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Gusev (Martian crater)

August 25, 2023

Gusev is a crater on the planet Mars and is located at 14°30′S 175°24′E / 14.5°S 175.4°E / -14.5; 175.4 and is in the Aeolis quadrangle. The crater is about 166 kilometers in diameter and formed approximately three to four billion years ago. It was named after Russian astronomer Matvey Gusev (1826–1866) in 1976.

Gusev
The Martian crater Gusev, with Ma'adim Vallis snaking into it
PlanetMars
RegionAeolis quadrangle
Coordinates14°30′S 175°24′E / 14.5°S 175.4°E / -14.5; 175.4[1]
QuadrangleAeolis
Diameter166 km
EponymMatvey Gusev
Viking Orbiter 1 mosaic of Gusev crater and vicinity including Ma'adim Vallis

Prior to the exploration of the crater by the Spirit Rover, the crater was postulated to be an ancient lakebed with Ma'adim Vallis draining into it, of volcaniclastic origin, or a combination of both. These interpretations were based on Viking orbiter imagery, MOC imagery, THEMIS thermal mapping, and MOLA elevation mapping. However, Spirit did not find any lacustrine deposits, instead Spirit found alkaline volcanic rocks, including olivine basalt, comminuted basaltic debris, lavas, and pyroclastic rocks, but no eruption centers.[2][3]

Panoramic photo taken by Spirit Rover on January 1, 2006 from the crater Gusev, looking up a slope and across rippled sand deposits in a dark field dubbed "El Dorado".

More recently, satellite images showed the trails of dust devils on Gusev's floor. The Spirit rover later photographed dust devils from the ground, and likely owes much of its longevity to dust devils cleaning its solar panels.

On January 3, 2004, Gusev was the landing site of the first of NASA's two Mars Exploration Rovers, named Spirit. It was hoped that the numerous smaller and more recent craters in this region would have exposed sedimentary material from early eras, although at first the region proved disappointing in its lack of available bedrock for study on the flat lava plains of the crater. It eventually arrived at the Columbia Hills, however, and rocks examined in that region showed evidence of small amounts of briny (salty) water interacting with them in ancient times,[4] although not nearly as much as at Meridiani Planum, the landing area for Spirit's twin, Opportunity. In 2009, Spirit became stuck in the soil of the region, and in 2010 went offline after a harsh Martian winter. Gusev was also considered a potential landing site for the Mars 2020 Perseverance rover.

Spirit Rover's rocks and minerals discoveries on Mars Edit

The rocks on the plains of Gusev are a type of basalt. They contain the minerals olivine, pyroxene, plagioclase, and magnetite, and they look like volcanic basalt as they are fine-grained with irregular holes (geologists would say they have vesicles and vugs).[5][6] Much of the soil on the plains came from the breakdown of the local rocks. Fairly high levels of nickel were found in some soils; probably from meteorites.[7] Analysis shows that the rocks have been slightly altered by tiny amounts of water. Outside coatings and cracks inside the rocks suggest water deposited minerals, maybe bromine compounds. All the rocks contain a fine coating of dust and one or more harder rinds of material. One type can be brushed off, while another needed to be ground off by the Rock Abrasion Tool (RAT).[8]

There are a variety of rocks in the Columbia Hills (Mars), some of which have been altered by water, but not by very much water.

The dust in Gusev Crater is the same as dust all around the planet. All the dust was found to be magnetic. Moreover, Spirit found the magnetism was caused by the mineral magnetite, especially magnetite that contained the element titanium. One magnet was able to completely divert all dust hence all Martian dust is thought to be magnetic.[9] The spectra of the dust was similar to spectra of bright, low thermal inertia regions like Tharsis and Arabia that have been detected by orbiting satellites. A thin layer of dust, maybe less than one millimeter thick covers all surfaces. Something in it contains a small amount of chemically bound water.[10][11]

