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The unique geometry of a slickenside can be created in a variety of ways, but the precise mechanisms that create them is not well understood. The grinding between two rocks produces granular material, and there is a change in the behaviour of wear material when the particle size is reduced to nanometers.Toy, V. G., A. Niemeijer, F. Renard, L. Morales, and R. Wirth (2017), Striation and slickenline development on quartz fault surfaces at crustal conditions: Origin and effect on friction, J. Geophys. Res. Solid Earth, 122, 3497–3512, doi:10.1002/2016JB013498 When the particle size is reduced so dramatically that the surface becomes shiny, it can be characterized as a fault mirror.
A fault mirror may also be the result of fluid being present at the fault surface during slip.Kirkpatrick, J. D., et al. "Silica gel formation during fault slip: Evidence from the rock record." Geology 41.9 (2013): 1015-1018. Once slip has stopped, this fluid solidifies as a silica gel, which appears shiny and hosts slickenlines.
Slickenfibres are secondary minerals that make up the slickensides rather than the rock itself. Slickenfibres form in areas where the rock slowly
In geology
Geology () is a branch of natural science concerned with Earth and other Astronomical object, astronomical objects, the features or rock (geology), rocks of which it is composed, and the processes by which they change over time. Modern geology ...
, a slickenside is a smoothly polished surface caused by frictional movement between rocks along a fault. This surface is typically striated
Striations means a series of ridges, furrows or linear marks, and is used in several ways:
* Glacial striation
* Striation (fatigue), in material
* Striation (geology), a ''striation'' as a result of a geological fault
* Striation Valley, in ...
with linear features, called slickenlines, in the direction of movement.Geometry of slickensides
A slickenside can occur as a single surface at a fault between two hard surfaces. Alternatively, the gouge between the fault surfaces may contain many anastamosing slip surfaces that host slickensides. These slip surfaces are on the order of 100 micrometers thick, and the size of the grains that constitute the surface are ultra-fine (0.01-1 micrometers in diameter).Power, William L., and Terry E. Tullis. "The relationship between slickenside surfaces in fine-grained quartz and the seismic cycle." Journal of Structural Geology 11.7 (1989): 879-893. These grains are unlike typical grains of fault rock in that they have irregular grain boundaries and few crystal lattice defects (termed dislocations). Slickensides have conspicuous shapes that can be used to determine the direction of movement along the fault. Straight slickenlines indicate linear-translational fault motion. They are parallel to the direction of fault motion and serve as a kinematic indicator. Curved slickenlines have recently been studied for their potential to preserve the direction of earthquake rupture propagation. Kearse, J., Kaneko, Y., Little, T., and Van Dissen, R., 2019, Curved slickenlines preserve direction of rupture propagation: Geology, https://doi.org/10.1130/G46563.1Surface Roughness
Slickenside formation results in unique roughness on a slip surface. Fault surface roughness (or topography) is characterized by the aspect ratio of asperity height to scale of observation, and this roughness is a key parameter in the study of fault slip. In general, a fault surface appears rougher at smaller scales (i.e. rough and bumpy at approximately millimetre scales and smaller, and increasingly smooth with larger fields of view). This smoothing with larger observation scales is more pronounced in the slip-parallel direction than the slip-perpendicular direction and is commonly a result of slickenside formation.Mechanisms to create slickensides
The unique geometry of a slickenside can be created in a variety of ways, but the precise mechanisms that create them is not well understood. The grinding between two rocks produces granular material, and there is a change in the behaviour of wear material when the particle size is reduced to nanometers.Toy, V. G., A. Niemeijer, F. Renard, L. Morales, and R. Wirth (2017), Striation and slickenline development on quartz fault surfaces at crustal conditions: Origin and effect on friction, J. Geophys. Res. Solid Earth, 122, 3497–3512, doi:10.1002/2016JB013498 When the particle size is reduced so dramatically that the surface becomes shiny, it can be characterized as a fault mirror.
A fault mirror may also be the result of fluid being present at the fault surface during slip.Kirkpatrick, J. D., et al. "Silica gel formation during fault slip: Evidence from the rock record." Geology 41.9 (2013): 1015-1018. Once slip has stopped, this fluid solidifies as a silica gel, which appears shiny and hosts slickenlines.
Asperity plowing
An asperity on a fault surface is a bump or point with higher relief than the area around it. The asperity, when pressed into the opposing rock surface and then moved, digs into the opposing rock, forming troughs, grooves, and scratches.Means, W. D. "A newly recognized type of slickenside striation." Journal of Structural geology 9.5-6 (1987): 585-590. Asperity plowing is thus a result of permanent deformation in the brittle regime at a small scale.Kirkpatrick, J. D., & Brodsky, E. E. (2014, October 22). Slickenline orientations as a record of Fault Rock Rheology. Earth and Planetary Science Letters. Retrieved November 3, 2022, from https://www.sciencedirect.com/science/article/pii/S0012821X14006037Debris streaking
When an asperity plows into the opposing rock, it wears itself and the opposing rock down and produces fine debris. This debris, or wear product, accumulates both in front of and behind the asperity in a long, elongated shape. If the asperity is relatively hard, the debris will accumulate in front of the asperity. If the asperity is relatively soft, the debris will trail behind. This debris hardens over time and is preserved as a form of slickenline.Erosional sheltering
Some rocks may contain particles that are harder than the rest of the rock. When these rocks are worn, the harder particles will resist wear more than the softer rock, the rock on thelee side
Windward () and leeward () are terms used to describe the direction of the wind. Windward is ''upwind'' from the point of reference, i.e. towards the direction from which the wind is coming; leeward is ''downwind'' from the point of reference ...
of the hard particle will be protected from wear. This creates a ''tail'' that starts abruptly as a ''crag'' where the hard particle was located and is elongated parallel to the direction of movement down-slip from the particle.
