Difference between revisions of "Stratigraphy"

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(Created page with "<div id="content_view" class="wiki" style="display: block"> =Stratigraphy= (glossary entry)<br /> <div id="toc"> =Table of Contents= <div style="margin-left: 1em">[#Strat...")
 
 
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=Stratigraphy=
 
=Stratigraphy=
 
  (glossary entry)<br /> <div id="toc">
 
  (glossary entry)<br /> <div id="toc">
=Table of Contents=
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<br />  
<div style="margin-left: 1em">[#Stratigraphy Stratigraphy]</div><div style="margin-left: 2em">[#Stratigraphy-Description Description]</div><div style="margin-left: 2em">[#Stratigraphy-Copernican Copernican]</div><div style="margin-left: 2em">[#Stratigraphy-Eratosthenian Eratosthenian]</div><div style="margin-left: 2em">[#Stratigraphy-Upper Imbrian Upper Imbrian]</div><div style="margin-left: 2em">[#Stratigraphy-Lower Imbrian Lower Imbrian]</div><div style="margin-left: 2em">[#Stratigraphy-Nectarian Nectarian]</div><div style="margin-left: 2em">[#Stratigraphy-Pre-Nectarian Pre-Nectarian]</div><div style="margin-left: 2em">[#Stratigraphy-Additional Information Additional Information]</div><div style="margin-left: 2em">[#Stratigraphy-Stratigraphic List Stratigraphic List]</div><div style="margin-left: 2em">[#Stratigraphy-LPOD Articles LPOD Articles]</div><div style="margin-left: 2em">[#Stratigraphy-Bibliography Bibliography]</div></div><br />  
 
 
==Description==
 
==Description==
 
  The geologic history of the Moon based upon the layering of impact ejecta and the resulting time sequence of events.<br /> <br />  
 
  The geologic history of the Moon based upon the layering of impact ejecta and the resulting time sequence of events.<br /> <br />  
 
==Copernican==
 
==Copernican==
'''Present - 1.1 b.y.'''<br /> ''Rayed fresh craters.'' We are currently in the ''Copernican'' period of lunar history. There are no definite mare lava flows as young, but small numbers of superposed impact craters suggest that a few lava deposits in northern [/Oceanus%20Procellarum Oceanus Procellarum] are of Copernican age. The most significant geologic activity on the Moon during the Copernician period has been the continuing (but infrequent) impact cratering.<br /> <br />  
+
'''Present - 1.1 b.y.'''<br /> ''Rayed fresh craters.'' We are currently in the ''Copernican'' period of lunar history. There are no definite mare lava flows as young, but small numbers of superposed impact craters suggest that a few lava deposits in northern [[Oceanus%20Procellarum|Oceanus Procellarum]] are of Copernican age. The most significant geologic activity on the Moon during the Copernician period has been the continuing (but infrequent) impact cratering.<br /> <br />  
 
==Eratosthenian==
 
==Eratosthenian==
'''1.1 - 3.2 b.y.'''<br /> ''Non-rayed fresh craters.'' This was the longest period in Lunar history. During this era late-stage volcanism filled low-lying regions in and around [/Mare%20Imbrium Mare Imbrium] and [/Oceanus%20Procellarum Oceanus Procellarum]. Ejecta and secondary craters from some ''Eratosthenian'' impact craters are flooded or embayed by mare lavas.<br /> <br />  
+
'''1.1 - 3.2 b.y.'''<br /> ''Non-rayed fresh craters.'' This was the longest period in Lunar history. During this era late-stage volcanism filled low-lying regions in and around [[Mare%20Imbrium|Mare Imbrium]] and [[Oceanus%20Procellarum|Oceanus Procellarum]]. Ejecta and secondary craters from some ''Eratosthenian'' impact craters are flooded or embayed by mare lavas.<br /> <br />  
 
==Upper Imbrian==
 
==Upper Imbrian==
 
'''3.2 - 3.75 b.y.'''<br /> ''Maria formation.'' The ''Upper Imbrian'' period was when most of the maria that we presently see on Moon formed - apparently radioactive heating was intense during this time.<br /> <br />  
 
'''3.2 - 3.75 b.y.'''<br /> ''Maria formation.'' The ''Upper Imbrian'' period was when most of the maria that we presently see on Moon formed - apparently radioactive heating was intense during this time.<br /> <br />  
 