Plains Edit

Observations of rocks on the plains show they contain the minerals pyroxene, olivine, plagioclase, and magnetite. These rocks can be classified in different ways. The amounts and types of minerals make the rocks primitive basalts—also called picritic basalts. The rocks are similar to ancient terrestrial rocks called basaltic komatiites. Rocks of the plains also resemble the basaltic shergottites, meteorites which came from Mars. One classification system compares the amount of alkali elements to the amount of silica on a graph; in this system, Gusev plains rocks lie near the junction of basalt, picrobasalt, and tephrite. The Irvine-Barager classification calls them basalts.[5] Plain's rocks have been very slightly altered, probably by thin films of water because they are softer and contain veins of light colored material that may be bromine compounds, as well as coatings or rinds. It is thought that small amounts of water may have gotten into cracks inducing mineralization processes.[6][5] Coatings on the rocks may have occurred when rocks were buried and interacted with thin films of water and dust. One sign that they were altered was that it was easier to grind these rocks compared to the same types of rocks found on Earth.

  •  

    First color picture from Gusev crater. Rocks were found to be basalt. Everything was covered with a fine dust that Spirit determined was magnetic because of the mineral magnetite.

  •  

    Cross-sectional drawing of a typical rock from the plains of Gusev crater. Most rocks contain a coating of dust and one or more harder coatings. Veins of water-deposited veins are visible, along with crystals of olivine. Veins may contain bromine salts.

  •  

    An approximate true-color view of the rock nicknamed Adirondack, taken by Spirit's pancam

  •  

    Digital camera image (from Spirit's Pancam) of Adirondack after a RAT grind (Spirit's rock grinding tool)

Columbia Hills Edit

Scientists found a variety of rock types in the Columbia Hills, and they placed them into six different categories. The six are: Clovis, Wishbone, Peace, Watchtower, Backstay, and Independence. They are named after a prominent rock in each group. Their chemical compositions, as measured by APXS, are significantly different from each other.[12] Most importantly, all of the rocks in Columbia Hills show various degrees of alteration due to aqueous fluids.[13] They are enriched in the elements phosphorus, sulfur, chlorine, and bromine—all of which can be carried around in water solutions. The Columbia Hills’ rocks contain basaltic glass, along with varying amounts of olivine and sulfates.[14][15] The olivine abundance varies inversely with the amount of sulfates. This is exactly what is expected because water destroys olivine but helps to produce sulfates.

The Clovis group is especially interesting because the Mössbauer spectrometer(MB) detected goethite in it.[16] Goethite forms only in the presence of water, so its discovery is the first direct evidence of past water in the Columbia Hills's rocks. In addition, the MB spectra of rocks and outcrops displayed a strong decline in olivine presence,[14] although the rocks probably once contained much olivine.[17] Olivine is a marker for the lack of water because it easily decomposes in the presence of water. Sulfate was found, and it needs water to form. Wishstone contained a great deal of plagioclase, some olivine, and anhydrate (a sulfate). Peace rocks showed sulfur and strong evidence for bound water, so hydrated sulfates are suspected. Watchtower class rocks lack olivine consequently they may have been altered by water. The Independence class showed some signs of clay (perhaps montmorillonite a member of the smectite group). Clays require fairly long term exposure to water to form. One type of soil, called Paso Robles, from the Columbia Hills, may be an evaporate deposit because it contains large amounts of sulfur, phosphorus, calcium, and iron.[18] Also, MB found that much of the iron in Paso Robles soil was of the oxidized, Fe+++ form, which would happen if water had been present.[10]

Towards the middle of the six-year mission (a mission that was supposed to last only 90 days), large amounts of pure silica were found in the soil. The silica could have come from the interaction of soil with acid vapors produced by volcanic activity in the presence of water or from water in a hot spring environment.[19]

After Spirit stopped working scientists studied old data from the Miniature Thermal Emission Spectrometer, or Mini-TES and confirmed the presence of large amounts of carbonate-rich rocks, which means that regions of the planet may have once harbored water. The carbonates were discovered in an outcrop of rocks called "Comanche."[20][21]

In summary, Spirit found evidence of slight weathering on the plains of Gusev, but no evidence that a lake was there. However, in the Columbia Hills there was clear evidence for a moderate amount of aqueous weathering. The evidence included sulfates and the minerals goethite and carbonates which only form in the presence of water. It is believed that Gusev crater may have held a lake long ago, but it has since been covered by igneous materials. All the dust contains a magnetic component which was identified as magnetite with some titanium. Furthermore, the thin coating of dust that covers everything on Mars is the same in all parts of Mars.

