Keywords
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
References
Aben LK (2003) Compositional and thermophysical analysis of Martian aeolian dunes. Master of Science thesis, Arizona State University, Tempe
Allen JRL, Collinson JD (1974) The superimposition and classification of dunes formed by unidirectional aqueous flows. Sediment Geol 12:169–178
Amos CL, King EL (1984) Bedforms of the Canadian eastern seaboard: a comparison with global occurrences. Mar Geol 57:167–208
Andreotti B, Fourriere A, Ould-Kaddour F, Murray B, Claudin P (2009) Size of giant aeolian dunes limited by the average depth of the atmospheric boundary layer. Nature 457:1120–1123
Araújo AD, Parteli EJR, Pöschel T, Andrade JS, Herrmann HJ (2013) Numerical modeling of the wind flow over a transverse dune. Scientific Reports 3, Article number: 2858. doi:10.1038/srep02858
Ashley GM (1990) Classification of large-scale subaqueous bedforms: a new look at an old problem-SEPM bedforms and bedding structures. J Sediment Petrol 60(1):160–172
Bagnold RA (1941) The physics of brown sand and desert dunes. Methuen, London
Baker VR (2009) The channeled scabland: a retrospective. Annu Rev Earth Planet Sci 37:6.1–6.19
Belcher D, Veverka J, Sagan C (1971) Mariner photography of Mars and aerial photography of Earth: some analogies. Icarus 15:241–252
Best J (2005) The fluid dynamics of river dunes: a review and some future research directions. J Geophys Res 110:F04S02. doi:10.1029/2004JF000218
Bourke MC (2005) Alluvial fans on dunes in Kaiser Crater suggest niveo-aeolian and denivation processes on Mars. Lunar Planet Sci Conf XXXVI, abstract #2373, Houston
Bourke MC (2006) A new model for linear dune formation: merged barchan convoys on Mars. Lunar Planet Sci Conf XXXVII, abstract #2432, Houston
Bourke MC, Wilson SA, Zimbelman JR (2003) The variability of transverse aeolian ridges in troughs on Mars. Lunar Planet Sci XXXIV, abstract #2090, Houston
Bourke MC, Balme M, Zimbelman JR (2004) A comparative analysis of barchan dunes in the intra-crater dune fields and the North Polar Sand Sea. Lunar Planet Sci XXXV, abstract 1453, Houston
Bourke MC, Edgett KS, Cantor BA (2008) Recent aeolian dune change on Mars. Geomorphology 94:247–255
Bourke MC, Goudie AS (2009) Varieties of barchan dunes in the Namib Desert and on Mars. Aeolian Research, 1:45–54. doi:10.1016/j.aeolia.2009.05.002 PDF
Bourke MC, Lancaster N, Fenton LK, Parteli EJR, Zimbelman JR, Radebaugh J (2010) Extraterrestrial dunes: an introduction to the special issue on planetary dune systems. Geomorphology. doi:10.1016/j.geomorph.2010.04.007
Breed CS (1977) Terrestrial analogs of the Hellespontus dunes, Mars. Icarus 30(2):326–340
Breed CS, Grolier MJ, McCauley JF (1979) Morphology and distribution of common ‘sand’ dunes on Mars: Comparison with the Earth, Journal of Geophysical Research 84(B14):8183–8204, doi:10.1029/JB084iB14p08183
Bridges NT, Bourke MC, Geissler PE, Banks ME, Colon C, Diniega S, Golombek MP, Hansen CJ, Mattson S, McEwen AS, Mellon MT, Stantzos N, Thomson BJ (2011) Planet-wide sand motion on Mars. Geology 40:31–34. doi:10.1130/G32373.1
Bridges NT, Ayoub F, Avouac JP, Leprince S, Lucas A, Mattson S (2012) Earth-like sand fluxes on Mars. Nature 485(7398):339–342. doi:10.1038/nature11022
Bridges N, Geissler P, Silvestro S, Banks M (2013) Bedform migration on mars: current results and future plans. Aeolian Res 9:133–151. doi:10.1016/j.aeolia.2013.02.004
