Difference between revisions of "July 8, 2009"

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=Tectonic Targets=
 
=Tectonic Targets=
 
 
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<em>image from [http://www.lpi.usra.edu/meetings/lro2009/pdf/6051.pdf C. L. Johnson, T. R. Watters and S. J. Mackwell]</em><br />
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<em>image from [http://www.lpi.usra.edu/meetings/lro2009/pdf/6051.pdf" rel="nofollow C. L. Johnson, T. R. Watters and S. J. Mackwell]</em><br />
 
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Before the Lunar Reconnaissance Orbiter arrived at the Moon, Arizona State University (the home institution of the camera team leader), hosted a meeting on selecting targets to address science questions. One of the papers in the abstract [http://www.lpi.usra.edu/meetings/lro2009/pdf/program.pdf volume] includes this schematic map of tectonic features. The most prominent tectonic landforms are mare ridges (yellow) and concentric rilles (some of the black lines), both due to deformation caused by massive piles of mare lavas. A potentially more interesting, smaller type of faulting is indicated by short, hard to see blue lines which represent lobate scarps. A relatively small number of these are [http://lpod.wikispaces.com/December+1,+2008 known], most are found in the highlands which were not well covered with adequate high resolution Apollo era imaging. But with LRO meter-scale images many more of these low angle thrust faults are expected to be found. They are potentially exciting for two reasons; 1) they may record shrinkage of the Moon's diameter as it cooled, and 2) some faults look very young and their lengths suggest they may have been formed by significantly larger moonquakes than recorded by Apollo seismometers. The pale blue dots are regions to look for lobate scarps for they are the epicenters of shallow moonquakes; the deep quakes (red stars) probably have no surface manifestations. The white triangles show the very limited distribution of the Apollo seismometers; unfortunately none of the current generation of lunar spacecraft will update our nearly 40 year old lunar geophysical data sets. Pictures aren't everything.<br />
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Before the Lunar Reconnaissance Orbiter arrived at the Moon, Arizona State University (the home institution of the camera team leader), hosted a meeting on selecting targets to address science questions. One of the papers in the abstract [http://www.lpi.usra.edu/meetings/lro2009/pdf/program.pdf" rel="nofollow volume] includes this schematic map of tectonic features. The most prominent tectonic landforms are mare ridges (yellow) and concentric rilles (some of the black lines), both due to deformation caused by massive piles of mare lavas. A potentially more interesting, smaller type of faulting is indicated by short, hard to see blue lines which represent lobate scarps. A relatively small number of these are [http://lpod.wikispaces.com/December+1,+2008 known], most are found in the highlands which were not well covered with adequate high resolution Apollo era imaging. But with LRO meter-scale images many more of these low angle thrust faults are expected to be found. They are potentially exciting for two reasons; 1) they may record shrinkage of the Moon's diameter as it cooled, and 2) some faults look very young and their lengths suggest they may have been formed by significantly larger moonquakes than recorded by Apollo seismometers. The pale blue dots are regions to look for lobate scarps for they are the epicenters of shallow moonquakes; the deep quakes (red stars) probably have no surface manifestations. The white triangles show the very limited distribution of the Apollo seismometers; unfortunately none of the current generation of lunar spacecraft will update our nearly 40 year old lunar geophysical data sets. Pictures aren't everything.<br />
 
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<br />
<em>[mailto:tychocrater@yahoo.com Chuck Wood]</em><br />
+
<em>[mailto:tychocrater@yahoo.com" rel="nofollow Chuck Wood]</em><br />
 
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<br />
 
<strong>Technical Details</strong><br />
 
<strong>Technical Details</strong><br />
 
<br />
 
<br />
 
<strong>Related Links</strong><br />
 
<strong>Related Links</strong><br />
C. L. Johnson, T. R. Watters and S. J. Mackwell, 2009, What new can LRO tell us about lunar thermal evolution, interior structure and dynamics?  <em>Lunar Reconnaissance Orbiter Science Targeting Meeting</em>, Abstract [http://www.lpi.usra.edu/meetings/lro2009/pdf/6051.pdf #6051].<br />
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C. L. Johnson, T. R. Watters and S. J. Mackwell, 2009, What new can LRO tell us about lunar thermal evolution, interior structure and dynamics?  <em>Lunar Reconnaissance Orbiter Science Targeting Meeting</em>, Abstract [http://www.lpi.usra.edu/meetings/lro2009/pdf/6051.pdf" rel="nofollow #6051].<br />
 
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Revision as of 18:10, 4 January 2015

Tectonic Targets

LPOD-July8-09.jpg
image from " rel="nofollow C. L. Johnson, T. R. Watters and S. J. Mackwell

Before the Lunar Reconnaissance Orbiter arrived at the Moon, Arizona State University (the home institution of the camera team leader), hosted a meeting on selecting targets to address science questions. One of the papers in the abstract " rel="nofollow volume includes this schematic map of tectonic features. The most prominent tectonic landforms are mare ridges (yellow) and concentric rilles (some of the black lines), both due to deformation caused by massive piles of mare lavas. A potentially more interesting, smaller type of faulting is indicated by short, hard to see blue lines which represent lobate scarps. A relatively small number of these are known, most are found in the highlands which were not well covered with adequate high resolution Apollo era imaging. But with LRO meter-scale images many more of these low angle thrust faults are expected to be found. They are potentially exciting for two reasons; 1) they may record shrinkage of the Moon's diameter as it cooled, and 2) some faults look very young and their lengths suggest they may have been formed by significantly larger moonquakes than recorded by Apollo seismometers. The pale blue dots are regions to look for lobate scarps for they are the epicenters of shallow moonquakes; the deep quakes (red stars) probably have no surface manifestations. The white triangles show the very limited distribution of the Apollo seismometers; unfortunately none of the current generation of lunar spacecraft will update our nearly 40 year old lunar geophysical data sets. Pictures aren't everything.

" rel="nofollow Chuck Wood

Technical Details

Related Links
C. L. Johnson, T. R. Watters and S. J. Mackwell, 2009, What new can LRO tell us about lunar thermal evolution, interior structure and dynamics? Lunar Reconnaissance Orbiter Science Targeting Meeting, Abstract " rel="nofollow #6051.