Late Cretaceous to Paleogene contractional deformation in the southern U.S. Cordillera is commonly attributed to the Laramide Orogeny, in part because of the prevalence of moderate- to high-angle, basement-involved reverse faults. However, it is unclear if the tectonic models developed for the archetypal Laramide foreland belt in the U.S. Rocky Mountain region are applicable to the southern U.S. Cordillera. New geologic mapping of the northern Chiricahua Mountains in southeast Arizona, USA, indicates the presence of an originally sub-horizontal thrust fault, the Fort Bowie fault, and a thin-skinned ramp-flat thrust system that is offset by a younger thrust fault, the Apache Pass fault, that carries basement rocks. Cross-cutting relationships and new geochronologic data indicate deformation on both faults occurred between 60 Ma and 35 Ma. A biotite 40Ar/39Ar plateau age of 48 Ma from the hanging wall of the basement-involved Apache Pass fault is interpreted to record erosion related to reverse fault movement and rock uplift. The presence of thrust faults in southeast Arizona raises the possibility of a latest Cretaceous−Eocene retroarc orogenic wedge that linked the Sevier and Mexican thrust belts to the north and south, respectively. Basement-involved deformation does not rule out the presence of a retroarc wedge, and many Cordilleran orogenic systems include basement-involved thrusting.
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Research Article|
November 13, 2024
Early Publication
Evidence for a Late Cretaceous to Paleogene basement-involved retroarc wedge in the southern U.S. Cordillera: A case study from the northern Chiricahua Mountains, Arizona
James B. Chapman;
James B. Chapman
1
Department of Earth, Environmental and Resource Sciences, University of Texas at El Paso, El Paso, Texas 79902, USA
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Christopher Clinkscales;
Christopher Clinkscales
2
Department of Geosciences, University of Arizona, Tucson, Arizona 85721, USA
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Adam Trzinski;
Adam Trzinski
3
Department of Geology and Geophysics, University of Wyoming, Laramie, Wyoming 82071, USA4
Idaho Geological Survey, University of Idaho, Moscow, Idaho 83844, USA
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Michael Daniel
Michael Daniel
5
Department of Earth and Atmospheric Sciences, University of Houston, Houston, Texas 77204, USA
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James B. Chapman
1
Department of Earth, Environmental and Resource Sciences, University of Texas at El Paso, El Paso, Texas 79902, USA
Christopher Clinkscales
2
Department of Geosciences, University of Arizona, Tucson, Arizona 85721, USA
Adam Trzinski
3
Department of Geology and Geophysics, University of Wyoming, Laramie, Wyoming 82071, USA4
Idaho Geological Survey, University of Idaho, Moscow, Idaho 83844, USA
Michael Daniel
5
Department of Earth and Atmospheric Sciences, University of Houston, Houston, Texas 77204, USA
Publisher: Geological Society of America
Received:
01 Jul 2024
Revision Received:
24 Sep 2024
Accepted:
23 Oct 2024
First Online:
13 Nov 2024
Online ISSN: 1943-2674
Print ISSN: 0016-7606
© 2024 Geological Society of America
GSA Bulletin (2024)
Article history
Received:
01 Jul 2024
Revision Received:
24 Sep 2024
Accepted:
23 Oct 2024
First Online:
13 Nov 2024
Citation
James B. Chapman, Christopher Clinkscales, Adam Trzinski, Michael Daniel; Evidence for a Late Cretaceous to Paleogene basement-involved retroarc wedge in the southern U.S. Cordillera: A case study from the northern Chiricahua Mountains, Arizona. GSA Bulletin 2024; doi: https://doi.org/10.1130/B37877.1
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Index Terms/Descriptors
- Arizona
- basement
- basins
- Cenozoic
- Cretaceous
- deformation
- faults
- fold and thrust belts
- foreland basins
- Laramide Orogeny
- Mesozoic
- North America
- North American Cordillera
- orogenic belts
- Paleogene
- reverse faults
- Rocky Mountains
- tectonics
- Tertiary
- thrust faults
- United States
- Upper Cretaceous
- Chiricahua Mountains
- Apache Pass Fault
- Fort Bowie Fault
Latitude & Longitude
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