Bristow CS, Augustinus PC, Wallis IC, Jol HM, Rhodes EJ (2010) Investigation of the age and migration of reversing dunes in Antarctica using GPR and OSL, with implications for GPR on Mars. Earth Planet Sci Lett 289:30–42
Burr DM, Carling PA, Beyer RA, Lancaster N (2004) Flood-formed dunes in Athabasca Valles, Mars: morphology, modeling, and implications. Icarus 171:68–83
Cardinale M, Komatsu G, Silvestro S, Tirsch D (2012) The influence of local topography for wind direction on Mars: two examples of dune fields in crater basins. Earth Surf Process Landf 37:1437–1443. doi:10.1002/esp.3289
Cardinale M, Silvestro S, Vaz DA, Michaels TI, Marinangeli L, Komatsu G, Okubo CH (2013) Evidences for sand motion in Herschel crater (Mars). 44th Lunar Planet Sci Conf, abstract #2259, Houston
Carling PA (1996) Morphology, sedimentology and palaeohydraulic significance of large gravel dunes, Altai Mountains, Siberia. Sedimentology 43:647–664. doi:10.1111/j.1365-3091.1996.tb02184.x
Carling PA, Gölz E, Orr HG, Radecki-Pawlik A (2000) The morphodynamics of fluvial sand dunes in the River Rhine, near Mainz, Germany. I. Sedimentology and morphology. Sedimentology 47:227–252
Chojnacki M, Burr DM, Moersch JE, Michaels TI (2011) Orbital observations of contemporary dune activity in Endeavour Crater, Meridiani Planum, Mars. J Geophys Res 116:E00F19. doi:10.1029/2010JE003675
Claudin P, Andreotti B (2006) A scaling law for aeolian dunes on Mars, Venus, Earth, and for subaqueous ripples. Earth Planet Sci Lett 252(1–2):30–44
Cutts JA, Smith RSU (1973) Eolian deposits and dunes on Mars. J Geophys Res 78(20):4139–4154. doi:10.1029/JB078i020p04139
Daya Sagar BS, Murtzy MBR, Radhakrishnan P (2002) Avalanches in a numerically simulated sand dune dynamics. Fractals 11(2):183–193
Durán O, Moore LJ (2013) Vegetation controls on the maximum size of coastal dunes. Proc Natl Acad Sci U S A. doi:10.1073/pnas.1307580110
Durán O, Schwämmle V, Herrmann HJ (2005) Breeding and solitary wave behavior of dunes. Phys Rev E Stat Nonlinear Soft Matter Phys 72:1–5
Edgett KS, Blumberg DG (1994) Star and linear dunes on Mars. Icarus 112(2):448–464
Elbelrhiti H (2012) Initiation and early development of barchan dunes: a case study of the Moroccan Atlantic Sahara desert. Geomorphology 138(1):181–188
Elder J (2006) Aeolian dunes and sandstone: overview. http://web.ncf.ca/aa456/sand/overview/index.html
Endo N, Taniguchi K, Katsuki A (2004) Observation of the whole process of interaction between barchans by flume experiments. Geophys Res Lett 31:12503
Engel P (1981) Length of flow separation over dunes. J Hydr Div 107(10):1133–1143
Fenton LK (2006) Dune migration and slip face advancement in the Rabe Crater dune field, Mars. Geophys Res Lett 33:L20201. doi:10.1029/2006GL027133
Fenton LK, Hayward RK (2010) Southern high latitude dune fields on Mars: morphology, aeolian inactivity, and climate change. Geomorphology 121:98–121
Fenton LK, Toigo AD, Richardson MI (2005) Aeolian processes in Proctor Crater on Mars: Mesoscale modeling of dune-forming winds, J. Geophys. Res., 110, E06005, doi:10.1029/2004JE002309
Flemming BW (2000) On the dimensional adjustment of subaqueous dunes in response to changing flow conditions: a conceptual process model. In: Trentesaux A, Garlan T (eds) Proceedings marine sandwave dynamics international workshop, 23–24 Mar 2000, University of Lille 1, France, pp 61–67
Fryberger SG, Ahlbrandt TS (1979) Mechanisms for the formation of aeolian sand seas. Z Geomorphol 23:440–460
Gardin E, Allemand P, Quantin C, Silvestro S, Delacourt C (2012) Dune fields on Mars: recorders of a climate change? Planet Space Sci 60:314–321
