Evidence for a Single Holocene Paleoseismic Event on the Pajarito Fault, Northern New Mexico

Brandon M. Crawford; Erika M. Swanson; Emily S. Schultz-Fellenz; Robert Givler; John Baldwin; William Lettis; Shari Kelley; Daniel Koning; Susan Olig; Thomas Rockwell; Brent M. Goehring; Ross Hartleb; Christopher Bloszies; Brian Gray

doi:10.21663/EEG-D-24-00051

Evidence for a Single Holocene Paleoseismic Event on the Pajarito Fault, Northern New Mexico

Brandon M. Crawford, Erika M. Swanson, Emily S. Schultz-Fellenz, Robert Givler, John Baldwin, William Lettis, Shari Kelley, Daniel Koning, Susan Olig, Thomas Rockwell, Brent M. Goehring, Ross Hartleb, Christopher Bloszies, Brian Gray

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Abstract

Low-slip rate fault systems tend to be less studied than their high-slip rate counterparts, and paleoseismic techniques used to study them may pose challenges in interpretation that differ from high-slip rate systems. A good example of this is the Pajarito fault system (PFS), a normal fault complex within the Rio Grande rift. Despite numerous previous paleoseismic trenching studies conducted on the PFS between 1990 and 2003, considerable uncertainty remains regarding its Holocene paleoseismic history, particularly for the primary Pajarito fault (PF). To further clarify the PF paleoseismic history, we present data from paleoseismic investigations of 6 trenches at 3 distinct locations along the PF. Though the totality of the age and structural data obtained in this study is complex and not entirely consistent with any one interpretation, a single Holocene paleoearthquake occurring younger than ∼1,600 to 2,300 kcal yr BP is the simplest interpretation. It is possible that the PF records two Holocene events, with a penultimate event 6.9–2.4 kcal yr BP event and the aforementioned most recent event (MRE) between 2.3 and 1.6 kcal yr BP. However, only a single wall of one trench, out of a total of 12 walls in our 6 trenches, provides evidence supporting that interpretation. This study finds evidence of a single late Holocene paleoseismic event on the PF and sparse evidence for 2 Holocene paleoseismic events on the PF and highlights the benefits of logging multiple trench walls to better understand the complexity that results from this low-slip rate, low-deposition-rate fault system.

Original language	English
Pages (from-to)	19-35
Number of pages	17
Journal	Environmental and Engineering Geoscience
Volume	31
Issue number	1
DOIs	https://doi.org/10.21663/EEG-D-24-00051
State	Published - Feb 2025

Funding

This research was funded by the Offices of Nuclear Safety within Facilities and Operations at Los Alamos National Laboratory. We give many thanks to those that contributed to this study including Michael Machette (Paleo Seis Surveys LLC, retired), Lewis Owens (North Carolina State University), and Eric McDonald (Desert Research Institute). We would like to thank all the field, office, and support crews at both LCI and LANL who made this work possible. We would also like to thank the U.S. Forest Service and the U.S. Department of Energy for access to land, experts, and support for these efforts. Last, but not least, we would like to thank the three anonymous reviewers of this manuscript, their contributions served to greatly strengthen this paper. This is Los Alamos National Laboratory publication LA-UR-23-28468.

Keywords

Active Tectonics
Low-Slip-Rate
Northern New Mexico
Pajarito Fault System
Paleoseismology
Rio Grande Rift

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10.21663/EEG-D-24-00051

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Crawford, B. M., Swanson, E. M., Schultz-Fellenz, E. S., Givler, R., Baldwin, J., Lettis, W., Kelley, S., Koning, D., Olig, S., Rockwell, T., Goehring, B. M., Hartleb, R., Bloszies, C., & Gray, B. (2025). Evidence for a Single Holocene Paleoseismic Event on the Pajarito Fault, Northern New Mexico. Environmental and Engineering Geoscience, 31(1), 19-35. https://doi.org/10.21663/EEG-D-24-00051