Features within Gusev Edit

Hills Edit

  • The Columbia Hills is a range of low hills 3 km from Spirit's original landing site; Spirit explored within them
  • The Apollo 1 Hills are three widely spaced hills 7–14 km away from Spirit's landing site

Craters Edit

  • Bonneville is a 200-metre crater visited by Spirit
  • Crivitz is a smaller crater located within Gusev
  • Thira is a crater located within Gusev, and could be seen from the summit of Husband Hill

Other Edit

  • Sleepy Hollow is a shallow depression near Spirit's landing site
  • Adirondack is the name of the first rock visited by Spirit
  • Home Plate is a layered geological feature recently studied by Spirit

Landing site Edit

Gusev crater was one of three candidates for a landing site for the Mars 2020 rover as of 2017.[22] Columbia Hills was previously explored by Spirit rover,[22] which after several years of activity stopped communicating in 2010.

Other landing site candidates for the Mars 2020 rover, by 2017, were Northeast Syrtis (Syrtis Major)and Jezero crater.[22]

In popular culture Edit

  • Gusev Crater is the landing site of the Mars Consortium mission in Gregory Benford's 1999 novel The Martian Race.[23]
  • The setting of the 2009 Doctor Who episode "The Waters of Mars" is Bowie Base One, in Gusev Crater.[24]
  • Gusev Crater is featured in the science fiction TV series Defying Gravity as the location of the Alpha extraterrestrial signal central to the plot. It was also the landing location of the failed Mars mission that took place in 2042.

Interactive Mars map Edit

 
Interactive image map of the global topography of Mars, overlaid with the position of Martian rovers and landers. Coloring of the base map indicates relative elevations of Martian surface.
  Clickable image: Clicking on the labels will open a new article.
Legend:   Active (white lined, ※)  Inactive  Planned (dash lined, ⁂)

