Difference between revisions of "RoI - Compton-Belkovich Th Anomaly"

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=Compton/Belkovich Th Anomaly=
 
=Compton/Belkovich Th Anomaly=
''(Tier 2 [/Cx35 Region of Interest] for Constellation Program)''<br /> <br />  
+
''(Tier 2 [[Cx35|Region of Interest]] for Constellation Program)''<br /> <br />  
 
==Official NASA Overview==
 
==Official NASA Overview==
 
[[Image:ROI_-_Compton-Belkovich_Th_Anomaly.JPG|ROI_-_Compton-Belkovich_Th_Anomaly.JPG]]<br /> ''source: NASA [http://ser.sese.asu.edu/LSM/files/Cx-LROC-Tier2-FINAL.pdf Cx-LROC Tier 2 Targets] (PDF); see expanded details below''<br /> <div id="toc">
 
[[Image:ROI_-_Compton-Belkovich_Th_Anomaly.JPG|ROI_-_Compton-Belkovich_Th_Anomaly.JPG]]<br /> ''source: NASA [http://ser.sese.asu.edu/LSM/files/Cx-LROC-Tier2-FINAL.pdf Cx-LROC Tier 2 Targets] (PDF); see expanded details below''<br /> <div id="toc">
=Table of Contents=
+
<br />  
<div style="margin-left: 1em">[#Compton/Belkovich Th Anomaly Compton/Belkovich Th Anomaly]</div><div style="margin-left: 2em">[#Compton/Belkovich Th Anomaly-Official NASA Overview Official NASA Overview]</div><div style="margin-left: 2em">[#Compton/Belkovich Th Anomaly-Scientific Rationale Scientific Rationale]</div><div style="margin-left: 3em">[#Compton/Belkovich Th Anomaly-Scientific Rationale-Farside KREEP Th (~ 10 ppm) anomaly Farside KREEP Th (~ 10 ppm) anomaly]</div><div style="margin-left: 2em">[#Compton/Belkovich Th Anomaly-Additional Information Additional Information]</div><div style="margin-left: 2em">[#Compton/Belkovich Th Anomaly-LPOD Articles LPOD Articles]</div><div style="margin-left: 2em">[#Compton/Belkovich Th Anomaly-General Bibliography General Bibliography]</div></div><br />  
 
