From Saline to Freshwater: The Diversity of Western Lakes in Space and Time
Beginning with the nineteenth-century territorial surveys, the lakes and lacustrine deposits in what is now the western United States were recognized for their economic value to the expanding nation. In the latter half of the twentieth century, these systems have been acknowledged as outstanding examples of depositional systems serving as models for energy exploration and environmental analysis, many with global applications in the twenty-first century. The localities presented in this volume extend from exposures of the Eocene Green River Formation in Utah and Florissant Formation in Colorado, through the Pleistocene and Holocene lakes of the Great Basin to lakes along the California and Oregon coast. The chapters explore environmental variability, sedimentary processes, fire history, the impact of lakes on crustal flexure, and abrupt climate events in arid regions, often through the application of new tools and proxies.
Influence of pluvial lake cycles on earthquake recurrence in the northwestern Basin and Range, USA
*Current address: Science Department, Big Bend Community College, 7662 Chanute Street NE, Moses Lake, Washington 98837-3293, USA.
†Current address: Leidos, 11025 Trade Center Drive, Suite 100, Rancho Cordova, California 95670, USA.
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Published:August 12, 2021
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CiteCitation
Anne E. Egger, Daniel E. Ibarra, Ray Weldon, Robert M. Langridge, Brian Marion*, Jennifer Hall†, 2021. "Influence of pluvial lake cycles on earthquake recurrence in the northwestern Basin and Range, USA", From Saline to Freshwater: The Diversity of Western Lakes in Space and Time, Scott W. Starratt, Michael R. Rosen
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ABSTRACT
The Basin and Range hosted large pluvial lakes during the Pleistocene, which generally reached highstands following the Last Glacial Maximum and then regressed rapidly to near-modern levels. These lakes were large and deep enough to profoundly affect the crust through flexure; they filled basins formed by faults, and they locally modified pore pressure and groundwater conditions. A compilation of geochronologic constraints on paleoshorelines and paleoseismicity suggests temporal correlations between lake level and earthquake recurrence, with changes in earthquake rates as lakes regressed. In the northwestern Basin and Range, climatic and tectonic conditions differ from the rest of the province: The modern and glacial climate is/was cooler and wetter, glacial lakes were proportionally larger, and the crustal strain rate is lower. Numerous valleys host late Pleistocene and Holocene fault scarps and evidence of >Mw 7 earthquakes in the last 15,000 yr. We compiled detailed lake hydrographs, timing of earthquakes and slip on faults, and other climatic and crustal data from Surprise Valley, Summer Lake, and the Fort Rock basin, along with additional data from other basins in the northwestern Basin and Range. We also present new mapping and topographic analysis of fault scarps that provides relative age constraints on the timing of slip events. Our results confirm temporal correlations, but the limited length of the paleoseismic record prevents definitive causation on the scale of the individual fault or lake basin. Taken together, however, data from all basins suggest that the faults in the northwestern Basin and Range could be acting as a system, with pluvial lake cycles affecting elastic strain accumulation and release across the region.
- Basin and Range Province
- basins
- Cenozoic
- cycles
- deglaciation
- earthquakes
- elastic strain
- fault scarps
- faults
- glacial features
- glacial lakes
- Holocene
- lake-level changes
- lakes
- last glacial maximum
- mapping
- normal faults
- North America
- paleoclimatology
- paleoseismicity
- Pleistocene
- Quaternary
- relative age
- shorelines
- slip rates
- temporal distribution
- topography
- United States
- Lake Surprise
- Lake Chewaucan
- Summer Lake
- Fort Rock Lake
- pluvial lakes