Identification and visualisation of possible ancient ocean shoreline on Mars using submeter-resolution Digital Terrain Models

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Digital Terrain Models (DTMs) produced from stereoscopic, submeter-resolution High Resolution Imaging Science Experiment (HiRISE) imagery provide a solid basis for all morphometric analyses of the surface of Mars. In view of the fact that a more effective use of DTMs is hindered by complicated and time-consuming manual handling, the automated process provided by specialists of the Ames Intelligent Robotics Group (NASA), Ames Stereo Pipeline, constitutes a good alternative. Four DTMs, covering the global dichotomy boundary between the southern highlands and northern lowlands along the line of the presumable Arabia shoreline, were produced and analysed. One of them included forms that are likely to be indicative of an oceanic basin that extended across the lowland northern hemisphere of Mars in the geological past. The high resolution DTMs obtained were used in the process of landscape visualisation.

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  • Auld K.S. & Dixon J.C. 2014. Classification of Martian gullies from HiRISE imagery. Lunar and Planetary Institute Science Conference Abstracts 45 45th Lunar and Planetary Science Conference Woodlands USA. LPI Contribution 1777 1270.

  • Barnhart C.J. Tulaczyk S. Asphaug E. Kraal E.R. & Moore J. 2005. Ice-ridge pile up and the genesis of Martian “shorelines”. Lunar and Planetary Institute Science Conference Abstracts 36 36th Lunar and Planetary Science Conference League City USA. LPI Contribution 1560.

  • Bibring J.-P. Langevin Y. Gendrin A. Gondet B. Poulet F. Berthé M. Soufflot A. Arvidson R. Mangold N. Mustard J. Drossart P. & the OMEGA team 2005. Mars Surface Diversity as Revealed by the OMEGA/ Mars Express Observations. Science 307 1576-1581 doi: 10.1126/science.1108806.

  • Bibring J.-P. Langevin Y. Mustard J.F. Poulet F. Arvidson R. Gendrin A. Gondet B. Mangold N. Pinet P. Forget F. & the OMEGA team 2006. Global Mineralogical and Aqueous Mars History Derived from OMEGA/Mars Express Data. Science 312 400-404 doi: 10.1126/science.1122659.

  • Brown D. Cole S. Webster G. Agle D.C. Chicoine R.A. Rickman J. Hoover R. Mitrofanov I. Ravine M. Hassler D. Cuesta L. Jones N.N. Barnstorff K. Faccio R. Apuzzo M.L.J. & Pagán V.M. 2013. The Mars Science Laboratory Landing. World Neurosurgery 79 223-242.

  • Broxton M. & Edwards L. 2008. The Ames Stereo Pipeline: Automated 3D surface reconstruction from orbital imagery. Lunar and Planetary Institute Science Conference Abstracts 39 39th Lunar and Planetary Science Conference League City USA. LPI Contribution 1391 2419.

  • Carr M.H. & Head J.W. 2003. Oceans on Mars: An assessment of the observational evidence and possible fate. Journal of Geophysical Research 108 E5 5042 1-28 doi: 10.1029/2002JE001963.

  • Carr M.H. & Head J.W. 2010. Geologic history of Mars. Earth and Planetary Science Letters 294 185-203.

  • Clifford S.M. & Parker T.J. 2001. The evolution of the Martian hydrosphere: Implications for the fate of a primordial ocean and the current state of the Northern plains. Icarus 154 40-79.

  • De Reu J. Bourgeois J. Bats M. Zwertvaegher A. Gelorini V. De Smedt P. Chu W. Antrop M. De Maeyer P. Finke P. Van Meirvenne M. Verniers J. & Crombé P. 2013. Application of the topographic position index to heterogeneous landscapes. Geomorphology 186 39-49.

  • Dickson J.L. & Head J.W. 2009. The formation and evolution of youthful gullies on Mars: Gullies as the latestage phase of Mars’ most recent ice age. Icarus 204 63-86 doi:10.1016/j.icarus.2009.06.018.

  • Fairén A.G. 2010. A cold and wet Mars. Icarus 208 165-175.