==Lower Imbrian==
 
==Lower Imbrian==
'''3.75 - 3.85 b.y.'''<br /> ''Basin formation.'' The short interval beginning with the [/Imbrium%2C%20Mare Imbrium] impact and ending with the [/Mare%20Orientale Orientale] impact is called the ''Lower Imbrian'' period. The formation of the Imbrium and Orientale basins provides the most important and widespread stratigraphic boundaries between the ancient, heavily cratered Moon and the more recent Moon dominated by lava flows and a great reduction in impact cratering.<br /> <br />  
+
'''3.75 - 3.85 b.y.'''<br /> ''Basin formation.'' The short interval beginning with the [[Imbrium%2C%20Mare|Imbrium]] impact and ending with the [[Mare%20Orientale|Orientale]] impact is called the ''Lower Imbrian'' period. The formation of the Imbrium and Orientale basins provides the most important and widespread stratigraphic boundaries between the ancient, heavily cratered Moon and the more recent Moon dominated by lava flows and a great reduction in impact cratering.<br /> <br />  
 
==Nectarian==
 
==Nectarian==
'''3.85 - 3.92 b.y.'''<br /> ''Multiring basins.'' The ''Nectarian'' period is named for the impact basin the contains the relatively small [/Mare%20Nectaris Mare Nectaris], which is just one of about ten multiring [/Lunar%20Basins basins] that formed in a brief interval. These basins are all heavily degraded by impacts.<br /> <br />  
+
'''3.85 - 3.92 b.y.'''<br /> ''Multiring basins.'' The ''Nectarian'' period is named for the impact basin the contains the relatively small [[Mare%20Nectaris|Mare Nectaris]], which is just one of about ten multiring [[Lunar%20Basins|basins]] that formed in a brief interval. These basins are all heavily degraded by impacts.<br /> <br />  
 
==Pre-Nectarian==
 
==Pre-Nectarian==
 
'''3.92 - 4.5 b.y.'''<br /> ''Intense cratering.'' The ''Pre-Nectarian'' period started with the intense cratering associated with the accretion of the Moon by mutual collisions of millions of smaller bodies. The fragments of ruined craters are the oldest and most difficult to recognize on the Moon.<br /> <br />  
 
'''3.92 - 4.5 b.y.'''<br /> ''Intense cratering.'' The ''Pre-Nectarian'' period started with the intense cratering associated with the accretion of the Moon by mutual collisions of millions of smaller bodies. The fragments of ruined craters are the oldest and most difficult to recognize on the Moon.<br /> <br />  
 
==Additional Information==
 
==Additional Information==
* Space artist Don Davis' imaginative images prepared under the the direction of [/Don%20E.%20Wilhelms Don Wilhelms] comparing the Moon's present nearside as it might have appeared in the [http://hdl.loc.gov/loc.gmd/g3196c.wc000003 Middle of the Imbrian Period], [http://hdl.loc.gov/loc.gmd/g3196c.wc000002 End of the Imbrian Period] and [http://hdl.loc.gov/loc.gmd/g3196c.wc000001 Today] are available in the Library of Congress' American Memory Map Collection.
+
* Space artist Don Davis' imaginative images prepared under the the direction of [[Don%20E.%20Wilhelms|Don Wilhelms]] comparing the Moon's present nearside as it might have appeared in the [http://hdl.loc.gov/loc.gmd/g3196c.wc000003 Middle of the Imbrian Period], [http://hdl.loc.gov/loc.gmd/g3196c.wc000002 End of the Imbrian Period] and [http://hdl.loc.gov/loc.gmd/g3196c.wc000001 Today] are available in the Library of Congress' American Memory Map Collection.
 
<br />  
 
<br />  
==[/Stratigraphic%20List Stratigraphic List]==
+
==[[Stratigraphic%20List|Stratigraphic List]]==
 
  A list of the major craters and basins of each stratigraphic age group.<br /> <br />  
 
  A list of the major craters and basins of each stratigraphic age group.<br /> <br />  
 
==LPOD Articles==
 
==LPOD Articles==
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==Bibliography==
 
==Bibliography==
  
* [/Wood%2C%202003 Wood, 2003], p. 53-55
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* [[Wood%2C%202003|Wood, 2003]], p. 53-55
* System/Approximate age: Current USGS stratigraphy as presented in Wilhelm's ''[/Wilhelms%2C%201987 Geologic History of the Moon]''.
+
* System/Approximate age: Current USGS stratigraphy as presented in Wilhelm's ''[[Wilhelms%2C%201987|Geologic History of the Moon]]''.
 
