozoic forearc strata. The Memoir includes papers on structure, stratigraphy, tephrochronology, zircon provenance studies, apatite fission track analyses, and foraminifera and calcareous plankton assemblages tied to Cenozoic climate events. Chapters also address the history of geologic work in the area and the resource development of oil and gas, mercury, coal, and sand, and road aggregate.
History of geological investigations of Mount Diablo, Contra Costa County, California
-
Published:September 27, 2021
-
CiteCitation
Gregory W. Bartow, 2021. "History of geological investigations of Mount Diablo, Contra Costa County, California", Regional Geology of Mount Diablo, California: Its Tectonic Evolution on the North America Plate Boundary, Raymond Sullivan, Doris Sloan, Jeffrey R. Unruh, David P. Schwartz
Download citation file:
- Share
ABSTRACT
Over the past 150 years, Mount Diablo has served as a window into the evolving understanding of California geology. In the 1800s, geologists mapped this easily accessible peak located less than 100 km (62 miles) from the rapidly growing city of San Francisco and the geology departments at the University of California at Berkeley and Stanford University. Later, the mountain served as a focal point for investigating San Francisco Bay area tectonics. The structural interpretation of the up-thrusting mechanisms has evolved from a simple compressional system involving a few local faults to a more complex multifault and multiphase mountain-building theory. The stratigraphic interpretation and understanding have been advanced from a general description of the lithologies and fossils to a detailed description using sequence stratigraphy to define paleogeographic settings and depositional regimes.
- associations
- California
- Cenozoic
- Coast Ranges
- compression tectonics
- Contra Costa County California
- depositional environment
- Eocene
- faults
- field trips
- historical documents
- mapping
- Neogene
- Oligocene
- Paleogene
- paleogeography
- Pliocene
- sequence stratigraphy
- stratigraphic units
- structural analysis
- tectonics
- Tertiary
- United States
- Sidney Flat Shale
- Mount Diablo
- Kirker Formation
- Lawlor Tuff
- Northern California Geological Society
- Markley Formation
- Nortonville Shale