See also Edit

References Edit

  1. ^ "Gusev". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  2. ^ McSween, Harry; Moersch, Jeffrey; Burr, Devon; Dunne, William; Emery, Joshua; Kah, Linda; McCanta, Molly (2019). Planetary Geoscience. Cambridge: Cambridge University Press. pp. 178–184, 296–300. ISBN 9781107145382.
  3. ^ Burnham, Robert (9 April 2014). "Gusev Crater once held a lake after all, says ASU Mars scientist". Arizona State University. Retrieved 2014-04-10.
  4. ^ . AGU. Archived from the original on 2012-02-04. Retrieved 2006-07-18.
  5. ^ a b c McSween; et al. (2004). "Basaltic Rocks Analyzed by the Spirit Rover in Gusev Crater". Science. 305 (5685): 842–845. Bibcode:2004Sci...305..842M. doi:10.1126/science.3050842. PMID 15297668.
  6. ^ a b Arvidson, R. E.; et al. (2004). "Localization and Physical Properties Experiments Conducted by Spirit at Gusev Crater". Science. 305 (5685): 821–824. Bibcode:2004Sci...305..821A. doi:10.1126/science.1099922. PMID 15297662. S2CID 31102951.
  7. ^ Gellert, Ralf; et al. (2006). "The Alpha Particle X-ray Spectrometer (APXS): results from Gusev crater and calibration report". Journal of Geophysical Research: Planets. 111 (E2): n/a. Bibcode:2006JGRE..111.2S05G. doi:10.1029/2005je002555. hdl:2060/20080026124. S2CID 129432577.
  8. ^ Christensen, P. (August 2004). "Initial Results from the Mini-TES Experiment in Gusev Crater from the Spirit Rover". Science. 305 (5685): 837–842. Bibcode:2004Sci...305..837C. doi:10.1126/science.1100564. PMID 15297667. S2CID 34983664.
  9. ^ Bertelsen, P.; et al. (2004). "Magnetic Properties on the Mars Exploration Rover Spirit at Gusev Crater". Science. 305 (5685): 827–829. Bibcode:2004Sci...305..827B. doi:10.1126/science.1100112. PMID 15297664. S2CID 41811443.
  10. ^ a b Bell, J., ed. (2008). The Martian Surface. Cambridge University Press. ISBN 978-0-521-86698-9.
  11. ^ Gellert, Ralf; et al. (2004). "Chemistry of Rocks and Soils in Gusev Crater from the Alpha Particle X-ray Spectrometer". Science. 305 (5685): 829–32. Bibcode:2004Sci...305..829G. doi:10.1126/science.1099913. PMID 15297665. S2CID 30195269.
  12. ^ Squyres, S.; et al. (2006). "Rocks of the Columbia Hills". Journal of Geophysical Research: Planets. 111 (E2): n/a. Bibcode:2006JGRE..111.2S11S. doi:10.1029/2005je002562.
  13. ^ Ming, D.; et al. (2006). "Geochemical and mineralogical indicators for aqueous processes in the Columbia Hills of Gusev crater". Journal of Geophysical Research: Planets. 111 (E2): n/a. Bibcode:2006JGRE..111.2S12M. doi:10.1029/2005je002560. hdl:1893/17114.
  14. ^ a b Schroder, C.; et al. (2005). European Geosciences Union, General Assembly, Geophysical Research Abstr. 7: 10254. {{cite journal}}: Missing or empty |title= (help)
  15. ^ Christensen, P.R. (23–27 May 2005). . AGU Joint Assembly. Archived from the original on 13 May 2013. Retrieved 16 January 2012.
  16. ^ Klingelhofer, G.; et al. (2005). Lunar Planet. Sci. XXXVI: abstr. 2349. {{cite journal}}: Missing or empty |title= (help)
  17. ^ Morris, S.; et al. (2006). "Mossbauer mineralogy of rock, soil, and dust at Gusev crater, Mars: Spirit's journal through weakly altered olivine basalt on the plains and pervasively altered basalt in the Columbia Hills". Journal of Geophysical Research: Planets. 111 (E2): n/a. Bibcode:2006JGRE..111.2S13M. doi:10.1029/2005je002584. hdl:1893/17159.
  18. ^ Ming, D.; et al. (2006). "Geochemical and mineralogical indicators for aqueous processes in the Columbia Hills of Gusev crater, Mars" (PDF). Journal of Geophysical Research: Planets. 111 (E2): n/a. Bibcode:2006JGRE..111.2S12M. doi:10.1029/2005je002560. hdl:1893/17114.
  19. ^ "Mars Rover Spirit Unearths Surprise Evidence of Wetter Past". NASA. 2007-05-21.
  20. ^ Morris, R. V.; Ruff, S. W.; Gellert, R.; Ming, D. W.; Arvidson, R. E.; Clark, B. C.; Golden, D. C.; Siebach, K.; Klingelhofer, G.; Schroder, C.; Fleischer, I.; Yen, A. S.; Squyres, S. W. (2010). "Outcrop of long-sought rare rock on Mars found". Science. 329 (5990): 421–424. Bibcode:2010Sci...329..421M. doi:10.1126/science.1189667. PMID 20522738. S2CID 7461676.
  21. ^ Morris, Richard V.; Ruff, Steven W.; Gellert, Ralf; Ming, Douglas W.; Arvidson, Raymond E.; Clark, Benton C.; Golden, D. C.; Siebach, Kirsten; et al. (3 June 2010). "Identification of Carbonate-Rich Outcrops on Mars by the Spirit Rover". Science. 329 (5990): 421–4. Bibcode:2010Sci...329..421M. doi:10.1126/science.1189667. PMID 20522738. S2CID 7461676.
  22. ^ a b c "Scientists Shortlist Three Landing Sites for Mars 2020". NASA/JPL. 11 February 2017. Retrieved 2017-02-15.
  23. ^ Benford, Gregory (1999). The Martian Race. New York: Warner Aspect. ISBN 978-0-446-52633-3. LCCN 99-049124.
  24. ^ Davies, Russell T; Ford, Phil (March 3, 2009). (PDF). BBC Books. p. 9. Archived from the original (PDF) on May 8, 2013. Retrieved June 2, 2014.