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abstract = "Low-slip rate fault systems tend to be less studied than their high-slip rate counterparts, and paleoseismic techniques used to study them may pose challenges in interpretation that differ from high-slip rate systems. A good example of this is the Pajarito fault system (PFS), a normal fault complex within the Rio Grande rift. Despite numerous previous paleoseismic trenching studies conducted on the PFS between 1990 and 2003, considerable uncertainty remains regarding its Holocene paleoseismic history, particularly for the primary Pajarito fault (PF). To further clarify the PF paleoseismic history, we present data from paleoseismic investigations of 6 trenches at 3 distinct locations along the PF. Though the totality of the age and structural data obtained in this study is complex and not entirely consistent with any one interpretation, a single Holocene paleoearthquake occurring younger than ∼1,600 to 2,300 kcal yr BP is the simplest interpretation. It is possible that the PF records two Holocene events, with a penultimate event 6.9–2.4 kcal yr BP event and the aforementioned most recent event (MRE) between 2.3 and 1.6 kcal yr BP. However, only a single wall of one trench, out of a total of 12 walls in our 6 trenches, provides evidence supporting that interpretation. This study finds evidence of a single late Holocene paleoseismic event on the PF and sparse evidence for 2 Holocene paleoseismic events on the PF and highlights the benefits of logging multiple trench walls to better understand the complexity that results from this low-slip rate, low-deposition-rate fault system.",

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Crawford, BM, Swanson, EM, Schultz-Fellenz, ES, Givler, R, Baldwin, J, Lettis, W, Kelley, S, Koning, D, Olig, S, Rockwell, T, Goehring, BM, Hartleb, R, Bloszies, C & Gray, B 2025, 'Evidence for a Single Holocene Paleoseismic Event on the Pajarito Fault, Northern New Mexico', Environmental and Engineering Geoscience, vol. 31, no. 1, pp. 19-35. https://doi.org/10.21663/EEG-D-24-00051

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AU - Crawford, Brandon M.

AU - Swanson, Erika M.

AU - Schultz-Fellenz, Emily S.

AU - Givler, Robert

AU - Baldwin, John

AU - Lettis, William

AU - Kelley, Shari

AU - Koning, Daniel

AU - Olig, Susan

AU - Rockwell, Thomas

AU - Goehring, Brent M.

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AU - Bloszies, Christopher

AU - Gray, Brian

PY - 2025/2

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AB - Low-slip rate fault systems tend to be less studied than their high-slip rate counterparts, and paleoseismic techniques used to study them may pose challenges in interpretation that differ from high-slip rate systems. A good example of this is the Pajarito fault system (PFS), a normal fault complex within the Rio Grande rift. Despite numerous previous paleoseismic trenching studies conducted on the PFS between 1990 and 2003, considerable uncertainty remains regarding its Holocene paleoseismic history, particularly for the primary Pajarito fault (PF). To further clarify the PF paleoseismic history, we present data from paleoseismic investigations of 6 trenches at 3 distinct locations along the PF. Though the totality of the age and structural data obtained in this study is complex and not entirely consistent with any one interpretation, a single Holocene paleoearthquake occurring younger than ∼1,600 to 2,300 kcal yr BP is the simplest interpretation. It is possible that the PF records two Holocene events, with a penultimate event 6.9–2.4 kcal yr BP event and the aforementioned most recent event (MRE) between 2.3 and 1.6 kcal yr BP. However, only a single wall of one trench, out of a total of 12 walls in our 6 trenches, provides evidence supporting that interpretation. This study finds evidence of a single late Holocene paleoseismic event on the PF and sparse evidence for 2 Holocene paleoseismic events on the PF and highlights the benefits of logging multiple trench walls to better understand the complexity that results from this low-slip rate, low-deposition-rate fault system.

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Evidence for a Single Holocene Paleoseismic Event on the Pajarito Fault, Northern New Mexico

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