Scree

A scree slope at the bottom of Mount Yamnuska, Alberta.

Climber ascending talus slope on the west flank of Cross Fell, England.

Scree, also called talus, is a term given to an accumulation of broken rock fragments at the base of crags, mountain cliffs, or valley shoulders. Landforms associated with these materials are sometimes called scree slopes or talus piles. These deposits typically have a concave upwards form, while the maximum inclination of such deposits corresponds to the angle of repose of the mean debris size.

The term scree comes from the Old Norse term for landslide, skriða.^[1] The term talus is a French word meaning slope.^[2]

The terms scree and talus are often used interchangeably, though scree commonly refers to smaller material like mixed gravel and loose dirt (e.g. anything smaller than a human fist), while talus can refer to rocks larger than scree.^[3] Talus is usually the preferred term in scientific writing.

Formation of scree or talus deposits results from physical and chemical weathering and erosional processes acting on a rock face. The predominant processes that degrade a rock slope depend largely on the regional climate (temperature, amount of rainfall, etc.). Examples include:

• Mechanical weathering by ice
• Chemical weathering by mineral hydration and salt deposition
• Thermal stresses
• Topographic stresses
• Biotic processes

Scree formation is commonly attributed to the formation of ice within mountain rock slopes. During the day, water can flow in joints and discontinuities in the rock wall. If the temperature drops sufficiently, for example with the onset of evening, this water may freeze. Since water expands by 9% when it freezes, it can generate large forces that either create new cracks or wedge blocks into an unstable position. Special boundary conditions (rapid freezing and water confinement) may be required for this process to be effective.^[4] Freeze / thaw scree production is thought to be most common during the spring and fall, when the daily temperatures fluctuate around the freezing point of water, and snow melt produces ample free water.

The efficiency of freeze / thaw processes in scree production is the subject of some debate in the scientific community. Many researchers believe that it is unrealistic to assume that ice formation in large open crack systems can generate large pressures, instead suggesting that the water and ice simply flow out of the cracks as pressure builds.^[5] Many argue that a frost heaving process, like that known to act in soil in permafrost areas, may in fact play an important role in cliff degradation in cold environments. ^[6][7]

With sufficient time, a rock slope may become completely covered by its own scree so that production of new material ceases. This slope is said to be mantled with debris.

Formation of scree can occur on planets or moons other than the Earth. For example it is fairly common for fresh craters on the Moon to have piles of talus along the base of the inner wall.

Scree can also be the result of human activity, such as the scree beneath the sculpture Mount Rushmore in South Dakota.

See also

• Angle of repose
• Mass wasting
• Landslide
• Weathering
• Erosion
• Frost heaving

References

1. "Scree". Online Etymology Dictionary. Retrieved 2006-04-20.
2. "Talus". Online Etymology Dictionary. Retrieved 2008-12-01.
3. "Scree". Backpacker Magazine article on mountain skills. Retrieved 2008-04-22.
4. Whalley, W.B. (1984). Rockfalls, in Slope Instability, Brunsden, D. and Prior D.B. Eds., John Wiley and Sons, Chichester, 217-256.
5. Hallet, B. (2006). Why do freezing rocks break?, Science, 314, 1092-1093.
6. Walder, J. and Hallet, B. (1985). A theoretical model of the fracture of rock during freezing, Geological Society of America Bulletin, 96, 336-346.
7. Murton, J.B., Peterson, R., and Ozouf, J-C. (2006). Bedrock fracture by ice segregation in cold regions, Science, 314, 1127-1129.