 
==Scientific Rationale==
 
==Scientific Rationale==
 
===Farside KREEP Th (~ 10 ppm) anomaly===
 
===Farside KREEP Th (~ 10 ppm) anomaly===
  Lunar Thorium (Th) abundances on the lunar surface can aid in the various geological processes that formed during the moon's early history, and answer questions about its subsequent evolution over time. Signatures of the radioactive componant in Th show up in KREEP-like deposits more on the Moon's nearside rather than on its farside, and it's this relationship between the two components which signify one of the last crystalisation processes of a magma ocean that may have once globally covered the Moon. Recent, high resolution measurements by both the Lunar Prospector (USA ~ 1998-99) and [/Kaguya Kaguya] (Japan ~ 2007-08) space probes, however, do show that low concentrations of Th-KREEP deposits do exist on the farside; most especially found in zones around the [/South%20Pole-Aitken%20basin South Pole-Aitken basin], and odd anomalous regions such as exists at the Compton-Belkovich borders. Both Thorium and the KREEP-rich (K - Potassium, REE - rare earth elements, P - Phosphorus) deposits are believed to have formed between the lunar crust and mantle when less dense cumulates floated upwards during the moon's evolution.<br /> <br /> '''Compton-Belkovich Anomaly'''<br />  The Th deposits at Compton-Belkovich lie in a rugged feldspathetic highlands crust region between the two inner rings (250 and 350 km in diameter respectively) of the Humboltianum Basin lying some ~ 300 km away to its south-west. Moreover, they are found to sit on the eastern side of a saddle-like outcrop whose topography is higher in a north-south direction than east-west, and whose abundance of Th is higher than on any other measured location on the lunar surface. On closer analyses of both the LP/Kaguya data, the Th-anomaly at Compton-Belkovich was found to be that of an outcrop of alkali anorthosite similar to those samples taken on location from Apollos 12 and 14. Such anorthosites are a componant in rocks that have an evolved composition associated to the Mg-suite (old ferroan anorthosites > 4.4 Bn years old) of magmas that intruded throughout the moon's crust early in pre-4 billion year lunar history. The problem, however, with the Th-anomaly at Compton-Belkovich is that no Mg-suite of rocks have been identified, and it is possible that KREEP lithologies may lay hidden below the outcrop of alkali anorthosites. More research and sampling of the area thus needs to be carried put, firstly, because the processes involved with late crystallisation aren't quite fully understood and, secondly, the anomaly may be due to a new type of rock that presently isn't available in current collections to date. <span class="membersnap">- [http://www.wikispaces.com/user/view/JohnMoore2 [[Image:JohnMoore2-lg.jpg|16px|JohnMoore2]]] [http://www.wikispaces.com/user/view/JohnMoore2 JohnMoore2]</span><br /> <br />  
+
  Lunar Thorium (Th) abundances on the lunar surface can aid in the various geological processes that formed during the moon's early history, and answer questions about its subsequent evolution over time. Signatures of the radioactive componant in Th show up in KREEP-like deposits more on the Moon's nearside rather than on its farside, and it's this relationship between the two components which signify one of the last crystalisation processes of a magma ocean that may have once globally covered the Moon. Recent, high resolution measurements by both the Lunar Prospector (USA ~ 1998-99) and [[Kaguya|Kaguya]] (Japan ~ 2007-08) space probes, however, do show that low concentrations of Th-KREEP deposits do exist on the farside; most especially found in zones around the [[South%20Pole-Aitken%20basin|South Pole-Aitken basin]], and odd anomalous regions such as exists at the Compton-Belkovich borders. Both Thorium and the KREEP-rich (K - Potassium, REE - rare earth elements, P - Phosphorus) deposits are believed to have formed between the lunar crust and mantle when less dense cumulates floated upwards during the moon's evolution.<br /> <br /> '''Compton-Belkovich Anomaly'''<br />  The Th deposits at Compton-Belkovich lie in a rugged feldspathetic highlands crust region between the two inner rings (250 and 350 km in diameter respectively) of the Humboltianum Basin lying some ~ 300 km away to its south-west. Moreover, they are found to sit on the eastern side of a saddle-like outcrop whose topography is higher in a north-south direction than east-west, and whose abundance of Th is higher than on any other measured location on the lunar surface. On closer analyses of both the LP/Kaguya data, the Th-anomaly at Compton-Belkovich was found to be that of an outcrop of alkali anorthosite similar to those samples taken on location from Apollos 12 and 14. Such anorthosites are a componant in rocks that have an evolved composition associated to the Mg-suite (old ferroan anorthosites > 4.4 Bn years old) of magmas that intruded throughout the moon's crust early in pre-4 billion year lunar history. The problem, however, with the Th-anomaly at Compton-Belkovich is that no Mg-suite of rocks have been identified, and it is possible that KREEP lithologies may lay hidden below the outcrop of alkali anorthosites. More research and sampling of the area thus needs to be carried put, firstly, because the processes involved with late crystallisation aren't quite fully understood and, secondly, the anomaly may be due to a new type of rock that presently isn't available in current collections to date. <span class="membersnap">- JohnMoore2</span><br /> <br />  
 
* Gillis, J. J. ''et al'' (2002). [http://www.higp.hawaii.edu/~gillis/abstracts/LPSC33/a_l02g02.pdf The Compton-Belkovich Region of the Moon:Remotely Sensed Observations and Lunar Sample Association] from the 33rd Lunar and Planetary Conference (2002).
 
* Gillis, J. J. ''et al'' (2002). [http://www.higp.hawaii.edu/~gillis/abstracts/LPSC33/a_l02g02.pdf The Compton-Belkovich Region of the Moon:Remotely Sensed Observations and Lunar Sample Association] from the 33rd Lunar and Planetary Conference (2002).
 
