Topographic Stress as a Mechanical Weathering Mechanism on Titan

Author(s)

Seltzer, Cassandra; Martel, Stephen J; Perron, J Taylor

Abstract

Titan is unique among icy moons for its active surface processes and extensive erosional features.The presence of coarse sediment suggests that mechanical weathering breaks down Titan's surface material, butthe exact processes of mechanical weathering are unknown. We tested the idea that topographic features perturbambient crustal stresses enough to generate or enhance fractures. We used a two‐dimensional boundary elementmodel to predict the likely stress state within hypothetical erosional landforms on Titan, including river valleysand isolated ridges, and to model the locations and types of resulting fractures. Our results suggest thattopographic stress perturbations are indeed sufficient to generate fractures and drive mechanical weathering,with little sensitivity to the density of the material making up Titan's crust and landforms and no dependence onits elastic moduli. For material density of 800 to1,200 kg/m3, opening‐mode failure is predicted to occur withinhypothetical Titan landforms with a width of hundreds of meters, relief of tens of meters or more, and horizontaltidal or tectonic stresses up to 1 MPa of compression, which encompasses typical predicted tidal stresses rangingbetween 10 kPa of compression and 10 kPa of tension. Under the same conditions, shear fracture is predicted tooccur if the cohesion of the material is less than 100 kPa or if pore fluid pressures reduce local effective normalstresses. We therefore suggest that Titan's crust may be highly fractured and permeable, and that the predictedfractures could help generate sediment and provide pathways for subsurface transport of fluids.

Date issued

2025-07-29

URI

https://hdl.handle.net/1721.1/163395

Department

Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences

Journal

Journal of Geophysical Research: Planets

Publisher

Wiley

Citation

Seltzer, C., Martel, S. J., & Perron, J. T. (2025). Topographic stress as a mechanical weathering mechanism on Titan. Journal of Geophysical Research: Planets, 130, e2024JE008873.

Version: Final published version