* 1962: EM Shoemaker & RJ Hackman: [http://adsabs.harvard.edu/abs/1962IAUS...14..289S Stratigraphic basis for a lunar time scal] in Z Kopal & ZK Mikhailov (editors) ''The Moon''. The foundation of all geologic mapping of Moon and other planets and satellites in the solar system.
 
* 1962: EM Shoemaker & RJ Hackman: [http://adsabs.harvard.edu/abs/1962IAUS...14..289S Stratigraphic basis for a lunar time scal] in Z Kopal & ZK Mikhailov (editors) ''The Moon''. The foundation of all geologic mapping of Moon and other planets and satellites in the solar system.
 
* 1964: JF McCauley: “The stratigraphy of the Mare Orientale region of the Moon” in ''Astrogeology Studies Annual program Report'', Aug. 1962-July 1963. Flagstaff. First detailed mapping of a lunar basin made possible by Lunar Orbiter images.
 
* 1964: JF McCauley: “The stratigraphy of the Mare Orientale region of the Moon” in ''Astrogeology Studies Annual program Report'', Aug. 1962-July 1963. Flagstaff. First detailed mapping of a lunar basin made possible by Lunar Orbiter images.
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  This page has been edited 1 times. The last modification was made by <span class="membersnap">- [http://www.wikispaces.com/user/view/tychocrater [[Image:tychocrater-lg.jpg|16px|tychocrater]]] [http://www.wikispaces.com/user/view/tychocrater tychocrater]</span> on Jun 13, 2009 3:24 pm - ''mgx2''</div>
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Latest revision as of 17:53, 15 April 2018

Stratigraphy

(glossary entry)


Description

The geologic history of the Moon based upon the layering of impact ejecta and the resulting time sequence of events.

Copernican

Present - 1.1 b.y.
Rayed fresh craters. We are currently in the Copernican period of lunar history. There are no definite mare lava flows as young, but small numbers of superposed impact craters suggest that a few lava deposits in northern Oceanus Procellarum are of Copernican age. The most significant geologic activity on the Moon during the Copernician period has been the continuing (but infrequent) impact cratering.

Eratosthenian

1.1 - 3.2 b.y.
Non-rayed fresh craters. This was the longest period in Lunar history. During this era late-stage volcanism filled low-lying regions in and around Mare Imbrium and Oceanus Procellarum. Ejecta and secondary craters from some Eratosthenian impact craters are flooded or embayed by mare lavas.

Upper Imbrian

3.2 - 3.75 b.y.
Maria formation. The Upper Imbrian period was when most of the maria that we presently see on Moon formed - apparently radioactive heating was intense during this time.

Lower Imbrian

3.75 - 3.85 b.y.
Basin formation. The short interval beginning with the Imbrium impact and ending with the Orientale impact is called the Lower Imbrian period. The formation of the Imbrium and Orientale basins provides the most important and widespread stratigraphic boundaries between the ancient, heavily cratered Moon and the more recent Moon dominated by lava flows and a great reduction in impact cratering.

Nectarian

3.85 - 3.92 b.y.
Multiring basins. The Nectarian period is named for the impact basin the contains the relatively small Mare Nectaris, which is just one of about ten multiring basins that formed in a brief interval. These basins are all heavily degraded by impacts.

Pre-Nectarian

3.92 - 4.5 b.y.
Intense cratering. The Pre-Nectarian period started with the intense cratering associated with the accretion of the Moon by mutual collisions of millions of smaller bodies. The fragments of ruined craters are the oldest and most difficult to recognize on the Moon.

Additional Information


Stratigraphic List

A list of the major craters and basins of each stratigraphic age group.

LPOD Articles

How Old?
Lunar Surface Bibliography

Bibliography

  • Wood, 2003, p. 53-55
  • System/Approximate age: Current USGS stratigraphy as presented in Wilhelm's Geologic History of the Moon.
  • 1962: EM Shoemaker & RJ Hackman: Stratigraphic basis for a lunar time scal in Z Kopal & ZK Mikhailov (editors) The Moon. The foundation of all geologic mapping of Moon and other planets and satellites in the solar system.
  • 1964: JF McCauley: “The stratigraphy of the Mare Orientale region of the Moon” in Astrogeology Studies Annual program Report, Aug. 1962-July 1963. Flagstaff. First detailed mapping of a lunar basin made possible by Lunar Orbiter images.
  • Lunar geologic timescale (Wikipedia)