Gifford FA (1964) The Martian canals according to a purely aeolian hypothesis. Icarus 3:130–135
Glenn M (ed) (1979) Glossary. McKee ED (ed) U.S. Geological Survey professional paper vol 1052. U.S. Geological Survey, Reston, Virginia. pp 399–407
Greeley R, Arvidson RE (1990) Aeolian processes on Venus. Earth Moon Planets 50(51):127–157
Greeley R, Iversen JD (1985) Wind as a geological process on Earth, Mars, Venus and Titan. Cambridge University Press, Cambridge
Greeley R, Binder K, Thomas PE, Schubert G, Limonadi D, Weitz CM (1995) Wind-related features and processes on Venus: summary of Magellan results. Icarus 115:399–420
Grotzinger JP, Arvidson RE, Bell JF III, Calvin W, Clark BC, Fike DA, Golombek M, Greeley R, Haldemann A, Herkenhoff KE, Jolliff BL, Knoll AH, Malin M, McLennan SM, Parker T, Soderblom L, Sohl-Dickstein JN, Squyres SW, Tosca NJ, Watters WA (2005) Stratigraphy and sedimentology of a dry to wet eolian depositional system, Burns formation, Meridiani Planum, Mars. Earth Planet Sci Lett 240(1):11–72
Hack JT (1941) Dunes of the western Navajo country. Geograph Rev 31:240–263
Hansen CJ, Bourke M, Bridges NT, Byrne S et al (2011) Seasonal erosion and restoration of Mars’ northern polar dunes. Science 331:575–578. doi:10.1126/science.1197636
Hayward RK, Mullins KF, Fenton LK, Hare TM, Titus TN, Bourke M, Colprete A, Christensen PR (2007) Mars Global Digital Dune Database and initial science results. J. Geophys. Res. 112, E11007. http://dx.doi.org/10.1029/2007JE002943
Hayward RK, Fenton LK, Tanaka KL, Mullins KF, Titus TN, Bourke MC, Hare TM, Christensen PR (2008) Mars global digital dune database. Distribution in North Polar region and comparison to equatorial region. Lunar Planet Sci Conf XXXIX, abstract # 1208, Houston
Hayward RK, Titus TN, Michaels TI, Fenton LK, Colaprete A, Christensen PR (2009) Aeolian dunes as ground truth for atmospheric modeling on Mars. J Geophys Res 114:E11012. doi:10.1029/2009JE003428
Hayward RK, Fenton LK, Tanaka KL, Titus TN, Colaprete A, Christensen PR (2010) Mars global digital dune database; MC-1: U.S. Geological Survey open-file report 2010-1170
Herget J (2005) Reconstruction of Pleistocene ice-dammed lake outburst floods in the Altai Mountains, Siberia, The Geological Society of America special paper. Geological Society of America, Boulder, p 386
Herrmann HJ, Durán O, Parteli EJR, Schatz V (2008) Vegetation and Induration as Sand Dunes Stabilizators. Journal of Coastal Research: 24(6): pp. 1357–1368. doi: http://dx.doi.org/10.2112/08A-0011.1
Herkenhoff KE, Vasavada AR (1999) Dark material in the polar layered deposits and dunes on Mars. J Geophys Res (Planets) 104:16,487–16,500
Horgan BHN, Bell III JF (2012) Seasonally active slipface avalanches in the north polar sand sea of Mars: Evidence for a wind-related origin, Geophys. Res. Lett., 39, L09201, doi:10.1029/2012GL051329
Hunter RE (1977) Basic types of stratification in small eolian dunes. Sedimentology 24:361–387
Knaapen MAF, van Bergen Henegouw CN, Hu YY (2005) Quantifying bedform migration using multi-beam sonar. Geol-Marine Lett 25(5):306–314
Kocurek G, Ewing RC (2005) Aeolian dune field self-organization – implications for the formation of simple versus complex dune-field patterns. Geomorphology 72:94–105
Kocurek G, Havholm KG (1993) Eolian sequence stratigraphy-a conceptual framework. In: Weimer P, Posamentier H (eds) Siliciclastic sequence stratigraphy. American Association of Petroleum Geologists, Tulsa, pp 393–409
