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Mechanics
The left- or right-lateral motion of one plate against another along transform faults can cause highly visible surface effects. Because of friction, the plates cannot simply glide past each other. Rather, stress builds up in both plates and when it reaches a level that exceeds the strain threshold of rocks on either side of the fault the accumulated potential energy is released as strain. Strain is both cumulative and instantaneous depending on the rheology of the rock; the ductile lower crust and mantle accumulates deformation gradually via shearing whereas the brittle upper crust reacts by fracture, or instantaneous stress release to cause motion along the fault. The ductile surface of the fault can also release instantaneously when the strain rate is too great. The energy released by instantaneous strain release is the cause of earthquakes, a common phenomenon along transform boundaries.
Examples
The San Andreas fault in California is a major transform fault which runs between the Mendocino Triple Junction in the north and the northern end of the East Pacific Rise somewhere beneath the Imperial Valley in the south.
Other examples include:
- Chile's Liquiñe-Ofqui Fault
- Indonesia's Great Sumatran fault
- Middle East's Dead Sea Transform fault
- New Zealand's Alpine Fault
- Pakistan's Chaman Fault
- Turkey's North Anatolian Fault
See also
- Fault (geology)
- Fracture zone
- Plate tectonics
- Structural geology
- List of tectonic plate interactions
References
- International Tectonic Dictionary - AAPG Memoir 7, 1967
- The Encyclopedia of Structural Geology and Plate Tectonics - Ed. by Carl K. Seyfert, 1987
