Miocene Tectonics of the Lake Mead Region, Central Basin and Range
Erosion of tilted fault blocks and deposition of coarse sediments in half-graben basins during late stages of extension: Gold Butte area, Basin and Range Province
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Published:June 01, 2010
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CiteCitation
Keith A. Howard, L. Sue Beard, M.A. Kuntz, M.J. Kunk, A.M. Sarna-Wojcicki, M.E. Perkins, Ivo Lucchitta, 2010. "Erosion of tilted fault blocks and deposition of coarse sediments in half-graben basins during late stages of extension: Gold Butte area, Basin and Range Province", Miocene Tectonics of the Lake Mead Region, Central Basin and Range, Paul J. Umhoefer, L. Sue Beard, Melissa A. Lamb
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The provenance and stratigraphic architecture of basin-filling Miocene sediments around the Gold Butte area, southern Nevada, and adjacent highlands record the erosion of fault blocks that progressively tilted during extension. This study focuses especially on upper Miocene correlatives of the red sandstone unit and the Muddy Creek Formation that were deposited during waning stages of extension. Upper parts of the underlying middle Miocene Horse Spring Formation are also addressed. The large east-tilted South Virgin–White Hills block, including the Gold Butte block, was the primary source of coarse detritus into the adjacent half-graben basins on both sides. Voluminous, very coarse-grained sediments were shed eastward down the back slope of this tilt block into the Grand Wash Trough. This suggests that there were large middle and late Miocene catchments on that side of the block, possibly inherited from a gentler dip slope early in the tilting history. The block uplifted and tilted during slip on the west-dipping South Virgin–White Hills normal fault that bounds the west side of the block. Its exposed footwall shed coarse-grained debris to the west. While the fault was active, this debris included rock-avalanche megabreccias. Longitudinal transport of coarse-grained sediment also occurred along the axes of basins on both sides of the block.
In the late Miocene, fault death at ca. 10 Ma followed rotation of the South Virgin–White Hills fault, and the along-strike Quail Spring fault, from initial dips >55° to dips <30°. This cessation of faulting coincided with and likely caused an eastward shift in locus of faulting to the steeper Wheeler fault system. Coarse sediment shed from the South Virgin–White Hills tilt block gradually declined as deformation waned and limestone-rich sedimentation expanded onto the basin margins against the block. Where the rising sedimentary fills eventually bridged across the block and connected basins on either side, these bridge sites served to focus later integrated regional drainage—the Pliocene Colorado River.
Progressive Miocene tilting of the highland block would have broadened its structural footwall on the west and narrowed its east-dipping back slope. Migration of the drainage divide by erosion and piracy, influenced by changing tilt slopes, can explain the modern position of the divide in the Gold Butte block as one that separates drainage roughly equally down the two sides.
- Basin and Range Province
- basin range structure
- basins
- block structures
- carbonate rocks
- Cenozoic
- Clark County Nevada
- clastic rocks
- coarse-grained materials
- detrital sedimentation
- erosion
- extension
- extension tectonics
- faults
- half grabens
- Lake Mead
- limestone
- Miocene
- Neogene
- neotectonics
- Nevada
- North America
- provenance
- red beds
- sandstone
- sedimentary rocks
- sedimentation
- structural controls
- systems
- tectonics
- Tertiary
- tilt
- United States
- southern Nevada
- Horse Spring Formation
- White Hills
- Gold Butte
- South Virgin-White Hills Fault
- Quail Spring Fault