External links Edit

 
Wikimedia Commons has media related to Gusev Crater.
  • Google Mars zoomable map - centered on Gusev
  • Colored THEMIS VIS picture, inside the crater

August 25, 2023
gusev, martian, crater, gusev, crater, planet, mars, located, aeolis, quadrangle, crater, about, kilometers, diameter, formed, approximately, three, four, billion, years, named, after, russian, astronomer, matvey, gusev, 1826, 1866, 1976, gusevthe, martian, cr. Gusev is a crater on the planet Mars and is located at 14 30 S 175 24 E 14 5 S 175 4 E 14 5 175 4 and is in the Aeolis quadrangle The crater is about 166 kilometers in diameter and formed approximately three to four billion years ago It was named after Russian astronomer Matvey Gusev 1826 1866 in 1976 GusevThe Martian crater Gusev with Ma adim Vallis snaking into itPlanetMarsRegionAeolis quadrangleCoordinates14 30 S 175 24 E 14 5 S 175 4 E 14 5 175 4 1 QuadrangleAeolisDiameter166 kmEponymMatvey GusevViking Orbiter 1 mosaic of Gusev crater and vicinity including Ma adim VallisPrior to the exploration of the crater by the Spirit Rover the crater was postulated to be an ancient lakebed with Ma adim Vallis draining into it of volcaniclastic origin or a combination of both These interpretations were based on Viking orbiter imagery MOC imagery THEMIS thermal mapping and MOLA elevation mapping However Spirit did not find any lacustrine deposits instead Spirit found alkaline volcanic rocks including olivine basalt comminuted basaltic debris lavas and pyroclastic rocks but no eruption centers 2 3 Panoramic photo taken by Spirit Rover on January 1 2006 from the crater Gusev looking up a slope and across rippled sand deposits in a dark field dubbed El Dorado More recently satellite images showed the trails of dust devils on Gusev s floor The Spirit rover later photographed dust devils from the ground and likely owes much of its longevity to dust devils cleaning its solar panels On January 3 2004 Gusev was the landing site of the first of NASA s two Mars Exploration Rovers named Spirit It was hoped that the numerous smaller and more recent craters in this region would have exposed sedimentary material from early eras although at first the region proved disappointing in its lack of available bedrock for study on the flat lava plains of the crater It eventually arrived at the Columbia Hills however and rocks examined in that region showed evidence of small amounts of briny salty water interacting with them in ancient times 4 although not nearly as much as at Meridiani Planum the landing area for Spirit s twin Opportunity In 2009 Spirit became stuck in the soil of the region and in 2010 went offline after a harsh Martian winter Gusev was also considered a potential landing site for the Mars 2020 Perseverance rover Contents 1 Spirit Rover s rocks and minerals discoveries on Mars 1 1 Plains 1 2 Columbia Hills 2 Features within Gusev 2 1 Hills 2 2 Craters 2 3 Other 3 Landing site 4 In popular culture 5 Interactive Mars map 6 See also 7 References 8 External linksSpirit Rover s rocks and minerals discoveries on Mars EditThe rocks on the plains of Gusev are a type of basalt They contain the minerals olivine pyroxene plagioclase and magnetite and they look like volcanic basalt as they are fine grained with irregular holes geologists would say they have vesicles and vugs 5 6 Much of the soil on the plains came from the breakdown of the local rocks Fairly high levels of nickel were found in some soils probably from meteorites 7 Analysis shows that the rocks have been slightly altered by tiny amounts of water Outside coatings and cracks inside the rocks suggest water deposited minerals maybe bromine compounds All the rocks contain a fine coating of dust and one or more harder rinds of material One type can be brushed off while another needed to be ground off by the Rock Abrasion Tool RAT 8 There are a variety of rocks in the Columbia Hills Mars some of which have been altered by water but not by very much water The dust in Gusev Crater is the same as dust all around the planet All the dust was found to be magnetic Moreover Spirit found the magnetism was caused by the mineral magnetite especially magnetite that contained the element titanium One magnet was able to completely divert all dust hence all Martian dust is thought