Geology of the Yucca Mountain region
Geology of the Yucca Mountain region (in The geology and climatology of Yucca Mountain and vicinity southern Nevada and California, John S. Stuckless (editor) and Robert A. Levich (editor))
Memoir - Geological Society of America (2007) 199: 9-52
- alluvium
- ash-flow tuff
- basin analysis
- Basin and Range Province
- Cenozoic
- clastic sediments
- compression tectonics
- deformation
- depositional environment
- environmental analysis
- extension tectonics
- faults
- folds
- geology
- igneous rocks
- Nevada
- North America
- Nye County Nevada
- outcrops
- Phanerozoic
- pyroclastics
- radioactive waste
- sediments
- soils
- stratigraphic units
- structural geology
- tectonics
- thrust sheets
- underground installations
- underground storage
- United States
- volcanic rocks
- Walker Lane
- waste disposal
- Yucca Mountain
Yucca Mountain has been proposed as the site for the nation's first geologic repository for high-level radioactive waste. This chapter provides the geologic framework for the Yucca Mountain region. The regional geologic units range in age from late Precambrian through Holocene, and these are described briefly. Yucca Mountain is composed dominantly of pyroclastic units that range in age from 11.4 to 15.2 Ma. The proposed repository would be constructed within the Topopah Spring Tuff, which is the lower of two major zoned and welded ash-flow tuffs within the Paintbrush Group. The two welded tuffs are separated by the partly to nonwelded Pah Canyon Tuff and Yucca Mountain Tuff, which together figure prominently in the hydrology of the unsaturated zone. The Quaternary deposits are primarily alluvial sediments with minor basaltic cinder cones and flows. Both have been studied extensively because of their importance in predicting the long-term performance of the proposed repository. Basaltic volcanism began ca. 10 Ma and continued as recently as ca. 80 ka with the eruption of cones and flows at Lathrop Wells, approximately 10 km south-southwest of Yucca Mountain. Geologic structure in the Yucca Mountain region is complex. During the latest Paleozoic and Mesozoic, strong compressional forces caused tight folding and thrust faulting. The present regional setting is one of extension, and normal faulting has been active from the Miocene through to the present. There are three major local tectonic domains: (1) Basin and Range, (2) Walker Lane, and (3) Inyo-Mono. Each domain has an effect on the stability of Yucca Mountain.