The magmatic origin of the Columbia River Gorge, USA

Nathaniel Klema; Leif Karlstrom; Charles Cannon; Chengxin Jiang; Jim O’Connor; Ray Wells; Brandon Schmandt

doi:10.1126/SCIADV.ADJ3357

The magmatic origin of the Columbia River Gorge, USA

Nathaniel Klema^*, Leif Karlstrom, Charles Cannon, Chengxin Jiang, Jim O’Connor, Ray Wells, Brandon Schmandt

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Along subduction zones, high-relief topography is associated with sustained volcanism parallel to the plate margin. However, the relationship between magmatism and mountain building in arcs is poorly understood. Here, we study patterns of surface deformation and correlated fluvial knickpoints in the Columbia River Gorge to link long-term magmatism to the uplift and ensuing topographic development of the Cascade Range. An upwarped paleochannel exposed in the walls of the Gorge constrains unsteady deep magma flux, the ratio of intrusive to extrusive magmatic contributions to topography, and the impact of magmatism on Columbia River incision since 3.5 million years ago. Geophysical data indicate that deep magma influx beneath the arc axis is ongoing and not aligned with the current locations of volcanic edifices, representing a broad regional influence on arc construction.

Original language	English
Article number	eadj3357
Number of pages	9
Journal	Science advances
Volume	9
Issue number	51
DOIs	https://doi.org/10.1126/SCIADV.ADJ3357
Publication status	Published - Dec 2023

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title = "The magmatic origin of the Columbia River Gorge, USA",

abstract = "Along subduction zones, high-relief topography is associated with sustained volcanism parallel to the plate margin. However, the relationship between magmatism and mountain building in arcs is poorly understood. Here, we study patterns of surface deformation and correlated fluvial knickpoints in the Columbia River Gorge to link long-term magmatism to the uplift and ensuing topographic development of the Cascade Range. An upwarped paleochannel exposed in the walls of the Gorge constrains unsteady deep magma flux, the ratio of intrusive to extrusive magmatic contributions to topography, and the impact of magmatism on Columbia River incision since 3.5 million years ago. Geophysical data indicate that deep magma influx beneath the arc axis is ongoing and not aligned with the current locations of volcanic edifices, representing a broad regional influence on arc construction.",

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T1 - The magmatic origin of the Columbia River Gorge, USA

AU - Klema, Nathaniel

AU - Karlstrom, Leif

AU - Cannon, Charles

AU - Jiang, Chengxin

AU - O’Connor, Jim

AU - Wells, Ray

AU - Schmandt, Brandon

PY - 2023/12

Y1 - 2023/12

N2 - Along subduction zones, high-relief topography is associated with sustained volcanism parallel to the plate margin. However, the relationship between magmatism and mountain building in arcs is poorly understood. Here, we study patterns of surface deformation and correlated fluvial knickpoints in the Columbia River Gorge to link long-term magmatism to the uplift and ensuing topographic development of the Cascade Range. An upwarped paleochannel exposed in the walls of the Gorge constrains unsteady deep magma flux, the ratio of intrusive to extrusive magmatic contributions to topography, and the impact of magmatism on Columbia River incision since 3.5 million years ago. Geophysical data indicate that deep magma influx beneath the arc axis is ongoing and not aligned with the current locations of volcanic edifices, representing a broad regional influence on arc construction.

AB - Along subduction zones, high-relief topography is associated with sustained volcanism parallel to the plate margin. However, the relationship between magmatism and mountain building in arcs is poorly understood. Here, we study patterns of surface deformation and correlated fluvial knickpoints in the Columbia River Gorge to link long-term magmatism to the uplift and ensuing topographic development of the Cascade Range. An upwarped paleochannel exposed in the walls of the Gorge constrains unsteady deep magma flux, the ratio of intrusive to extrusive magmatic contributions to topography, and the impact of magmatism on Columbia River incision since 3.5 million years ago. Geophysical data indicate that deep magma influx beneath the arc axis is ongoing and not aligned with the current locations of volcanic edifices, representing a broad regional influence on arc construction.

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DO - 10.1126/SCIADV.ADJ3357

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The magmatic origin of the Columbia River Gorge, USA

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