Geologic Mapping of the Lower Colorado River System
Colorado River Delta, Lake Havasu
Varnished River Gravel
Sediment in the Colorado River
The Bouse Formation
Chemehuevi Valley, CA
This is a comprehensive scientific investigation of the geologic history and framework of the lower Colorado River. We are using geologic mapping in combination with stratigraphic, geochronologic, and geophysical studies to develop a holistic understanding of the river’s origin, the structural history of the landscape through which it flows, and the stratigraphic and geomorphic consequences of the river’s changes in response to long and short-term changes in regional tectonics and climate.
Science Issue and Relevance:
The lower Colorado River study area includes one of the world’s most iconic landscapes (Grand Canyon) and embodies a water resource that is essential to the water and electric power requirements of more than 40 Million people in the southwestern United States.
- There is wide-reaching cultural relevance in simply explaining the Grand Canyon, and we can’t begin to do that without understanding how the lower river corridor evolved.
- Regional crustal extension and associated sedimentary deposits created the characteristics of modern-day aquifers
- Detailed geologic mapping investigations build knowledge and provide deep insights into geologic processes and related natural hazards endemic to the lower Colorado River.
- Maps of the lower Colorado River will be integrated into National geologic map datasets.
Methodology to Address Issue:
Geologic mapping is the foundational method employed in this project. Mapping is a means of documenting, synthesizing and portraying scientific observations and interpretations of geologic deposits that record important episodes and timing of geologic activity. Our project is based primarily on surficial geologic mapping and regional-scale geologic maps but, will also conduct bedrock mapping and related structural studies. Our workflow involves characterizing and portraying a complex stratigraphic record at intermediate scale (e.g., 1:100,000). This process includes new geologic mapping in addition to compilation and refinement of existing maps, using a common stratigraphic nomenclature. These efforts are rely on modern GIS technology.
Geochronologic studies will focus on the ages of key Colorado River strata and underlying bedrock units and geologic structures that have influenced the river’s evolution. Structural and stratigraphic analysis of the geologic framework of the basins that hold voluminous water resources will be critically important in coming years and decades.
Below are other science projects associated with this project.
Luminescence Dating Laboratory
Argon Geochronology Laboratory
Denver Radiogenic Isotope Lab
Below are publications associated with this project.
Extension directions in the Colorado River extensional corridor compared to fragmentation of a structurally disrupted caldera in the Sacramento Mountains, southeastern California
Post-12 Ma deformation of the lower Colorado River corridor, southwestern USA: Implications for diffuse transtension and the Bouse Formation
The Bouse Formation: A controversial Neogene archive of the evolving Colorado River: A scientific drilling workshop report (Feb. 28-March 3, 2019-Bluewater Resort, Parker, Arizona, USA
Insights into post-Miocene uplift of the western margin of the Colorado Plateau from the stratigraphic record of the lower Colorado River
A river is born: Highlights of the geologic evolution of the Colorado River extensional corridor and its river: A field guide honoring the life and legacy of Warren Hamilton
Mesozoic to Cenozoic sedimentation, tectonics, and metallogeny of Sonora, Mexico
One hundred and sixty years of Grand Canyon geological mapping
Birth and evolution of the Virgin River fluvial system: ∼1 km of post–5 Ma uplift of the western Colorado Plateau
The Colorado River and its deposits downstream from Grand Canyon in Arizona, California, and Nevada
Below are partners associated with this project.
This is a comprehensive scientific investigation of the geologic history and framework of the lower Colorado River. We are using geologic mapping in combination with stratigraphic, geochronologic, and geophysical studies to develop a holistic understanding of the river’s origin, the structural history of the landscape through which it flows, and the stratigraphic and geomorphic consequences of the river’s changes in response to long and short-term changes in regional tectonics and climate.
Science Issue and Relevance:
The lower Colorado River study area includes one of the world’s most iconic landscapes (Grand Canyon) and embodies a water resource that is essential to the water and electric power requirements of more than 40 Million people in the southwestern United States.
- There is wide-reaching cultural relevance in simply explaining the Grand Canyon, and we can’t begin to do that without understanding how the lower river corridor evolved.
- Regional crustal extension and associated sedimentary deposits created the characteristics of modern-day aquifers
- Detailed geologic mapping investigations build knowledge and provide deep insights into geologic processes and related natural hazards endemic to the lower Colorado River.
- Maps of the lower Colorado River will be integrated into National geologic map datasets.
Methodology to Address Issue:
Geologic mapping is the foundational method employed in this project. Mapping is a means of documenting, synthesizing and portraying scientific observations and interpretations of geologic deposits that record important episodes and timing of geologic activity. Our project is based primarily on surficial geologic mapping and regional-scale geologic maps but, will also conduct bedrock mapping and related structural studies. Our workflow involves characterizing and portraying a complex stratigraphic record at intermediate scale (e.g., 1:100,000). This process includes new geologic mapping in addition to compilation and refinement of existing maps, using a common stratigraphic nomenclature. These efforts are rely on modern GIS technology.
Geochronologic studies will focus on the ages of key Colorado River strata and underlying bedrock units and geologic structures that have influenced the river’s evolution. Structural and stratigraphic analysis of the geologic framework of the basins that hold voluminous water resources will be critically important in coming years and decades.
Below are other science projects associated with this project.
Luminescence Dating Laboratory
Argon Geochronology Laboratory
Denver Radiogenic Isotope Lab
Below are publications associated with this project.
Extension directions in the Colorado River extensional corridor compared to fragmentation of a structurally disrupted caldera in the Sacramento Mountains, southeastern California
Post-12 Ma deformation of the lower Colorado River corridor, southwestern USA: Implications for diffuse transtension and the Bouse Formation
The Bouse Formation: A controversial Neogene archive of the evolving Colorado River: A scientific drilling workshop report (Feb. 28-March 3, 2019-Bluewater Resort, Parker, Arizona, USA
Insights into post-Miocene uplift of the western margin of the Colorado Plateau from the stratigraphic record of the lower Colorado River
A river is born: Highlights of the geologic evolution of the Colorado River extensional corridor and its river: A field guide honoring the life and legacy of Warren Hamilton
Mesozoic to Cenozoic sedimentation, tectonics, and metallogeny of Sonora, Mexico
One hundred and sixty years of Grand Canyon geological mapping
Birth and evolution of the Virgin River fluvial system: ∼1 km of post–5 Ma uplift of the western Colorado Plateau
The Colorado River and its deposits downstream from Grand Canyon in Arizona, California, and Nevada
Below are partners associated with this project.