Late Cenozoic Structure and Evolution of the Great Basin-Sierra Nevada Transition
Late Miocene to Pliocene synextensional deposition in fault-bounded basins within the upper plate of the western Silver Peak–Lone Mountain extensional complex, west-central Nevada
-
Published:April 01, 2009
-
CiteCitation
John S Oldow, Elizabeth A Elias, Luigi Ferranti, William C McClelland, William C McIntosh, 2009. "Late Miocene to Pliocene synextensional deposition in fault-bounded basins within the upper plate of the western Silver Peak–Lone Mountain extensional complex, west-central Nevada", Late Cenozoic Structure and Evolution of the Great Basin-Sierra Nevada Transition, John S. Oldow, Patricia H. Cashman
Download citation file:
- Share
The late Miocene to Pliocene Silver Peak–Lone Mountain extensional complex in the western Great Basin is part of a structural stepover that links dextral transcurrent motion between the Furnace Creek fault system and northwest-striking transcurrent faults in the central Walker Lane. In the Silver Peak Range, the extensional complex is exposed as a west-northwest–trending turtleback structure that consists of a folded detachment fault separating a metamorphic lower-plate assemblage from unmetamorphosed upper-plate rocks. The upper plate preserves structurally attenuated lower Paleozoic carbonate and clastic rocks, upper Oligocene to lower Miocene volcanic rocks, and a synextensional mid-Miocene to Pliocene clastic and volcanic succession. The three-dimensional geometry of fault-bounded extensional basins formed during displacement on the detachment is preserved, and the synextensional units comprise five sequences separated by unconformities. The locus of deposition migrated spatially as dimensions of small basins changed through time. The entire extensional complex is deformed in two generations of late Cenozoic folds. North-northeast–trending folds formed first with axial traces oriented at a high-angle to upper-plate extension, and these are preferentially developed in proximity to thrusts and partially inverted extensional faults. Younger, west-northwest–trending folds parallel the axis of the turtleback structure and involve all lithologic units, several syndepositional high-angle faults, and the basal detachment. Pliocene growth of west-northwest–trending folds marked the end of slip on the exposed parts of the basal décollement and the cessation of deposition in the fault-bounded basins. Today, upper and lower plates of the extensional complex are dissected by north- to northeast-striking normal faults that cut alluvium and cross-cut and locally reactivate earlier Cenozoic structures.
- absolute age
- Ar/Ar
- basins
- Cenozoic
- dates
- detachment faults
- Esmeralda County Nevada
- exhumation
- extension
- faults
- folds
- geometry
- K/Ar
- metamorphic rocks
- Miocene
- Neogene
- Nevada
- Pliocene
- polyphase processes
- sedimentary basins
- sedimentary rocks
- Silver Peak Mountains
- syntectonic processes
- Tertiary
- transcurrent faults
- United States
- upper Miocene
- Walker Lane
- Lone Mountain
- Fish Lake valley