  • Fairén A.G. Davila A.F. Schulze-Makuch D. Rodríguez J.A.P. & McKay C.P. 2012. Glacial paleoenvironments on Mars revealed by the paucity of hydrated silicates in the Noachian crust of the Northern Lowlands. Planetary and Space Science 70 126-133.

  • Gaddis L.Anderson J. Becker K. Becker T. Cook D. Edwards K. Eliason E. Hare T. Kieffer H. Lee E. M. Mathews J. Soderblom L. Sucharski T. Torson J. McEwen A. & Robinson M. 1997. An Overview of the Integrated Software for Imaging Spectrometers (ISIS). Proceedings of the 28th Annual Lunar and Planetary Science Conference Houston USA Abstract 1226. 387-388.

  • Ghatan G.J. & Zimbelman J.R. 2006. Paucity of candidate coastal constructional landforms along proposed shorelines on Mars: Implications for a northern lowlands-filling ocean. Icarus 185 doi: 10.1016/j. icarus.2006.06.007.

  • Grotzinger J.P. & Milliken R.E. 2012. The sedimentary rock record of Mars: Distribution origins and global stratigraphy in Sedimentary Geology of Mars. SEPM Special Publication 102 1-48.

  • Grotzinger J.P. Sumner D.Y. Kah L.C. Stack K. Gupta S. Edgar L. Rubin D. Lewis K. Schieber J. Mangold N. Milliken R. Conrad P.G. DesMarais D. Farmer J. Siebach K. Calef III F. Hurowitz J. McLennan S.M. Ming D. Vaniman D. Crisp J. Vasavada A. Edgett K.S. Malin M. Blake D. Gellert R. Mahaffy P. Wiens R.C. Maurice S. Grant J.A. Wilson S. Anderson R.C. Beegle L. Arvidson R. Hallet B. Sletten R.S. Rice M. Bell III J. Griffes J. Ehlmann B. Anderson R.B. Bristow T.F. Dietrich W.E. Dromart G. Eigenbrode J. Fraeman A. Hardgrove C. Herkenhoff K. Jandura L. Kocurek G. Lee S. Leshin L.A. Leveille R. Limonadi D. Maki J. McCloskey S. Meyer M. Minitti M. Newsom H. Oehler D. Okon A. Palucis M. Parker T. Rowland S. Schmidt M. Squyres S. Steele A. Stolper E. Summons R. Treiman A. Williams R. Yingst A. & MSL Science Team 2014. A habitable fluvio-lacustrine environment at Yellowknife Bay Gale Crater Mars. Science 343 6169 doi:10.1126/science.1242777.

  • Hare T.M. 2010. A Case for a PDS Supported Cartographic Raster Library. Lunar and Planetary Institute Science Conference Abstracts 41 41th Lunar and Planetary Science Conference Woodlands USA. LPI Contribution 1533 2728.

  • Hartmann W.K. Kallenbach R. Geiss J. & Turner G. 2001. Summary: New views and new directions in Mars research. Space Science Reviews 96 461-470.

  • Head J.W. Kreslavsky M.A. & Pratt S. 2002. Northern lowlands of Mars: Evidence for widespread volcanic flooding and tectonic deformation in the Hesperian Period. Journal of Geophysical Research 107 5003; doi: 10.1029/2000JE001445.

  • Kasting J.F. Whitmire D.P. & Reynolds R.T. 1993. Habitable zones around Main Sequence Stars. Icarus 101 108-128.

  • Kennelly P.J. 2008. Terrain maps displaying hill-shading with curvature. Geomorphology 102 567-577 doi: 10.1016/j.geomorph.2008.05.046.

  • Kirk R.L. Howington-Kraus E. Rosiek M.R. Anderson J.A. Archinal B.A. Becker K.J. Cook D.A. Galuszka D.M. Geissler P.E. Hare T.M. Holmberg I.M. Keszthelyi L.P. Redding B.L. Delamere W.A. Gallagher D. Chapel J.D. Eliason E.M. King R. & McEwen A.S. 2008. Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: Meter-scale slopes of candidate Phoenix landing sites. Journal of Geophysical Research 113 E00A24 1-31 doi:10.1029/2007JE003000.

