Difference between revisions of "Elysium quadrangle"

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Image:Rootless Cones.jpg|Rootless Cones, as seen by HiRISE.  The chains of rings are interpreted to be caused by crust moving over a source of steam.  The steam was produced by lava interacting with water ice.
 
Image:Rootless Cones.jpg|Rootless Cones, as seen by HiRISE.  The chains of rings are interpreted to be caused by crust moving over a source of steam.  The steam was produced by lava interacting with water ice.
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ESP 037643 2060cones.jpg|Rootless Cones, as seen by HiRISE under [[HiWish program]]  These group of rings or cones are believed to be caused by lava flowing over water ice or ground containing water ice.  The ice quickly changes to steam which blows out a ring or cone.
 
ESP 037643 2060cones.jpg|Rootless Cones, as seen by HiRISE under [[HiWish program]]  These group of rings or cones are believed to be caused by lava flowing over water ice or ground containing water ice.  The ice quickly changes to steam which blows out a ring or cone.
Wikiesp37643 2060cones.jpg|Rootless Cones, as seen by HiRISE under HiWish program.  These group of rings or cones are believed to be caused by lava flowing over water ice or ground containing water ice.  The ice quickly changes to steam which blows out a ring or cone.  Here the kink in the chain may have been caused by the lava changing direction.
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Wikiesp37643 2060coneslong.jpg|Rootless Cones, as seen by HiRISE under HiWish program.  These group of rings or cones are believed to be caused by lava flowing over water ice or ground containing water ice.  The ice quickly changes to steam which blows out a ring or cone.  Here the kink in the chain may have been caused by the lava changing direction.  Some of the forms do not have the shape of rings or cones because maybe the lava moved too quickly; thereby not allowing a complete cone shape to form.
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ESP 040162 2065conesrings.jpg|Cones and possible maars, as seen by HiRISE under HiWish program
 
ESP 045384 2065lavaice.jpg|Wide view of field of rootless cones in Phlegra region, as seen by HiRISE under HiWish program
 
45384 2065cones.jpg|Close view of rootless cones with tails that suggest lava was moving toward the Southwest over ice-rich ground, as seen by HiRISE under HiWish program
 
45384 2065conesclose.jpg|Close view of cones with the size of a football field shown, as seen by HiRISE under HiWish program
 
 
ESP 045464 2175cones.jpg|Close view of cones, as seen by HiRISE under HiWish program
 
ESP 045464 2175cones.jpg|Close view of cones, as seen by HiRISE under HiWish program
 
ESP 045819 2085lavacones.jpg|Cones and surface of lava, as seen by HiRISE under HiWish program
 
ESP 045819 2085lavacones.jpg|Cones and surface of lava, as seen by HiRISE under HiWish program

Revision as of 10:10, 28 February 2020

Mars topography (MOLA dataset) HiRes (1).jpg
MC-15 Elysium 0–30° N 135–180° E Quadrangles Atlas

This quadrangle was named after Elysium, a place of reward (Heaven), according to Homer in the Odyssey.[1]

The Elysium quadrangle covers the area between 180° to 225° west longitude and 0° to 30° north latitude on Mars. A small part of the Medusae Fossae Formation lies in this quadrangle. Eddie, Lockyer, and Tombaugh are the largest craters in the Elysium quadrangle. Elysium Mons and Albor Tholus are large volcanoes in this quadrangle. Just outside the boundaries of Elysium quadrangle sits another large volcano called Hecates. There are possible giant river valleys in this area. Athabasca Valles may be one of the youngest on the planet. A large lake may once have existed in the south near Lethe Valles and Athabasca Valles.[2]

The InSight lander touched down in the southern part of this quadrangle in 2018 and is now gathering data especially on Marsquakes.

Volcanoes

The area near the volcanoes of Elysium is covered with lava flows. On close examination, some flows can even be seen to approach and then stop when reaching higher ground. (See pictures below for examples) The top of a lava flow often cools quickly , forming a hard crust, but it still moves under the crust. Such movement breaks up the top layer making it very rough.[3] Such rough flow is called aa lava. The lava flows here are of the aa variety.

Some places in the Elysium quadrangle are young geological. Some researchers call them Platy-Ridged-Polygonized terrain. The surface of this terrain has been suggested to be pack ice, basalt lava, or muddy flows. HiRISE images show the heights of the surface ridges to be usually less than 2 meters. This is far less than what is expected from lava flows. In addition the high resolution photos of HiRISE indicates that the surface appears to flow. This would not occur with pack ice. So, the researchers concluded that muddy flows cover the surface.[4] For a while, many believed the surface was made of ice flows, which it resembles.

Rootless cones

"Rootless cones" are caused by explosions of lava with ground ice under a hot lava flow.[5] [6] [7] The ice melts and turns into a vapor and creates a cone or ring. These cones are found in Iceland, in places where lava covers water-saturated ground.[8] [9] [10]

References

  1. Blunck, J. 1982. Mars and its Satellites. Exposition Press. Smithtown, N.Y.
  2. "Cabrol, N 2010">Cabrol, N. and E. Grin (eds.). 2010. Lakes on Mars. Elsevier. NY.
  3. http://hirise.lpl.arizona.edu/PSP_010744_1840 | title=Southern Margin of Cerberus Palus (PSP_010744_1840) |
  4. Yue, Z., et al. 2017. AN INVESTIGATION OF THE HYPOTHESES FOR FORMATION OF THE PLATY-RIDGEDPOLYGONIZED TERRAIN IN ELYSIUM PLANITIA, MARS. Lunar and Planetary Science XLVIII (2017). 1770.pdf
  5. Keszthelyi, L. et al. 2010. Hydrovolcanic features on Mars: Preliminary observations from the first Mars year of HiRISE. Icarus: 205, 211-229. imaging
  6. http://www.psrd.hawaii.edu/June01/lavaIceMars.html
  7. Lanagan, P., A. McEwen, L. Keszthelyi, and T. Thordarson. 2001. Rootless cones on Mars indicating the presence of shallow equatorial ground ice in recent times, Geophysical Research Letters: 28, 2365-2368.
  8. S. Fagents1, A., P. Lanagan, R. Greeley. 2002. Rootless cones on Mars: a consequence of lava-ground ice interaction. Geological Society, Londo. Special Publications: 202, 295-317.
  9. http://www.psrd.hawaii.edu/June01/lavaIceMars.
  10. Jaeger, W., L. Keszthelyi, A. McEwen, C. Dundas, P. Russell, and the HiRISE team. 2007. EARLY HiRISE OBSERVATIONS OF RING/MOUND LANDFORMS IN ATHABASCA VALLES, MARS. Lunar and Planetary Science XXXVIII 1955.pdf.