# Viewing Earth's surface as a soft matter landscape

**Authors:** Douglas J. Jerolmack, Karen E. Daniels

arXiv: 1903.04462 · 2019-03-12

## TL;DR

This paper reviews how viewing Earth's surface as a soft matter system enhances understanding of its complex, deformable materials and flow dynamics, revealing new phenomena and guiding future research.

## Contribution

It introduces a soft matter perspective to geophysical flows, connecting Earth surface processes with soft matter physics for better prediction and understanding.

## Key findings

- Soft matter concepts illuminate landscape dynamics.
- Identification of novel geophysical flow phenomena.
- Potential for improved predictive models of Earth surface changes.

## Abstract

The Earth's surface is composed of a staggering diversity of particulate-fluid mixtures: dry to wet, dilute to dense, colloidal to granular, and attractive to repulsive particles. This material variety is matched by the range of relevant stresses and strain rates, from laminar to turbulent flows, and steady to intermittent forcing, leading to anything from rapid and catastrophic landslides to the slow relaxation of soil and rocks over geologic timescales. Geophysical flows sculpt landscapes, but also threaten human lives and infrastructure. From a physics point of view, virtually all Earth and planetary landscapes are composed of soft matter, in the sense they are both deformable and sensitive to collective effects. Geophysical materials, however, often involve compositions and flow geometries that have not yet been examined in physics. In this review we explore how a soft-matter perspective has helped to illuminate, and even predict, the rich dynamics of Earth materials and their associated landscapes. We also highlight some novel phenomena of geophysical flows that challenge, and will hopefully inspire, more fundamental work in soft matter.

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/1903.04462/full.md

## References

255 references — full list in the complete paper: https://tomesphere.com/paper/1903.04462/full.md

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Source: https://tomesphere.com/paper/1903.04462