Geology of the western part of the Date Creek Mountains, Yavapai County, Arizona

New quadrangle-scale geologic mapping of the western part of the Date Creek Mountains (DCM) in west-central Arizona has revealed new insights into the geologic units, structures, and geologic history. Three U-Pb dates also provide surprising new information about the age and spatial relationships of the DCM as well as implications for the tectonics of the area. Paleoproterozoic metamorphic rocks in the central part of the DCM are presumably correlative with the Yavapai schist exposed in other parts of the Arizona Transition Zone. A granite formerly assigned to the Paleoproterozoic was subdivided into megacrystic and fine-grained units and hosts a set of previously undescribed subvertical felsic dikes. A new U-Pb date of the fine-grained phase has shown that unit to be Jurassic. The Mesoproterozoic Granite of Joshua Tree Parkway (Bryant, 1995), which also has fine-grained and megacrystic phases, displays a subhorizontal interunit contact suggestive of vertical stacking of individual intrusions. The age of another granitic pluton previously thought to be Laramide has been revised to Jurassic with the new U-Pb dates. Multiple noncontinuous sections of Tertiary volcanic rocks cover parts of the western end of the range with a combined thickness of at least 500 m. Tertiary basin fill abuts the northern and western edges of the range and perched remnants of the fill in the mountains suggest a former thickness of at least 100 m more than today. Quaternary alluvium is present in the drainages and covers the slopes south of the mountains. In addition to the felsic dikes, mafic and pegmatite dikes are also present. Two major structures are exposed in the study area: a roughly north-trending graben at the western end of the range and a probable normal fault which cuts northwest-southeast across the DCM and displays a zone of brittle deformation up to a few hundred meters wide. The orientation of the normal fault mirrors that of other similar faults in the area and is considered to be the result of regional tectonics activity, while the graben may owe its existence to movement on an underlying low-angle detachment fault.