Difference between revisions of "January 22, 2006"

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=A Corner of Decay=
 
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<p>[[File:Putredinis-SbarENH.jpg|PalusPetredinus-Sbarufatti]]<br />
 
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<p>[[File:Putredinis-SbarENH.jpg|PalusPetredinus-Sbarufatti]]<br />
 
 
<em>image by [mailto:elyx69@libero.it Gerardo Sbarufatti]</em></p>
 
<em>image by [mailto:elyx69@libero.it Gerardo Sbarufatti]</em></p>
 
<p>Palus Putredinus doesn’t sound like a place anyone would want to visit, but many lunar geologists would love to land there and in fact the Apollo 15 astronauts did. Rather than being an area of decay this region is a key to the structure of the Imbrium basin and even the evolution of the early Moon. The shadow-filled crater at upper left is Archimedes, and part of the Apennine Mountains – the Imbrium basin rim – makes a diagonal line near bottom right. The smooth mare material is Palus Putredinus itself and the older looking hilly and less smooth area carries the unofficial geologic name of the Apennine Bench Formation (ABF). From samples collected by Apollo 15 astronauts and remote sensing studies we know that the ABF includes a special type of material called KREEP. KREEP is enriched in potassium (K), rare earth elements (REE) and phosphorus (P) and is relatively rare on the Moon – mostly occurring around Imbrium. KREEP seems to have existed at great depth beneath where the Imbrium basin was formed and was distributed in Imbrium ejecta and as volcanism in the ABF. The KREEP component is hypothesized to have formed at the end of the magma ocean – a global melting of the Moon at the end of its formation. As you observe the Hadley Rille – here partially covered by Apennine peak shadows – look around at the less dramatic material that is directly descended from the ancient magma ocean a billion years earlier.</p>
 
<p>Palus Putredinus doesn’t sound like a place anyone would want to visit, but many lunar geologists would love to land there and in fact the Apollo 15 astronauts did. Rather than being an area of decay this region is a key to the structure of the Imbrium basin and even the evolution of the early Moon. The shadow-filled crater at upper left is Archimedes, and part of the Apennine Mountains – the Imbrium basin rim – makes a diagonal line near bottom right. The smooth mare material is Palus Putredinus itself and the older looking hilly and less smooth area carries the unofficial geologic name of the Apennine Bench Formation (ABF). From samples collected by Apollo 15 astronauts and remote sensing studies we know that the ABF includes a special type of material called KREEP. KREEP is enriched in potassium (K), rare earth elements (REE) and phosphorus (P) and is relatively rare on the Moon – mostly occurring around Imbrium. KREEP seems to have existed at great depth beneath where the Imbrium basin was formed and was distributed in Imbrium ejecta and as volcanism in the ABF. The KREEP component is hypothesized to have formed at the end of the magma ocean – a global melting of the Moon at the end of its formation. As you observe the Hadley Rille – here partially covered by Apennine peak shadows – look around at the less dramatic material that is directly descended from the ancient magma ocean a billion years earlier.</p>
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<strong>Related Links:</strong><br />
 
<strong>Related Links:</strong><br />
 
Rükl chart 22</p>
 
Rükl chart 22</p>
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<p><b>Yesterday's LPOD:</b> [[January 21, 2006|Apollo 17 - An Alternate Reality]] </p>
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<p><b>Tomorrow's LPOD:</b> [[January 23, 2006|Name That Basin Rim!]] </p>
 
<p><i>Note: One of the benefits of LPOD now being a blog is that it is easy for viewers - you - to leave comments about the images or texts; please click the word &#8220;Comments&#8221; to the right to enter yours. You must first register to leave comments, but that is painless - click the word &#8220;register&#8221; to the upper right.</i></p>
 
<p><i>Note: One of the benefits of LPOD now being a blog is that it is easy for viewers - you - to leave comments about the images or texts; please click the word &#8220;Comments&#8221; to the right to enter yours. You must first register to leave comments, but that is painless - click the word &#8220;register&#8221; to the upper right.</i></p>
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Latest revision as of 19:23, 7 February 2015

A Corner of Decay

PalusPetredinus-Sbarufatti
image by Gerardo Sbarufatti

Palus Putredinus doesn’t sound like a place anyone would want to visit, but many lunar geologists would love to land there and in fact the Apollo 15 astronauts did. Rather than being an area of decay this region is a key to the structure of the Imbrium basin and even the evolution of the early Moon. The shadow-filled crater at upper left is Archimedes, and part of the Apennine Mountains – the Imbrium basin rim – makes a diagonal line near bottom right. The smooth mare material is Palus Putredinus itself and the older looking hilly and less smooth area carries the unofficial geologic name of the Apennine Bench Formation (ABF). From samples collected by Apollo 15 astronauts and remote sensing studies we know that the ABF includes a special type of material called KREEP. KREEP is enriched in potassium (K), rare earth elements (REE) and phosphorus (P) and is relatively rare on the Moon – mostly occurring around Imbrium. KREEP seems to have existed at great depth beneath where the Imbrium basin was formed and was distributed in Imbrium ejecta and as volcanism in the ABF. The KREEP component is hypothesized to have formed at the end of the magma ocean – a global melting of the Moon at the end of its formation. As you observe the Hadley Rille – here partially covered by Apennine peak shadows – look around at the less dramatic material that is directly descended from the ancient magma ocean a billion years earlier.

Chuck Wood

Technical Details:
17 January 2006, 8″ SCT Celestron + 2X Barlow + KamPro02 camera + red filter; 1000 stacked images.
Related Links:
Rükl chart 22

Yesterday's LPOD: Apollo 17 - An Alternate Reality

Tomorrow's LPOD: Name That Basin Rim!

Note: One of the benefits of LPOD now being a blog is that it is easy for viewers - you - to leave comments about the images or texts; please click the word “Comments” to the right to enter yours. You must first register to leave comments, but that is painless - click the word “register” to the upper right.


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