Neotectonics and geomorphic evolution of the northwestern arm of the Yellowstone tectonic parabola; controls on intra-cratonic extensional regimes, southwest Montana
Neotectonics and geomorphic evolution of the northwestern arm of the Yellowstone tectonic parabola; controls on intra-cratonic extensional regimes, southwest Montana (in Exploring the Northern Rocky Mountains, Colin A. Shaw (editor))
Field Guide (Geological Society of America) (May 2014) 37: 65-87
- Cenozoic
- earthquakes
- extension tectonics
- faults
- field trips
- Gallatin County Montana
- geologic hazards
- geomorphology
- guidebook
- Hebgen Lake
- Hebgen Lake earthquake 1959
- landform evolution
- Madison Range
- magnitude
- Montana
- natural hazards
- neotectonics
- Quaternary
- road log
- rupture
- seismotectonics
- tectonics
- United States
- southwestern Montana
- Red Canyon
- Madison Valley
- Yellowstone tectonic parabola
The catastrophic Hebgen Lake earthquake of 18 August 1959 (M (sub W) 7.3) led many geoscientists to develop new methods to better understand active tectonics in extensional tectonic regimes that address seismic hazards. The Madison Range fault system and adjacent Hebgen Lake-Red Canyon fault system provide an intermountain-active tectonic analog for regional analyses of extensional crustal deformation. The Madison Range fault system comprises fault zones (approximately 100 km in length) that have multiple salients and embayments marked by preexisting structures exposed in the footwall. Quaternary tectonic activity rates differ along the length of the fault system, with less displacement to the north. Within the Hebgen Lake basin, the 1959 earthquake is the latest slip event in the Hebgen Lake-Red Canyon fault system and southern Madison Range fault system. Geomorphic and paleoseismic investigations indicate previous faulting events on both fault systems. Surficial geologic mapping and historic seismicity support a coseismic structural linkage between the Madison Range and Hebgen Lake-Red Canyon fault systems. On this trip, we will look at Quaternary surface ruptures that characterize prehistoric earthquake magnitudes. The one-day field trip begins and ends in Bozeman, and includes an overview of the active tectonics within the Madison Valley and Hebgen Lake basin, southwestern Montana. We will also review geologic evidence, which includes new geologic maps and geomorphic analyses that demonstrate preexisting structural controls on surface rupture patterns along the Madison Range and Hebgen Lake-Red Canyon fault systems.