* Lawrence, D.J. ''et al'' (1999). [http://www.lunar-research-institute.org/images/science/1999/thorium_grl_1999.pdf High Resolution Measurements of Absolute Thorium Abundances on the Lunar Surface] - Geophysical Research Letters, Vol. 26, No. 17, 2681-2684(1999).
 
* Lawrence, D.J. ''et al'' (1999). [http://www.lunar-research-institute.org/images/science/1999/thorium_grl_1999.pdf High Resolution Measurements of Absolute Thorium Abundances on the Lunar Surface] - Geophysical Research Letters, Vol. 26, No. 17, 2681-2684(1999).
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[http://the-moon.us/wiki/file/detail/compton-belkovich-large.jpg [[Image:compton-belkovich-small.jpg|compton-belkovich-small.jpg]]]<br />
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[http://the-moon.us/wiki/file/detail/compton-belkovich-large.jpg [[Image:Compton-belkovich-small.jpg|compton-belkovich-small.jpg]]]<br />
 
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'''Left:''' [http://www.mapaplanet.org/explorer-bin/explorer.cgi?map=Moon&layers=moon_clementine_base_v2&west=234&south=175&east=392&north=72&center=103.75&center_lat=0&defaultcenter=on&grid=none&stretch=auto&resamp_method=nearest_neighbor&projection=SIMP&r=1&g=1&b=1&advoption=NO&info=NO&resolution=13.3333333333333&lines=360&samples=720&scale=2.27425&imageTopX=-817593.3145284653&imageTopY=2113916.5114164352&box=yes&x=386&y=168 Clementine image] from Map-A-Planet. <br /> '''Middle:''' Lunar Prospector Map of Compton-Belkovich Th-Anomaly - adapted from [http://www.lunar-research-institute.org/images/science/2000/jgr_thorium_man_and_figs.pdf Thorium Abundances on the Lunar Surface] paper (see Bibliography). <br /> '''Right:''' Clementine image - adapted from [http://www.higp.hawaii.edu/~gillis/abstracts/LPSC33/a_l02g02.pdf The Compton-Belkovich Region of the Moon] paper (see Bibliography).<br /> <br /> ''Click image for larger view''<br />
 
'''Left:''' [http://www.mapaplanet.org/explorer-bin/explorer.cgi?map=Moon&layers=moon_clementine_base_v2&west=234&south=175&east=392&north=72&center=103.75&center_lat=0&defaultcenter=on&grid=none&stretch=auto&resamp_method=nearest_neighbor&projection=SIMP&r=1&g=1&b=1&advoption=NO&info=NO&resolution=13.3333333333333&lines=360&samples=720&scale=2.27425&imageTopX=-817593.3145284653&imageTopY=2113916.5114164352&box=yes&x=386&y=168 Clementine image] from Map-A-Planet. <br /> '''Middle:''' Lunar Prospector Map of Compton-Belkovich Th-Anomaly - adapted from [http://www.lunar-research-institute.org/images/science/2000/jgr_thorium_man_and_figs.pdf Thorium Abundances on the Lunar Surface] paper (see Bibliography). <br /> '''Right:''' Clementine image - adapted from [http://www.higp.hawaii.edu/~gillis/abstracts/LPSC33/a_l02g02.pdf The Compton-Belkovich Region of the Moon] paper (see Bibliography).<br /> <br /> ''Click image for larger view''<br />
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[http://the-moon.us/wiki/file/detail/compbel-thorium-large.jpg [[Image:compbel-thorium-small.jpg|compbel-thorium-small.jpg]]]<br />
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[http://the-moon.us/wiki/file/detail/compbel-thorium-large.jpg [[Image:Compbel-thorium-small.jpg|compbel-thorium-small.jpg]]]<br />
 
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'''Left:''' [http://lunar.arc.nasa.gov/results/gamres.htm Lunar Prospector Map of Thorium] of the moon's entire surface (1998-99). <br /> '''Right:''' [http://www.kaguya.jaxa.jp/en/equipment/grs_e.htm Kaguya Map of Thorium] of the moon's entire surface (2007/08).<br /> <br /> ''Click image for larger view''<br />
 