to be magnetic 9 The spectra of the dust was similar to spectra of bright low thermal inertia regions like Tharsis and Arabia that have been detected by orbiting satellites A thin layer of dust maybe less than one millimeter thick covers all surfaces Something in it contains a small amount of chemically bound water 10 11 Plains Edit Observations of rocks on the plains show they contain the minerals pyroxene olivine plagioclase and magnetite These rocks can be classified in different ways The amounts and types of minerals make the rocks primitive basalts also called picritic basalts The rocks are similar to ancient terrestrial rocks called basaltic komatiites Rocks of the plains also resemble the basaltic shergottites meteorites which came from Mars One classification system compares the amount of alkali elements to the amount of silica on a graph in this system Gusev plains rocks lie near the junction of basalt picrobasalt and tephrite The Irvine Barager classification calls them basalts 5 Plain s rocks have been very slightly altered probably by thin films of water because they are softer and contain veins of light colored material that may be bromine compounds as well as coatings or rinds It is thought that small amounts of water may have gotten into cracks inducing mineralization processes 6 5 Coatings on the rocks may have occurred when rocks were buried and interacted with thin films of water and dust One sign that they were altered was that it was easier to grind these rocks compared to the same types of rocks found on Earth First color picture from Gusev crater Rocks were found to be basalt Everything was covered with a fine dust that Spirit determined was magnetic because of the mineral magnetite Cross sectional drawing of a typical rock from the plains of Gusev crater Most rocks contain a coating of dust and one or more harder coatings Veins of water deposited veins are visible along with crystals of olivine Veins may contain bromine salts An approximate true color view of the rock nicknamed Adirondack taken by Spirit s pancam Digital camera image from Spirit s Pancam of Adirondack after a RAT grind Spirit s rock grinding tool Columbia Hills Edit Scientists found a variety of rock types in the Columbia Hills and they placed them into six different categories The six are Clovis Wishbone Peace Watchtower Backstay and Independence They are named after a prominent rock in each group Their chemical compositions as measured by APXS are significantly different from each other 12 Most importantly all of the rocks in Columbia Hills show various degrees of alteration due to aqueous fluids 13 They are enriched in the elements phosphorus sulfur chlorine and bromine all of which can be carried around in water solutions The Columbia Hills rocks contain basaltic glass along with varying amounts of olivine and sulfates 14 15 The olivine abundance varies inversely with the amount of sulfates This is exactly what is expected because water destroys olivine but helps to produce sulfates The Clovis group is especially interesting because the Mossbauer spectrometer MB detected goethite in it 16 Goethite forms only in the presence of water so its discovery is the first direct evidence of past water in the Columbia Hills s rocks In addition the MB spectra of rocks and outcrops displayed a strong decline in olivine presence 14 although the rocks probably once contained much olivine 17 Olivine is a marker for the lack of water because it easily decomposes in the presence of water Sulfate was found and it needs water to form Wishstone contained a great deal of plagioclase some olivine and anhydrate a sulfate Peace rocks showed sulfur and strong evidence for bound water so hydrated sulfates are suspected Watchtower class rocks lack olivine consequently they may have been altered by water The Independence class showed some signs of clay perhaps montmorillonite a member of the smectite group Clays require fairly long term exposure to water to form One type of soil called Paso Robles from the Columbia Hills may be an evaporate deposit because it contains large amounts of sulfur phosphorus calcium and iron 18 Also MB found that much of the iron in Paso Robles soil was of the oxidized Fe form which would happen if water had been present 10 Towards the middle of the six