Kocurek G, Lancaster N (1999) Aeolian sediment states: theory and Mojave Desert Kelso Dune field example. Sedimentology 46(3):505–516. doi:10.1046/j.1365-3091.1999.00227.x
Lahtela H, Titus TN, Geissler PE, Roach LH, Verba CA, Mustard JF, Murchie SL, Brown AJ, Seelos F, Seelos K, Calvin WM, Parente M, Cornwall C (2009) Coordinated HiRISE/CRISM observation on gypsum signature in Martian polar dunes. Lunar and planetary institute science conference abstracts, p 2254
Laity JJ (2009) Deserts and desert environments. Wiley, Chichester, West Sussex, UK p 360
Lancaster N (1995) Geomorphology of Desert Dunes. Routledge, New York, p 312
Lancaster N (1996) Field studies of sand patch initiation processes on the northern margin of the Namib sand sea. Earth Surf Process Landf 21(10):947–954
Langevin Y, Poulet F, Bibring JP, Gondet B (2005) Sulfates in the north polar region of Mars detected by OMEGA/Mars Express. Science 307(5715):1584–1586
Livingstone I, Warren A (1996) Aeolian geomorphology. Addison Wesley Longman, Harlow, p 211
Livingstone I, Bristow C, Bryant RG, Bullard J, White K, Wiggs GFS, Baas ACW, Bateman MD, Thomas DSG (2010) The Namib Sand Sea digital database of aeolian dunes and key forcing variables. Aeolian Research, 2(2), p. 93–104. doi:10.1016/j.aeolia.2010.08.001
Lobo FJ, Hernández-Molina FJ, Somoza L, Rodero J, Maladonado A, Barnolas A (2000) Patterns of bottom current flow deduced from dune asymmetries over the Gulf of Cadiz shelf (southwest Spain). Mar Geol 164:91–117
Lorenz RD, Claudin P, Andreotti BM, Radebaugh J, Tokano T (2010) A 3 km atmospheric boundary layer on Titan indicated by dune spacing and Huygens data. Icarus 205:719–721
Luo W, Dong Z, Qian G, Lu J (2012) Wind tunnel simulation of the three-dimensional airflow patterns behind cuboid obstacles at different angles of wind incidence, and their significance for the formation of sand shadows. Geomorphology 139–140:258–270
Martínez ML, Psuty NP, Lubke RA (2004) A perspective on coastal dunes. In: Martínez ML, Psuty NP (eds) Coastal dunes, ecology and conservation. Springer, Berlin/Heidelberg, pp 3–11
McCauley JF, Carr MH, Cutts JA, Hartmann WK, Masursky H, Milton DJ, Sharp RP, Wilhelms DE (1972) Preliminary Mariner 9 report on the geology of Mars. Icarus 17:289–327
McKee ED (1979) Introduction to a study of global sand seas. In: McKee ED (ed) U.S. Geological Survey professional paper, vol 1052. pp 3–17
Moore HJ (1985) The Martian dust storm of sol 1742. J Geophys Res (Planets) 90:163–174
Nordstrom KF, Jackson NL (1994) Aeolian processes and dune fields in estuaries. Phys Geogr 15(4):358–371
Núñez-González F, Martín-Vide JP (2011) Analysis of antidune migration direction. J Geophys Res 116:F02004. doi:10.1029/2010JF001761
Parteli EJR, Durán O, Herrmann HJ (2007) The minimal size of a barchan dune. Phys Rev E 75:01130, arXiv:0705.1778
Parteli EJR, Durán O, Tsoar H, Schwämmle V, Herrmann HJ (2009) Dune formation under bimodal winds. Proc Natl Acad Sci U S A 106(52):22085–22089
Petrich C, Eicken H, Polashenski CM, Sturm M, Harbeck J, Perovich DK, Finnegan DC (2012) Snow dunes: a controlling factor of melt pond distribution on Arctic sea ice. J Geophys Res doi:10.1029/2012JC008192 (in press)
Pye K, Tsoar H (1990) Aeolian sand and sand dunes. Unwin Hyman, London, p 396
Radebaugh J, Lorenz R, Farr T, Paillou P, Savage C, Spencer C (2010) Linear dunes on Titan and earth: initial remote sensing comparison. Geomorphology 121:122–132
