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{{Short description|Visible exposure of bedrock or ancient superficial deposits on the surface of the Earth}}
{{Short description|Visible exposure of bedrock or ancient superficial deposits on the surface of the Earth}}
{{More citations needed|date=September 2011}}
{{More citations needed|date=September 2011}}
[[File:Rockeskyller Kopf 3.JPG|thumb|Outcrop of volcanic rock in [[Germany]].]]
[[File:Rockeskyller Kopf 3.JPG|thumb|Outcrop of volcanic rock in Germany]]
An '''outcrop''' or '''rocky outcrop''' is a visible exposure of [[bedrock]] or ancient [[superficial deposits]] on the surface of the Earth.<ref>Howell, J. V., 1960, ''Glossary of Geology and Related Sciences''. Washington, DC: American Geological Institute, pp. 207-208</ref>
An '''outcrop''' or '''rocky outcrop''' is a visible exposure of [[bedrock]] or ancient [[superficial deposits]] on the surface of the Earth and other [[terrestrial planets]].<ref>Howell, J. V., 1960, ''Glossary of Geology and Related Sciences''. Washington, DC: American Geological Institute, pp. 207-208</ref>


==Features==
==Features==
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==Study==
==Study==
Outcrops allow direct observation and sampling of the [[bedrock]] ''[[in situ]]'' for [[Geology|geologic]] analysis and creating [[geologic map]]s. In situ measurements are critical for proper analysis of [[Historical geology|geological history]] and outcrops are therefore extremely important for understanding the [[geologic time scale]] of earth history. Some of the types of information that cannot be obtained except from bedrock outcrops or by precise drilling and coring operations, are [[structural geology]] features orientations (e.g. bedding planes, [[fold (geology)|fold]] axes, [[foliation]]), depositional features orientations (e.g. paleo-current directions, grading, [[facies]] changes), [[paleomagnetic]] orientations. Outcrops are also very important for understanding fossil assemblages, and paleo-environment, and evolution as they provide a record of relative changes within geologic [[stratum|strata]].
Outcrops allow direct observation and sampling of the [[bedrock]] ''[[in situ]]'' for [[Geology|geologic]] analysis and creating [[geologic map]]s. In situ measurements are critical for proper analysis of [[Historical geology|geological history]] and outcrops are therefore extremely important for understanding the [[geologic time scale]] of earth history. Some of the types of information that cannot be obtained except from bedrock outcrops or by precise drilling and coring operations, are [[structural geology]] features orientations (e.g. bedding planes, [[fold (geology)|fold]] axes, [[Foliation (geology)|foliation]]), depositional features orientations (e.g. paleo-current directions, grading, [[facies]] changes), [[paleomagnetic]] orientations. Outcrops are also very important for understanding fossil assemblages, and paleo-environment, and evolution as they provide a record of relative changes within geologic [[stratum|strata]].


Accurate description, mapping, and sampling for laboratory analysis of outcrops made possible all of the geologic sciences and the development of fundamental geologic laws such as the [[law of superposition]], the [[principle of original horizontality]], [[principle of lateral continuity]], and the [[principle of faunal succession]].
Accurate description, mapping, and sampling for laboratory analysis of outcrops made possible all of the geologic sciences and the development of fundamental geologic laws such as the [[law of superposition]], the [[principle of original horizontality]], [[principle of lateral continuity]], and the [[principle of faunal succession]].
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</gallery>
</gallery>


==See also==
== See also ==

{{Portal|Earth sciences}}
{{portal|Earth sciences}}
*[[Digital outcrop model]]
* {{annotated link|Digital outcrop model}}
*[[Geological formation]]
* {{annotated link|Geological formation}}
*[[Geologic time scale]]
* {{annotated link|Geologic time scale}}
*[[List of rock formations]]
* {{annotated link|List of rock formations}}
* {{annotated link|Subcrop}}


==References==
==References==

Latest revision as of 17:25, 2 November 2024

Outcrop of volcanic rock in Germany

An outcrop or rocky outcrop is a visible exposure of bedrock or ancient superficial deposits on the surface of the Earth and other terrestrial planets.[1]

Features

[edit]

Outcrops do not cover the majority of the Earth's land surface because in most places the bedrock or superficial deposits are covered by soil and vegetation and cannot be seen or examined closely. However, in places where the overlying cover is removed through erosion or tectonic uplift, the rock may be exposed, or crop out. Such exposure will happen most frequently in areas where erosion is rapid and exceeds the weathering rate such as on steep hillsides, mountain ridges and tops, river banks, and tectonically active areas. In Finland, glacial erosion during the last glacial maximum (ca. 11000 BC), followed by scouring by sea waves, followed by isostatic uplift has produced many smooth coastal and littoral outcrops.

Bedrock and superficial deposits may also be exposed at the Earth's surface due to human excavations such as quarrying and building of transport routes.

Study

[edit]

Outcrops allow direct observation and sampling of the bedrock in situ for geologic analysis and creating geologic maps. In situ measurements are critical for proper analysis of geological history and outcrops are therefore extremely important for understanding the geologic time scale of earth history. Some of the types of information that cannot be obtained except from bedrock outcrops or by precise drilling and coring operations, are structural geology features orientations (e.g. bedding planes, fold axes, foliation), depositional features orientations (e.g. paleo-current directions, grading, facies changes), paleomagnetic orientations. Outcrops are also very important for understanding fossil assemblages, and paleo-environment, and evolution as they provide a record of relative changes within geologic strata.

Accurate description, mapping, and sampling for laboratory analysis of outcrops made possible all of the geologic sciences and the development of fundamental geologic laws such as the law of superposition, the principle of original horizontality, principle of lateral continuity, and the principle of faunal succession.

Examples

[edit]

On Ordnance Survey maps in Great Britain, cliffs are distinguished from outcrops: cliffs have a continuous line along the top edge with lines protruding down; outcrops have a continuous line around each area of bare rock. An outcrop example in California is the Vasquez Rocks, familiar from location shooting use in many films, composed of uplifted sandstone.[2][3] Yana is another example of outcrops, located in Uttara Kannada district in Karnataka, India.

See also

[edit]

References

[edit]
  1. ^ Howell, J. V., 1960, Glossary of Geology and Related Sciences. Washington, DC: American Geological Institute, pp. 207-208
  2. ^ "oxy.edu. Vazquez Rocks. access date:5/22/2010". Archived from the original on 2011-06-08. Retrieved 2010-05-24.
  3. ^ "parks.lacounty.gov. Vazquez Rocks Natural Area and Nature Center. access date:5/22/2010". Archived from the original on 2012-09-20. Retrieved 2010-05-24.
[edit]
  • Media related to Outcrops at Wikimedia Commons
  • The dictionary definition of outcrop at Wiktionary