year mission a mission that was supposed to last only 90 days large amounts of pure silica were found in the soil The silica could have come from the interaction of soil with acid vapors produced by volcanic activity in the presence of water or from water in a hot spring environment 19 After Spirit stopped working scientists studied old data from the Miniature Thermal Emission Spectrometer or Mini TES and confirmed the presence of large amounts of carbonate rich rocks which means that regions of the planet may have once harbored water The carbonates were discovered in an outcrop of rocks called Comanche 20 21 In summary Spirit found evidence of slight weathering on the plains of Gusev but no evidence that a lake was there However in the Columbia Hills there was clear evidence for a moderate amount of aqueous weathering The evidence included sulfates and the minerals goethite and carbonates which only form in the presence of water It is believed that Gusev crater may have held a lake long ago but it has since been covered by igneous materials All the dust contains a magnetic component which was identified as magnetite with some titanium Furthermore the thin coating of dust that covers everything on Mars is the same in all parts of Mars Features within Gusev EditHills Edit The Columbia Hills is a range of low hills 3 km from Spirit s original landing site Spirit explored within them Husband Hill is one of these hills McCool Hill is the tallest of the Columbia Hills Larry s Lookout is within Columbia Hills The Apollo 1 Hills are three widely spaced hills 7 14 km away from Spirit s landing siteCraters Edit Bonneville is a 200 metre crater visited by Spirit Crivitz is a smaller crater located within Gusev Thira is a crater located within Gusev and could be seen from the summit of Husband HillOther Edit Sleepy Hollow is a shallow depression near Spirit s landing site Adirondack is the name of the first rock visited by Spirit Home Plate is a layered geological feature recently studied by SpiritLanding site EditGusev crater was one of three candidates for a landing site for the Mars 2020 rover as of 2017 22 Columbia Hills was previously explored by Spirit rover 22 which after several years of activity stopped communicating in 2010 Other landing site candidates for the Mars 2020 rover by 2017 were Northeast Syrtis Syrtis Major and Jezero crater 22 In popular culture EditGusev Crater is the landing site of the Mars Consortium mission in Gregory Benford s 1999 novel The Martian Race 23 The setting of the 2009 Doctor Who episode The Waters of Mars is Bowie Base One in Gusev Crater 24 Gusev Crater is featured in the science fiction TV series Defying Gravity as the location of the Alpha extraterrestrial signal central to the plot It was also the landing location of the failed Mars mission that took place in 2042 Interactive Mars map Edit Interactive image map of the global topography of Mars overlaid with the position of Martian rovers and landers Coloring of the base map indicates relative elevations of Martian surface Clickable image Clicking on the labels will open a new article Legend Active white lined Inactive Planned dash lined view discuss Beagle 2 Curiosity Deep Space 2 Rosalind Franklin InSight Mars 2 Mars 3 Mars 6 Mars Polar Lander Opportunity Perseverance Phoenix Schiaparelli EDM Sojourner Spirit Zhurong Viking 1 Viking 2See also EditAeolis quadrangle Composition of Mars Geography of Mars Geology of Mars Impact crater Impact event List of craters on Mars Ore resources on Mars Planetary nomenclature Scientific information from the Mars Exploration Rover mission Spirit rover for Spirit s journey within GusevReferences Edit Gusev Gazetteer of Planetary Nomenclature USGS Astrogeology Research Program McSween Harry Moersch Jeffrey Burr Devon Dunne William Emery Joshua Kah Linda McCanta Molly 2019 Planetary Geoscience Cambridge Cambridge University Press pp 178 184 296 300 ISBN 9781107145382 Burnham Robert 9 April 2014 Gusev Crater once held a lake after all says ASU Mars scientist Arizona State University Retrieved 2014 04 10 Aqueous processes at Gusev crater inferred from physical properties of rocks and soils along the Spirit traverse AGU Archived from the original on 2012 02 04 Retrieved 2006 07 18 a b c McSween et al 2004 Basaltic Rocks Analyzed