Download Free Deformation Of The Roberts Mountains Allochthon In North Central Nevada Book in PDF and EPUB Free Download. You can read online Deformation Of The Roberts Mountains Allochthon In North Central Nevada and write the review.

Abstract: Throughout the Roberts Mountains in north-central Nevada, southern Eureka County, large carbonate masses form topographic highs above structurally thick packages of siliciclastic strata of the Roberts Mountains allochthon. During the Late Devonian-Early Mississippian Antler orogeny, the Roberts Mountains thrust emplaced the Roberts Mountains allochthon upon an equally thick coeval carbonate succession. A recently discovered post Antler-thrust fault, the Henderson thrust, duplicated the Roberts Mountains allochthon and in doing so plucked large carbonate masses from the carbonate succession underlying the Roberts Mountains thrust and emplaced them to the east above a great thickness of the Roberts Mountains allochthon. The carbonate masses are referred to as tectonic erratics. Such a large carbonate mass may occur at Mineral Hill 40-kilometers northeast of the Roberts Mountains. A brecciated thrust fault extends the entire 6-kilometer length of Mineral Hill on the east margin. In southern Mineral Hill, carbonates are underlain by siliciclastic strata of the Roberts Mountains allochthon along the thrust fault. The carbonate beds dip at a high angle into the shallow dipping thrust fault. The siliciclastic strata immediately east of Mineral Hill are highly deformed
Abstract: In the Roberts Mountains of north-central Nevada, several large masses of the autochthonous carbonate succession overlie the highly deformed siliciclastic succession of the Roberts Mountains allochthon (RMA). These carbonate masses, or tectonic erratics, were plucked from the underlying autochthon and carried in the base of the upper plate of the post-Antler Orogeny Henderson thrust as it ramped structurally upwards and eastwards. Kinematic indicators in the form of folds and fractures within the carbonate masses at Henderson Summit, Vinini Creek, Mineral Hill, and Lone Mountain show a general eastward stress direction. Intense brecciation is observed in the lower parts of the carbonate masses and in the immediately underlying siliciclastic strata of the RMA. Based on observations and kinematic evidence, the carbonate masses at Henderson Summit, Vinini Creek, Mineral Hill, and Lone Mountain are interpreted to be tectonic erratics, which in turn further supports and extends the tectonic erratic hypothesis.