Paper No. 7
Presentation Time: 10:00 AM
SHRIMP U-PB DATING OF RECURRENT CRYOGENIAN AND LATE CAMBRIAN-EARLY ORDOVICIAN ALKALIC MAGMATISM IN CENTRAL IDAHO: IMPLICATIONS FOR RODINIAN RIFT TECTONICS
LUND, K., U.S. Geological Survey, MS 973, Denver Federal Center, Denver, CO 80225, ALEINIKOFF, J.N., USGS, MS 963, Denver, CO 80225, EVANS, K.V., U.S. Geol Survey, MS 905 Federal Center Box 25046, Denver, CO 80225, DU BRAY, E.A., U.S. Geological Survey-MS 973, Box 25046, DFC, Lakewood, CO 80225 and DEWITT, E.H., Central Mineral Resources Team, US Geological Survey, MS 973, Denver Federal Center, Lakewood, CO 80225, klund@usgs.gov
Seven composite alkalic plutonic suites and a tuffaceous diamictite, which are discontinuously exposed in roof pendants and inliers within the Idaho batholith and Challis volcanic-plutonic complex, define the 200 km-long northwest-aligned Big Creek-Beaverhead belt across central Idaho. SHRIMP U-Pb dating documents two discrete magmatic pulses that occurred at 665-650 Ma along the entire extent of the Big Creek-Beaverhead belt and at 500-485 Ma along the southeastern half of it. Together with the nearby parallel exposures of the 685-Ma Edwardsburg Formation volcanic rocks (lower Windermere Supergroup), the present study indicates recurrent extensional magmatic pulses that spanned 200 Ma. Additionally, recurrent Cryogenian-early Paleozoic uplift along the regionally coincident Lemhi arch is reflected in the stratigraphic record of same-age cratonal-platform and miogeoclinal basins to the northeast and southwest. Preserved miogeoclinal rocks originated on a narrow continental shelf, overlying a narrow, northwest-striking zone of thinned continental crust.
The Big Creek-Beaverhead belt is interpreted to have originated as a northeast-extending upper-plate extensional zone that formed an eastern Washington to southeastern Idaho segment of the Cryogenian-early Paleozoic Rodinian rift margin of western Laurentia. It was flanked on the north by the St. Mary-Moyie transform zone (south of a narrow southern Canadian upper-plate segment) and on the south by the Snake River transfer zone (north of a broad Great Basin lower-plate segment). These are central segments of a zigzag-shaped Cordilleran rift system of alternating northwest-striking extensional zones offset by northeast-striking transfers and transforms. In combination with similar-aged rift-related igneous rocks in the Canadian Cordillera, the recurrent igneous activity along the Big Creek-Beaverhead belt reflects polyphase rift and continental separation events, including (1) Cryogenian-Ediacaran pre- and syn-Windermere rifting, (2) Windermere margin subsidence, (3) late Ediacaran-Cambrian rifting, and (4) well-developed Cordilleran miogeocline passive-margin subsidence. Timing and geometries support synchronous but opposing divergence along Cordilleran and Atlantic rifts with a junction in southern California-Sonora.