Fiber growth
The fault plane may be coated bymineral
In geology and mineralogy, a mineral or mineral species is, broadly speaking, a solid chemical compound with a fairly well-defined chemical composition and a specific crystal structure that occurs naturally in pure form.John P. Rafferty, ed. (2 ...
fibres that grew in during the fault movement, known as ''slickenfibres''. Due to irregularities in the fault plane, exposed slickenfibres typically have a stepped appearance that can be used to determine the sense of movement across the fault.
Slickenfibres are secondary minerals that make up the slickensides rather than the rock itself. Slickenfibres form in areas where the rock slowly creep
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past one another rather than sliding suddenly as a result of an earthquake
An earthquake (also known as a quake, tremor or temblor) is the shaking of the surface of the Earth resulting from a sudden release of energy in the Earth's lithosphere that creates seismic waves. Earthquakes can range in intensity, fr ...
.Ishii, Eiichi. (2017). Estimation of the highest potential transmissivity of discrete shear fractures using the ductility index. International Journal of Rock Mechanics and Mining Sciences. 100. 10-22. 10.1016/j.ijrmms.2017.10.017. Unlike slickenlines, which give two possibilities for slip direction, slickenfibres preserve the true slip direction.
Implications
Slickensides provide useful insight into earthquake processes.Calcite
Calcite is a carbonate mineral and the most stable polymorph of calcium carbonate (CaCO3). It is a very common mineral, particularly as a component of limestone. Calcite defines hardness 3 on the Mohs scale of mineral hardness, based on scratc ...
slickenfibres have recently been used to constrain the depth of aseismic creep in the Zagros Mountains
The Zagros Mountains ( ar, جبال زاغروس, translit=Jibal Zaghrus; fa, کوههای زاگرس, Kuh hā-ye Zāgros; ku, چیاکانی زاگرۆس, translit=Çiyakani Zagros; Turkish: ''Zagros Dağları''; Luri: ''Kuh hā-ye Zāgr ...
as well as the orientation of stress acting on the fault. It has also been suggested that when multiple slickenfibre or slickensteps orientations are present, it can indicate that the ongoing shear is not strain softening so slip does not have a constant direction.
In addition to the direction of slip, slickenlines have also been used to constrain the timing of fault slip. They also preserve any complexity in the geometry of the earthquake rupture.
Other types of slickensides
Slickensides in soils
Inpedology
Pedology (from Greek: πέδον, ''pedon'', "soil"; and λόγος, ''logos'', "study") is a discipline within soil science which focuses on understanding and characterizing soil formation, evolution, and the theoretical frameworks for modeling ...
, the study of soils in their natural environments, a slickenside is a surface of the cracks produced in soils containing a high proportion of swelling clays
Clay is a type of fine-grained natural soil material containing clay minerals (hydrous aluminium phyllosilicates, e.g. kaolin, Al2 Si2 O5( OH)4).
Clays develop plasticity when wet, due to a molecular film of water surrounding the clay par ...
. Slickensides are a type of cutan.
In the Australian Soil Classification The Australian Soil Classification is the classification system currently used to describe and classify soils in Australia. It is a general-purpose, hierarchical classification system, and consists of five categorical levels from the most general ...
, slickensides, along with lenticular structural aggregates, are an indicator of a vertosol.
Slickensides on the Moon
On theMoon
The Moon is Earth's only natural satellite. It is the fifth largest satellite in the Solar System and the largest and most massive relative to its parent planet, with a diameter about one-quarter that of Earth (comparable to the width of ...
, a boulder with slickensides, discovered in a debris-strewn small crater at Station 9 near Rima Hadley, was photographed during a moonwalk by the crew of Apollo 15
Apollo 15 (July 26August 7, 1971) was the ninth crewed mission in the United States' Apollo program and the fourth to land on the Moon. It was the first J mission, with a longer stay on the Moon and a greater focus on science than ear ...
.https://history.nasa.gov/alsj/a15/A15SampleCat_1.pdf Catalog of Apollo 15 Rocks – Part 1. 15015-15299
Gallery
Notes
References
* Allaby, A. and Allaby, M. (Eds). 1990. ''The Concise Oxford Dictionary of Earth Sciences''. New York, USA: Oxford University Press. * McDonald, R. C. et al. 1990. ''The Australian Soil and Land Survey Field Handbook'', 2nd Ed. Melbourne, Australia: Inkata Press. * ''Microtectonics'', by C.W.Passchier and R.A.J.Trouw, 2nd rev. and enlarged ed., 2005, XVI, 366 p., 322 illus., with CDExternal links
* {{Structural geology Pedology Structural geology