'''Left:''' [http://lunar.arc.nasa.gov/results/gamres.htm Lunar Prospector Map of Thorium] of the moon's entire surface (1998-99). <br /> '''Right:''' [http://www.kaguya.jaxa.jp/en/equipment/grs_e.htm Kaguya Map of Thorium] of the moon's entire surface (2007/08).<br /> <br /> ''Click image for larger view''<br />
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==Additional Information==
 
==Additional Information==
  
* [/Compton Compton]
+
* [[Compton|Compton]]
* [/Bel%27kovich Bel'kovich]
+
* [[Bel%27kovich|Bel'kovich]]
 
* [http://en.wikipedia.org/wiki/Radioactive_decay Radioactive] Thorium (232) has a half-life of upto 4.1 x 10^10 years.
 
* [http://en.wikipedia.org/wiki/Radioactive_decay Radioactive] Thorium (232) has a half-life of upto 4.1 x 10^10 years.
* Amongst the *[http://lunar.arc.nasa.gov/results/gamres.htm 10 elements] measured by the [http://lunar.arc.nasa.gov/ Lunar Prospector] mission which launched on 6 January 1998 and deliberately crashed near [/Shoemaker Shoemaker] crater on 31 July 1999, an instrument onboard called the [http://lunar.arc.nasa.gov/results/gamma.htm Gamma Ray Spectrometer] was used to map the global abundance of thorium on the lunar surface.
+
* Amongst the *[http://lunar.arc.nasa.gov/results/gamres.htm 10 elements] measured by the [http://lunar.arc.nasa.gov/ Lunar Prospector] mission which launched on 6 January 1998 and deliberately crashed near [[Shoemaker|Shoemaker]] crater on 31 July 1999, an instrument onboard called the [http://lunar.arc.nasa.gov/results/gamma.htm Gamma Ray Spectrometer] was used to map the global abundance of thorium on the lunar surface.
* The [/Kaguya Kaguya] spaceprobe which launched on the 14 September 2007 and that was also intentionally crashed near [/Gill Gill] crater on the 11 June 2009, used a similar type of instrument called the [http://www.kaguya.jaxa.jp/en/equipment/grs_e.htm Gamma Ray Spectrometer] to globally map the Moon for Thorium and other elements.
+
* The [[Kaguya|Kaguya]] spaceprobe which launched on the 14 September 2007 and that was also intentionally crashed near [[Gill|Gill]] crater on the 11 June 2009, used a similar type of instrument called the [http://www.kaguya.jaxa.jp/en/equipment/grs_e.htm Gamma Ray Spectrometer] to globally map the Moon for Thorium and other elements.
* Some other areas on the Moon where Thorium/KREEP signatures show up include: [/Aristarchus Aristarchus], [/Arago Arago], [/Mairan Mairan], [/Aristillus Aristillus], [/Kepler Kepler], [/Copernicus Copernicus], [/Plato Plato], [/Montes%20Carpatus Carpathian Mountains] to [/Fra%20Mauro Fra Mauro] region, [/Van%20de%20Graaff Van de Graaff], [/Apennine%20Bench%20Formation Apennine Bench Formation], [/Montes%20Alpes Alpes Mountains], [/Sinus%20Iridum Sinus Iridum], [/Mare%20Nubium Nubium Basin], [/Tycho Tycho], [/Mare%20Humorum Humorum Basin].
+
* Some other areas on the Moon where Thorium/KREEP signatures show up include: [[Aristarchus|Aristarchus]], [[Arago|Arago]], [[Mairan|Mairan]], [[Aristillus|Aristillus]], [[Kepler|Kepler]], [[Copernicus|Copernicus]], [[Plato|Plato]], [[Montes%20Carpatus|Carpathian Mountains]] to [[Fra%20Mauro|Fra Mauro]] region, [[Van%20de%20Graaff|Van de Graaff]], [[Apennine%20Bench%20Formation|Apennine Bench Formation]], [[Montes%20Alpes|Alpes Mountains]], [[Sinus%20Iridum|Sinus Iridum]], [[Mare%20Nubium|Nubium Basin]], [[Tycho|Tycho]], [[Mare%20Humorum|Humorum Basin]].
 
