8.7: Chapter Summary

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8.1 Regional Extent and Overview of the Basin and Range

The Basin and Range of California is part of a much larger physiographic province that extends to Utah and south to Mexico.
The region is known for its linear fault bounded ranges and basins.
This arid region lies in the rain-shadow of the Sierra Nevada mountains to the west.
The Basin and Range Province is a large continental rift zone.

8.2 Rifting in the Basin and Range

Continental rifting can be caused by heat buildup beneath the continent or by changes in plate boundary configurations.
The onset of rifting in the Basin and Range Province was approximately 17 Ma.
Extension associated with the Basin and Range Province doubled the width of the crust!
Development of this continental rift zone is associated with plate boundary changes to the west.
Continental rifts are associated with distinctive patterns of sedimentation, faulting and volcanism.

8.3 Rift-Related Faulting in Eastern California

Normal fault structures found in this region are horst-graben or half-grabens.
Brittle normal faults are steeply dipping.
Ongoing seismic activity associated with the Walker Lane is responsible for earthquakes as large as M_w 7.1 that are felt throughout southern California.
Pull-apart basins form in some areas, produced by a combination of strike-slip and normal faulting.
Metamorphic core complexes exposed in footwall rocks record evidence of earlier crustal extension.

8.4 Sedimentary Products of Rifting in the Basin and Range

Erosion of uplifted fault blocks forms large alluvial fans along range fronts.
Finer sediments fill the centers of rift basins.
Sediment thicknesses can be quite large in the basins.
Shallow seasonal lakes occupy the centers of many rift basins.
The modern system of basin lakes are dry lakes that were once much larger, but have been reduced due to climate change and diversion by the City of Los Angeles.
Tufa towers and strand lines record the maximum heights of ancient basin lakes.
Desiccation of the Owens Lake in the southern Owens Valley is a major source of air pollution in the region.

8.5 Rift-Related Volcanism in Eastern California

Crustal thinning leads to decompression melting of mantle rocks.
Volcanic activity produced by decompression melting produces a range of volcanic products (domes, cinder cones, lava flows and pyroclastic flows) and compositions.
Volcanism in the Basin and Range Province is young, generally co-eval with faulting.
The Bishop Tuff was produced by a large pyroclastic eruption of the Long Valley Caldera less than 1 m.y. ago.
The Long Valley Caldera is part of a chain of young (<1 m.y.) volcanic features that extends to Mono lake
Continued volcanic activity in the Basin and Range Province presents a risk of seismic activity, volcanic flows, pyroclastic eruptions and gas emissions.
Geothermal activity associated with current volcanic heating is an important source of energy.

8.6 The Oldest Rocks in the Basin and Range

The oldest rocks in the Basin and Range Province are exposed in ranges bounded by normal faults.
The oldest rocks date back to 1.7 billion years ago, and record the rifting of Rodinia, as well as evidence for the “snowball earth”.
Most of the Paleozoic rocks in the region are associated with the development of a passive margin following rifting.
The Snowball Earth refers to global glaciation during the Neoproterozoic era.
Evidence for rifting and glaciation are found in the oldest sedimentary rocks of this region.

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