Reffet E, Courrech du Pont S, Hersen P, Douady S (2010) Supplementary information: formation and stability of transverse and longitudinal sand dunes. Geology 38:491–494 (1–20)
Roach LH, Mustard JF, Murchie S, Langevin Y, Bibring JP, Bishop J, Bridges N, Brown A, Byrne S, Ehlmann BL, Herkenhoff K, McGuire PC, Milliken RE, Pelkey S, Poulet F, Seelos FP, Seelos K, Team C (2007) CRISM spectral signatures of the north polar gypsum dunes. Lunar and planetary institute conference abstracts, p 1970
Rubin DM, Carter CL (2006) Bedforms and cross-bedding in animation: SEPM atlas series no. 2. http://www.sepm.org/ http://walrus.wr.usgs.gov/seds/bedforms
Rubin DM, Hunter RE (1985) Why deposits of longitudinal dunes are rarely recognized in the geological record. Sedimentology 32:147–157
Rubin DM, Ikeda H (1990) Flume experiments on the alignment of transverse, oblique, and longitudinal dunes in directionally varying flows. Sedimentology 37:673–684
Sagan C, Veverka J, Fox P, Dubisch R et al (1972) Variable features on Mars, 2. Mariner 9 global results. J Geophys Res 78:4163–4196
Schatz V, Herrmann HJ (2006) Flow separation in the lee side of transverse dunes: a numerical investigation. Geomorphology 81(1–2):207–216
Schwämmle V, Herrmann H (2003) Solitary wave behaviour of sand dunes. Nature 426:619–620. doi:10.1038/426619a
Silvestro S, Fenton LK, Vaz DA, Bridges NT, Ori GG (2010) Ripple migration and dune activity on Mars: evidence for dynamic wind processes. Geophys Res Lett 37:L20203. doi:10.1029/2010GL044743
Silvestro S, Vaz DA, Fenton LK, and Geissler PE (2011) Active aeolian processes on Mars: A regional study in Arabia and Meridiani Terrae, Geophys. Res. Lett., 38, L20201, doi:10.1029/2011GL048955.
Silvestro S, Fenton LK, Michaels TI, Valdez A, Ori GG (2012) Interpretation of the complex dune morphology on Mars: dune activity, modelling and a terrestrial analogue. Earth Surf Process Landf 37:1424–1436. doi:10.1002/esp.3286
Silvestro S, Vaz DA, Ewing RC, Rossi AP, Fenton LK, Michaels TI, Flahut J, Geissler PE (2013) Pervasive aeolian activity along rover Curiosity’s traverse in Gale Crater, Mars. Geology 41(4):484–486
Simons DB, Richardson EV (1966) Resistance to flow in alluvial channels. Geological survey professional paper 422-J, Washington, DC
Smith IB, Holt JW, Spiga A, Howard AD, Parker G (2013) The spiral troughs of Mars as cyclic steps. J Geophys Res Planets 118:1835–1857. doi:10.1002/jgre.20142
Sotin C, Lawrence KJ, Reinhardt B, Barnes JW, Brown RH, Hayes AG, Le Mouélic S, Rodriguez S, Soderblom JM, Soderblom LA, Baines KH, Buratti BJ, Clark RN, Jaumann R, Nicholson PD, Stephan K (2012) Observations of Titan’s Northern lakes at 5um: implications for the organic cycle and geology. Icarus 221:768–786
Stoesser T, Braun C, García-Villalba M, Rodi W (2008) Turbulence structures in flow over two-dimensional dunes. J Hydraul Eng 134(1):42–55
Summerfield MA (1991) Global geomorphology. Longman, Essex
Thomas P (1984) Martian intra-crater splotches: occurrence, morphology, and colors. Icarus 57:205–227. doi:10.1016/0019-1035(84)90066-6
Thomas DSG (1989) Aeolian sand deposits. In: Thomas DSG (ed) Arid zone geomorphology. Belhaven Press, London, pp 232–261
Thomas PC, Veverka J, Lee S, Bloom A (1981) Classification of wind streaks on Mars. Icarus 45:124–153
Tirsch D, Craddock RA, Platz T, Maturilli A, Helbert J, Jaumann R (2012) Spectral and petrologic analyses of basaltic sands in Kau Desert (Hawaii)–implications for the dark dunes on Mars. Earth Surface Processes and Landforms 37(4):434–448. doi:10.1002/esp.2266.