<br />  *Thorium, Potassium, Uranium, Iron, Oxygen, Silicon, Aluminium, Calcium, Magensium, Lithium.<br /> <br />  
 
<br />  *Thorium, Potassium, Uranium, Iron, Oxygen, Silicon, Aluminium, Calcium, Magensium, Lithium.<br /> <br />  
 
==LPOD Articles==
 
==LPOD Articles==
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Latest revision as of 20:01, 16 April 2018

Compton/Belkovich Th Anomaly

(Tier 2 Region of Interest for Constellation Program)

Official NASA Overview

ROI_-_Compton-Belkovich_Th_Anomaly.JPG
source: NASA Cx-LROC Tier 2 Targets (PDF); see expanded details below


Scientific Rationale

Farside KREEP Th (~ 10 ppm) anomaly

Lunar Thorium (Th) abundances on the lunar surface can aid in the various geological processes that formed during the moon's early history, and answer questions about its subsequent evolution over time. Signatures of the radioactive componant in Th show up in KREEP-like deposits more on the Moon's nearside rather than on its farside, and it's this relationship between the two components which signify one of the last crystalisation processes of a magma ocean that may have once globally covered the Moon. Recent, high resolution measurements by both the Lunar Prospector (USA ~ 1998-99) and Kaguya (Japan ~ 2007-08) space probes, however, do show that low concentrations of Th-KREEP deposits do exist on the farside; most especially found in zones around the South Pole-Aitken basin, and odd anomalous regions such as exists at the Compton-Belkovich borders. Both Thorium and the KREEP-rich (K - Potassium, REE - rare earth elements, P - Phosphorus) deposits are believed to have formed between the lunar crust and mantle when less dense cumulates floated upwards during the moon's evolution.

Compton-Belkovich Anomaly
The Th deposits at Compton-Belkovich lie in a rugged feldspathetic highlands crust region between the two inner rings (250 and 350 km in diameter respectively) of the Humboltianum Basin lying some ~ 300 km away to its south-west. Moreover, they are found to sit on the eastern side of a saddle-like outcrop whose topography is higher in a north-south direction than east-west, and whose abundance of Th is higher than on any other measured location on the lunar surface. On closer analyses of both the LP/Kaguya data, the Th-anomaly at Compton-Belkovich was found to be that of an outcrop of alkali anorthosite similar to those samples taken on location from Apollos 12 and 14. Such anorthosites are a componant in rocks that have an evolved composition associated to the Mg-suite (old ferroan anorthosites > 4.4 Bn years old) of magmas that intruded throughout the moon's crust early in pre-4 billion year lunar history. The problem, however, with the Th-anomaly at Compton-Belkovich is that no Mg-suite of rocks have been identified, and it is possible that KREEP lithologies may lay hidden below the outcrop of alkali anorthosites. More research and sampling of the area thus needs to be carried put, firstly, because the processes involved with late crystallisation aren't quite fully understood and, secondly, the anomaly may be due to a new type of rock that presently isn't available in current collections to date. - JohnMoore2


compton-belkovich-small.jpg

Left: Clementine image from Map-A-Planet.
Middle: Lunar Prospector Map of Compton-Belkovich Th-Anomaly - adapted from Thorium Abundances on the Lunar Surface paper (see Bibliography).
Right: Clementine image - adapted from The Compton-Belkovich Region of the Moon paper (see Bibliography).

Click image for larger view


compbel-thorium-small.jpg

Left: Lunar Prospector Map of Thorium of the moon's entire surface (1998-99).
Right: Kaguya Map of Thorium of the moon's entire surface (2007/08).

Click image for larger view


Additional Information


*Thorium, Potassium, Uranium, Iron, Oxygen, Silicon, Aluminium, Calcium, Magensium, Lithium.

LPOD Articles

Peaking Over the Limb, A New Mare to Study, Edge World.

General Bibliography

Mostly Thorium-related papers


Mostly KREEP-related papers