  • Kraal E.R. Asphaug E. Moore J.M. & Lorenz R.D. 2006. Quantitative geomorphic modeling of Martian bedrock shorelines. Journal of Geophysical Research 111 E03001 1-13 doi:10.1029/2005JE002567.

  • Leshin L.A. Mahaffy P.R. Webster C.R. Cabane M. Coll P. Conrad P.G. Archer P.D. Atreya S.K. Brunner A.E. Buch A. Eigenbrode J.L. Flesch G.J. Franz H.B. Freissinet C. Glavin D.P. McAdam A.C. Miller K.E. Ming D.W. Morris R.V. Navarro- González R. Niles P.B. Owen T. Pepin R.O. Squyres S. Steele A. Stern J.C. Summons R.E. Sumner D.Y. Sutter B. Szopa C. Teinturier S. Trainer M.G. Wray J.J. Grotzinger J.P. & MSL Science Team 2013. Volatile isotope and organic analysis of Martian fines with the Mars Curiosity Rover. Science 341 6153 1-9 doi:10.1126/science.1238937.

  • Malin M.C. Bell Iii J.F. Cantor B.A. Caplinger M.A. Calvin W.M. Clancy R.T. Edgett K.S. Edwards L. Haberle R.M. & James P.B. 2007. Context camera investigation on board the Mars Reconnaissance Orbiter. Journal of Geophysical Research 112 E05S04 1-25 doi:10.1029/2006JE002808.

  • Malin M. C. & Edgett K. S. 2000. Sedimentary rocks of Early Mars Science 290(5498) 1927-1937 doi: 10.1126/ science.290.5498.1927.

  • Malin M. C. & Edgett K. S. 2003. Evidence for persistent flow and aqueous sedimentation on Early Mars Science 302(5652) 1931-1934 doi: 10.1126/science. 1090544.

  • Malin M.C. Edgett K.S. Cantor B.A. Caplinger M.A. Danielson G.E. Jensen E.H. Ravine M.A. Sandoval J.L. & Supulver K.D. 2010. An overview of the 1985-2006 Mars Orbiter Camera science investigation. Mars 5 1-60.

  • Marchant D.R. & Head J.W. 2007. Antarctic dry valleys: Microclimate zonation variable geomorphic processes and implications for assessing climate change on Mars. Icarus 192 187-222 doi:10.1016/j. icarus.2007.06.018.

  • McEwen A.S. Eliason E.M. Bergstrom J.W. Bridges N.T. Hansen C.J. Delamere W.A. Grant J.A. Gulick V.C. Herkenhoff K.E. Keszthelyi L. Kirk R.L. Mellon M.T. Squyres S.W. Thomas N. & Weitz C.M. 2007. Mars Reconnaissance Orbiter’s High Resolution Imaging Science Experiment (HiRISE). Journal of Geophysical Research: Planets 112 E05S02 1-40 doi:10.1029/2005JE002605.

  • McMahon S.K. 1996. Overview of the Planetary Data System. Planetary and Space Science 44 3-12.

  • Moore J.M. & Howard A.D. 2005. Large alluvial fans on Mars. Journal of Geophysical Research 110 E04005 1-24 doi:10.1029/2004JE002352.

  • Moratto Z.M. Broxton M.J. Beyer R.A. Lundy M. & Husmann K. 2010. Ames Stereo Pipeline NASA’s Open Source Automated Stereogrammetry Software. Lunar and Planetary Institute Science Conference Abstracts 41 41st Lunar and Planetary Science Conference Woodlands USA. LPI Contribution 1533 2364.

  • Mustard J.F. Murchie S. Pelkey S. Ehlmann B. Milliken R. Grant J. Bibring J.-P. Poulet F. Bishop J. Dobrea E.N. Roach L. Seelos F.R. Arvidson E. Wiseman S. Green R. Hash C. Humm D. Malaret E. McGovern J.A. Seelos K. Clancy T. Clark R. Des Marais D. Izenberg N. Knudson A. Langevin Y. Martin T. McGuire P. Morris R. Robinson M. Roush T. Smith M. Swayze G. Taylor H. Titus T. & Wolff M. 2008. Hydrated silicate minerals on Mars observed by the Mars Reconnaissance Orbiter CRISM instrument. Nature 454 305-309 doi: 10.1038/ nature07097.