Tirsch D, Jaumann R (2008) Mars: dark intra-crater dunes on a regional scale. Planetary dunes workshop, pp 71–72
Todd BJ (2005) Morphology and composition of submarine barchan dunes on the Scotian Shelf, Canadian Atlantic margin. Geomorphology 67(3–4):487–500
Tsoar H (2001) Types of aeolian sand dunes and their formation. In: Balmforth NJ, Provenzale A (eds) Geomorphological fluid mechanics, vol 582, Lecture notes in physics. Springer, Berlin, p 403
Tsoar H (2002) Climatic factors affecting mobility and stability of sand dunes. In: Lee JA, Zobeck TM (eds) Proceedings of ICAR5/GCTE-SEN joint conference, international center for arid and semiarid lands studies, Texas Tech University, Lubbock., p 423
Tsoar H (2008) Linear dunes on Earth and Mars – similarity and dissimilarity. Planetary dunes workshop: a record of climate change. 29 Apr – 2 May 2008, Alamogordo. LPI contribution no. 1403, pp 75–76
Tsoar H, Greeley R, Peterfreund AR (1979) Mars: the north polar sand sea and related wind patterns. J Geophys Res 84:8167–8180
Tsoar H, Blumberg DG, Stoler Y (2004) Elongation and migration of sand dunes. Geomorphology 57:293–302
van Dijk PM, Arens SM, van Boxel HJ (1999) Eolian processes across transverse dunes. II: modelling the sediment transport and profile development. Earth Surf Process Landf 24:319–333
Vendetti JG, Chruch M, Benett SJ (2005) On the transition between 2D and 3D dunes. Sedimentology 52:1343–1359
Walker IJ, Nickling WG (2002) Dynamics of secondary airflow and sediment transport over and in the lee of transverse dunes. Progress Phys Geogr 26(1):47–75
Weitz CM, Plaut JJ, Greeley R, Saunders RS (1994) Dunes and microdunes on Venus: why were so few found in the Magellan data? Icarus 112(1):282–295
Wilson IG (1972) Aeolian bedforms – their development and origins. Sedimentology 19:173–210
Worman S, Murray AB, Littlewood R, Andreotti B, Claudin P (2013) Modeling emergent large-scale structures of barchan dune fields. Geology G34482.1. doi:10.1130/G34482.1
Wye LC (2011) Radar scattering from Titan and Saturn’s icy satellites using the Cassini spacecraft. Dissertation, Stanford University
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
Copyright information
© 2014 Springer Science+Business Media New York
About this entry
Cite this entry
Cardinale, M., Hargitai, H., Fitzsimmons, K.E. (2014). Dune. In: Encyclopedia of Planetary Landforms. Springer, New York, NY. https://doi.org/10.1007/978-1-4614-9213-9_163-1
Download citation
DOI: https://doi.org/10.1007/978-1-4614-9213-9_163-1
Received:
Accepted:
Published:
Publisher Name: Springer, New York, NY
Online ISBN: 978-1-4614-9213-9
eBook Packages: Springer Reference Earth and Environm. ScienceReference Module Physical and Materials ScienceReference Module Earth and Environmental Sciences