Roof pendant

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View of Mount Kailash, Tibet (in the right distance), showing both the metasedimentary roof pendant and the underlying granite rock which caused the metamorphosis of the sediments above. Mount Kailash - reurinkjan.jpg
View of Mount Kailash, Tibet (in the right distance), showing both the metasedimentary roof pendant and the underlying granite rock which caused the metamorphosis of the sediments above.

In structural geology, a roof pendant, also known as a pendant, is a mass of country rock that projects downward into and is entirely surrounded by an igneous intrusion such as a batholith or other pluton. In lay terminology sometimes "rock hat" is used. A roof pendant is an erosional remnant that was created by the removal of the overlying country rock that formed the roof of the igneous intrusion that encloses it. If this downward protruding mass of roof rock still has a connection to the main, surrounding mass of country rock, they are known by structural geologists as either septa or screens. [1] [2] [3] Roof pendants typically have been strongly metamorphosed through the processes of contact metamorphism. [4]

A classic, well-documented example of a roof pendant is the strata that comprise Mount Morrison within the Sierra Nevada in Mono and Fresno counties, California. It lies midway between Mono Lake on the north and Bishop, California, on the south. Mount Morrison consists of a roof pendant that underlies an area of 62 km2 (24 sq mi). This roof pendant consists of a 15,000 m- (50,000 ft-) thick sequence of complexly folded and faulted metasedimentary strata and metavolcanic strata. The eastern two-thirds of this roof pendant consists of Cambrian to Silurian and Pennsylvanian to Permian metasedimentary strata. Metavolcanic rocks of Mesozoic age comprise the western third of the roof pendant. Mesozoic granitic rocks enclose and intrude the pendant rocks. These granitic rocks consist predominantly of quartz monzonite and granodiorite with local, minor, scattered bodies of granite, aplite, diorite and gabbro. These pendants are part of a discontinuous, 140 kilometres (87 mi)-long, northwest-trending belt of roof pendants that are preserved within the granitic plutons of Sierra Nevada. [5] [6] [7] [8]

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The geology of Ecuador includes ancient Precambrian basement rock and a complex tectonic assembly of new sections of crust from formerly separate landmasses, often uplifted as the Andes or transformed into basins.

The geology of Guatemala encompasses rocks divided into two tectonic blocks. The Maya Block in the north has igneous and metamorphic North American Craton basement rocks, overlain by late Paleozoic metasedimentary rocks, which experienced deformation during the Devonian. Red beds, evaporites and marine limestone from the Mesozoic overlie these rocks. A karst landscape formed in the thick limestone units across the north of the country. During a collisional orogeny, these Paleozoic and Mesozoic rocks were uplifted, thrusted and folded as the Central Guatemalan Cordillera. Paleogene rocks from the early Cenozoic include volcanic and marine clastic rocks, associated with high rates of erosion.

The geology of Newfoundland and Labrador includes basement rocks formed as part of the Grenville Province in the west and Labrador and the Avalonian microcontinent in the east. Extensive tectonic changes, metamorphism and volcanic activity have formed the region throughout Earth history.

The geology of California is highly complex, with numerous mountain ranges, substantial faulting and tectonic activity, rich natural resources and a history of both ancient and comparatively recent intense geological activity. The area formed as a series of small island arcs, deep-ocean sediments and mafic oceanic crust accreted to the western edge of North America, producing a series of deep basins and high mountain ranges.

References

  1. U.S. Bureau of Mines Staff (1996) Dictionary of Mining, Mineral, & Related Terms. Report SP-96-1, U.S. Department of Interior, U.S. Bureau of Mines, Washington, D.C.
  2. Neuendorf, KKE, JP Mehl, Jr., and JA Jackson, eds. (2005) Glossary of Geology (5th ed.). Alexandria, Virginia, American Geological Institute. 779 pp. ISBN   0-922152-76-4
  3. Best, MG (2003) Igneous and metamorphic petrology, 2nd ed. Blackwell Science Ltd., New York, New York. 729 pp. ISBN   1-40510-588-7
  4. Bucher, K, and R Grapes (2011) Petrogenesis of Metamorphic Rocks. Springer, New York, New York. 428 pp. ISBN   978-3-540-74168-8
  5. Greene, DC, and CH Stevens (1999) Stratigraphy, depositional history, and tectonic evolution of Paleozoic continental-margin rocks in roof pendants of the eastern Sierra Nevada, California. Geological Society of America Bulletin. 111(6):919-933.
  6. Greene, DC, and CH Stevens (2002) Geologic Map of Paleozoic Rocks in the Mount Morrison Pendant, Eastern Sierra Nevada. California Map Sheet no 53. California Division of Mines and Geology, Sacramento, California.
  7. Rinehart, CD, and DC Ross (1964) Geology and mineral deposits of the Mount Morrison quadrangle, Sierra Nevada, California. Professional Paper no. 385. United States Geological Survey, Reston, Virginia. 106 pp.
  8. Russell, S, and W Nokleberg (1977) Superimposition and timing of deformations in the Mount Morrison roof pendant and in the central sierra Nevada, California. Geological Society of America Bulletin. 88(3):335-345.

See also