  • NASA Ames Research Center 2013. The Ames Stereo Pipeline: NASA’s Open Source Automated Stereogrammetry Software. A Part of the NASA NeoGeography Toolkit. Version 2.2.2. NASA.

  • Neukum G. Jaumann R. & HRSC Co-Investigator Team 2004. HRSC: The High Resolution Stereo Camera of Mars Express. ESA Special Publications SP-1240.

  • Nimmo F. & Tanaka K. 2005. Early Crustal Evolution of Mars. Annual Review of Earth and Planetary Sciences 33 133-161 doi:10.1146/annurev. earth.33.092203.122637.

  • Parker T.J. & Currey D.R. 2001. Extraterrestrial coastal geomorphology. Geomorphology 37 303-328.

  • Poulet F. Bibring J.-P. Mustard J.F. Gendrin A. Mangold N. Langevin Y. Arvidson R.E. Gondet B. Gomez C. & Omega Team 2005. Phyllosilicates on Mars and implications for early Martian climate. Nature 438 623-627 doi:10.1038/nature04274.

  • Smith D.E. Zuber M.T. Frey H.V. Garvin J.B. Head J.W. Muhleman D.O. Pettengill G.H. Phillips R.J. Solomon S.C. Zwally H.J. Banerdt W.B. Duxbury T.C. Golombek M.P. Lemoine F.G. Neumann G.A. Rowlands D.D. Aharonson O. Ford P.G. Ivanov A.B. Johnson C.L. McGovern P.J. Abshire J.B. Afzal R.S. & Sun X. 2001. Mars Orbiter Laser Altimeter: Experiment summary after the first year of global mapping of Mars. Journal of Geophysical Research 106 23689-23722.

  • Squyres S.W. Grotzinger J.P. Arvidson R.E. Bell III J.F. Calvin W. Christensen P.R. Clark B.C. Crisp J.A. Farrand W.H. Herkenhoff K.E. Johnson J.R. Klingelhöfer G. Knoll A. H. McLennan S.M. McSween Jr. H. Y. Morris R.V. Rice Jr. J.W. Rieder R. & Soderblom L.A. 2004. In situ evidence for an ancient aqueous environment at Meridiani Planum Mars. Science 306 5702 1709-1714 doi:10.1126/science. 1104559.

  • Tagil S. & Jenness J. 2008. GIS-based automated landform classification and topographic landcover and geologic attributes of landforms around the Yazoren Polje Turkey. Journal of Applied Sciences 8 910-921. Webb V.E. 2004. Putative shorelines in northern Arabia Terra Mars. Journal of Geophysical Research: Planets 109 E09010 1-12 doi: 10.1029/2003JE002205.

  • Webster C.R. Mahaffy P.R. Flesch G.J. Niles P.B. Jones J.H. Leshin L.A. Atreya S.K. Stern J.C. Christensen L.E. Owen T. Franz H. Pepin R.O. Steele A. & MSL Science Team 2013. Isotope ratios of H C and O in CO2 and H2O of the Martian atmosphere. Science 341(6143) 260-263.

  • Williams R.M.E. Grotzinger J.P. Dietrich W.E. Gupta S. Sumner D.Y. Wiens R.C. Mangold N. Malin M.C. Edgett K.S. Maurice S. Forni O. Gasnault O. Ollila A. Newsom H.E. Dromart G. Palucis M.C. Yingst R.A. Anderson R.B. Herkenhoff K.E. Le Mouélic S. Goetz W. Madsen M.B. Koefoed A. Jensen J.K. Bridges J.C. Schwenzer S.P. Lewis K.W. Stack K.M. Rubin D. Kah L.C. Bell J.F. Farmer J.D. Sullivan R. Van Beek T. Blaney D.L. Pariser O. Deen R.G. & MSL Science Team 2013. Martian fluvial conglomerates at Gale Crater. Science 340(6136) 1068-1072.

  • Wood L.J. 2006. Quantitative geomorphology of the Mars Eberswalde Delta. Geological Society of America Bulletin 118 557-566.

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