Self-Organization of Sorted Patterned Ground
Top Cited Papers
- 17 January 2003
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 299 (5605) , 380-383
- https://doi.org/10.1126/science.1077309
Abstract
Striking circular, labyrinthine, polygonal, and striped patterns of stones and soil self-organize in many polar and high alpine environments. These forms emerge because freeze-thaw cycles drive an interplay between two feedback mechanisms. First, formation of ice lenses in freezing soil sorts stones and soil by displacing soil toward soil-rich domains and stones toward stone-rich domains. Second, stones are transported along the axis of elongate stone domains, which are squeezed and confined as freezing soil domains expand. In a numerical model implementing these feedbacks, circles, labyrinths, and islands form when sorting dominates; polygonal networks form when stone domain squeezing and confinement dominate; and stripes form as hillslope gradient is increased.Keywords
This publication has 24 references indexed in Scilit:
- Solifluction rates, processes and landforms: a global reviewEarth-Science Reviews, 2001
- A model for sorted circles as self‐organized patternsJournal of Geophysical Research, 2001
- The coupled heat-moisture-mechanic model of the frozen soilCold Regions Science and Technology, 2000
- River Meandering as a Self-Organization ProcessScience, 1996
- A cellular model of braided riversNature, 1994
- Numerical simulation of selforganized stone stripesNature, 1993
- Self-organization in freezing soils: from microscopic ice lenses to patterned groundCanadian Journal of Physics, 1990
- Geometrical Aspects of Sorted Patterned Ground in Recurrently Frozen SoilScience, 1986
- Frost Sorted Patterned Ground: A ReviewQuaternary Research, 1976
- CLASSIFICATION OF PATTERNED GROUND AND REVIEW OF SUGGESTED ORIGINSGSA Bulletin, 1956