Stephen J. Martel scite author profile

Bedrock fracture systems facilitate weathering, allowing fresh mineral surfaces to interact with corrosive waters and biota from Earth's surface, while simultaneously promoting drainage of chemically equilibrated fluids. We show that topographic perturbations to regional stress fields explain bedrock fracture distributions, as revealed by seismic velocity and electrical resistivity surveys from three landscapes. The base of the fracture-rich zone mirrors surface topography where the ratio of horizontal compressive tectonic stresses to near-surface gravitational stresses is relatively large, and it parallels the surface topography where the ratio is relatively small. Three-dimensional stress calculations predict these results, suggesting that tectonic stresses interact with topography to influence bedrock disaggregation, groundwater flow, chemical weathering, and the depth of the "critical zone" in which many biogeochemical processes occur.

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Slip distributions on faults: effects of stress gradients, inelastic deformation, heterogeneous host-rock stiffness, and fault interaction

Bürgmann

Pollard

Martel

1994

Journal of Structural Geology

299

163

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Pit crater formation on Kilauea volcano, Hawaii.

Okubo

Martel

1998

Journal of Volcanology and Geothermal Research

143

101

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The internal structure of fault zones in basaltic sequences

Holland

Urai

Martel

2006

Earth and Planetary Science Letters

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Topographic stress and rock fracture: a two‐dimensional numerical model for arbitrary topography and preliminary comparison with borehole observations

Slim

Perron

Martel

et al. 2014

Earth Surf Processes Landf

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Stephen J. Martel

Geophysical imaging reveals topographic stress control of bedrock weathering

Slip distributions on faults: effects of stress gradients, inelastic deformation, heterogeneous host-rock stiffness, and fault interaction

Pit crater formation on Kilauea volcano, Hawaii.

The internal structure of fault zones in basaltic sequences

Topographic stress and rock fracture: a two‐dimensional numerical model for arbitrary topography and preliminary comparison with borehole observations

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