by the Spirit Rover in Gusev Crater Science 305 5685 842 845 Bibcode 2004Sci 305 842M doi 10 1126 science 3050842 PMID 15297668 a b Arvidson R E et al 2004 Localization and Physical Properties Experiments Conducted by Spirit at Gusev Crater Science 305 5685 821 824 Bibcode 2004Sci 305 821A doi 10 1126 science 1099922 PMID 15297662 S2CID 31102951 Gellert Ralf et al 2006 The Alpha Particle X ray Spectrometer APXS results from Gusev crater and calibration report Journal of Geophysical Research Planets 111 E2 n a Bibcode 2006JGRE 111 2S05G doi 10 1029 2005je002555 hdl 2060 20080026124 S2CID 129432577 Christensen P August 2004 Initial Results from the Mini TES Experiment in Gusev Crater from the Spirit Rover Science 305 5685 837 842 Bibcode 2004Sci 305 837C doi 10 1126 science 1100564 PMID 15297667 S2CID 34983664 Bertelsen P et al 2004 Magnetic Properties on the Mars Exploration Rover Spirit at Gusev Crater Science 305 5685 827 829 Bibcode 2004Sci 305 827B doi 10 1126 science 1100112 PMID 15297664 S2CID 41811443 a b Bell J ed 2008 The Martian Surface Cambridge University Press ISBN 978 0 521 86698 9 Gellert Ralf et al 2004 Chemistry of Rocks and Soils in Gusev Crater from the Alpha Particle X ray Spectrometer Science 305 5685 829 32 Bibcode 2004Sci 305 829G doi 10 1126 science 1099913 PMID 15297665 S2CID 30195269 Squyres S et al 2006 Rocks of the Columbia Hills Journal of Geophysical Research Planets 111 E2 n a Bibcode 2006JGRE 111 2S11S doi 10 1029 2005je002562 Ming D et al 2006 Geochemical and mineralogical indicators for aqueous processes in the Columbia Hills of Gusev crater Journal of Geophysical Research Planets 111 E2 n a Bibcode 2006JGRE 111 2S12M doi 10 1029 2005je002560 hdl 1893 17114 a b Schroder C et al 2005 European Geosciences Union General Assembly Geophysical Research Abstr 7 10254 a href Template Cite journal html title Template Cite journal cite journal a Missing or empty title help Christensen P R 23 27 May 2005 Mineral Composition and Abundance of the Rocks and Soils at Gusev and Meridiani from the Mars Exploration Rover Mini TES Instruments AGU Joint Assembly Archived from the original on 13 May 2013 Retrieved 16 January 2012 Klingelhofer G et al 2005 Lunar Planet Sci XXXVI abstr 2349 a href Template Cite journal html title Template Cite journal cite journal a Missing or empty title help Morris S et al 2006 Mossbauer mineralogy of rock soil and dust at Gusev crater Mars Spirit s journal through weakly altered olivine basalt on the plains and pervasively altered basalt in the Columbia Hills Journal of Geophysical Research Planets 111 E2 n a Bibcode 2006JGRE 111 2S13M doi 10 1029 2005je002584 hdl 1893 17159 Ming D et al 2006 Geochemical and mineralogical indicators for aqueous processes in the Columbia Hills of Gusev crater Mars PDF Journal of Geophysical Research Planets 111 E2 n a Bibcode 2006JGRE 111 2S12M doi 10 1029 2005je002560 hdl 1893 17114 Mars Rover Spirit Unearths Surprise Evidence of Wetter Past NASA 2007 05 21 Morris R V Ruff S W Gellert R Ming D W Arvidson R E Clark B C Golden D C Siebach K Klingelhofer G Schroder C Fleischer I Yen A S Squyres S W 2010 Outcrop of long sought rare rock on Mars found Science 329 5990 421 424 Bibcode 2010Sci 329 421M doi 10 1126 science 1189667 PMID 20522738 S2CID 7461676 Morris Richard V Ruff Steven W Gellert Ralf Ming Douglas W Arvidson Raymond E Clark Benton C Golden D C Siebach Kirsten et al 3 June 2010 Identification of Carbonate Rich Outcrops on Mars by the Spirit Rover Science 329 5990 421 4 Bibcode 2010Sci 329 421M doi 10 1126 science 1189667 PMID 20522738 S2CID 7461676 a b c Scientists Shortlist Three Landing Sites for Mars 2020 NASA JPL 11 February 2017 Retrieved 2017 02 15 Benford Gregory 1999 The Martian Race New York Warner Aspect ISBN 978 0 446 52633 3 LCCN 99 049124 Davies Russell T Ford Phil March 3 2009 The Waters of Mars PDF BBC Books p 9 Archived from the original PDF on May 8 2013 Retrieved June 2 2014 External links Edit Wikimedia Commons has media related to Gusev Crater Google Mars zoomable map centered on Gusev Colored THEMIS VIS picture inside the crater Portal Solar System Retrieved from https en wikipedia org w index php title Gusev Martian crater amp oldid 1170206355, wikipedia, wiki, book, books, library,

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