FlyRadar – targets for future drone based GPR survey on mars, Kereszturi, A., Ori, G. G., Marques, N. K. D., Grandjean, P., Allemand, P., Steinmann, V., Alberti, G., Mastrogiuseppe, M., Gurgurewicz, J., Kofman, W., Mège, D., Orlanducci, C., Tesson, P.-A., Kokin, O., & Augier, S. (2025), Acta Astronautica, 229, 113. 2025AcAau.229..113K

Development and Evolution of Icy Layer Outcrops on Mars' North Polar Ice Cap: Observations of Vertical and Lateral Variability, Pascuzzo, A. C., Bramson, A. M., Becerra, P., & Mustard, J. F. (2025), Journal of Geophysical Research (Planets), 130, 2024JE008377. 2025JGRE..13008377P

Survey of remnant seasonal ice patches at southern polar Mars, Gergacz, M., & Kereszturi, A. (2025), Icarus, 425, 116331. 2025Icar..42516331G

Performance evaluation of pansharpening for planetary exploration: A case study on the implementation of TGO CaSSIS with MRO HiRISE, Tullo, A., Re, C., Cremonese, G., Martellato, E., La Grassa, R., & Thomas, N. (2024), Planetary and Space Sciences, 254, 105997. 2024P&SS..25405997T

Mapping of Western Valles Marineris Light-Toned Layered Deposits and Newly Classified Rim Deposits, Mishev, I. G., Smith, I. B., Quantin, C., Thollot, P., Putzig, N. E., Viviano, C., Chojnacki, M., & Campbell, B. (2024), Journal of Geophysical Research (Planets), 129, 2024JE008425. 2024JGRE..12908425M

Global survey of paleo-bedforms on Mars, Chojnacki, M., Fenton, L. K., Edgar, L. A., Day, M., Edwards, C. S., Weintraub, A. R., Gullikson, A. L., & Telfer, M. W. (2024), Geomorphology, 466, 109428. 2024Geomo.46609428C

The First Global Catalog of Rockfall Locations on Mars, Bickel, V. T., Daubar, I. J., Sokolowska, A. J., Bonab, A., Haut, I., & Conway, S. J. (2024), Geophysical Research Letters, 51, 2024GL110674. 2024GeoRL..5110674B

Insights into Martian bedform migration: Results from Gale, Jezero and Pasteur craters, Sahu, A., Mandal, A., Banerjee, S., & Panda, J. (2024), Earth Surface Processes and Landforms, 49, 5069. 2024ESPL...49.5069S

Ice degradation and Boulder size frequency distribution analysis of the fresh Martian crater S1094b, Tusberti, F., Pajola, M., Munaretto, G., Penasa, L., Lucchetti, A., Beccarelli, J., Rossi, C., Pozzobon, R., & Massironi, M. (2024), Icarus, 423, 116255. 2024Icar..42316255T

Generative 3D Reconstruction Of Martian Surfaces Using Monocular Images, Cao, J., Huang, R., Ye, Z., Xu, Y., & Tong, X. (2024), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 483, 51. 2024ISPAr.483...51C

Selecting Erosion- and Deposition-Dominated Zones in the Jezero Delta Using a Water Flow Model for Targeting Future In Situ Mars Surface Missions, Steinmann, V., Bahia, R. S., & Kereszturi, Á. (2024), Remote Sensing, 16, 3649. 2024RemS...16.3649S

Mapping and Characterizing the Northern Fan Deposits in Jezero Crater, Mars, Jodhpurkar, M. J., Bell, J. F., Gupta, S., Horgan, B., Gwizd, S., Caravaca, G., & Randazzo, N. (2024), Journal of Geophysical Research (Planets), 129, e2024JE008308. 2024JGRE..12908308J

Glacial sculpting of a martian cratered landscape on the northeastern flank of the Hellas basin, Grau Galofre, A., Howard, A. D., Morgan, A. M., Wilson, S. A., & Moore, J. M. (2024), Icarus, 420, 116211. 2024Icar..42016211G

Recent faulting at the Claritas Rupes scarp on Mars, Pieterek, B., Brož, P., & Hauber, E. (2024), Icarus, 420, 116198. 2024Icar..42016198P

Effects of surface and subsurface water/ice on spatial distributions of impact crater ejecta on Mars, Sokołowska, A., Thomas, N., & Wünnemann, K. (2024), Icarus, 420, 116150. 2024Icar..42016150S

New, dated small impacts on the South Polar Layered Deposits (SPLD), Mars, and implications for shallow subsurface properties, Landis, M. E., Dundas, C. M., McEwen, A. S., Daubar, I. J., Hayne, P. O., Byrne, S., Sutton, S. S., Rangarajan, V. G., Tornabene, L. L., Britton, A., & Herkenhoff, K. E. (2024), Icarus, 419, 115977. 2024Icar..41915977L

Revelations of interannual dune evolution from the swiftest aeolian system on Mars by MRO/HiRISE long-term monitoring, Chojnacki, M., Vaz, D. A., Acharya, P. J., Silvestro, S., & Smith, I. B. (2024), Icarus, 419, 115863. 2024Icar..41915863C

Limits on polygonal organization of boulders in the Martian northern lowlands, Hood, D. R., Cohen-Zada, A. L., Ewing, R. C., & Karunatillake, S. (2024), Icarus, 419, 115850. 2024Icar..41915850H

Novel quantitative methods to enable multispectral identification of high-purity water ice exposures on Mars using High Resolution Imaging Science Experiment (HiRISE) images, Rangarajan, V. G., Tornabene, L. L., Osinski, G. R., Dundas, C. M., Beyer, R. A., Herkenhoff, K. E., Byrne, S., Heyd, R., Seelos, F. P., Munaretto, G., & Dapremont, A. (2024), Icarus, 419, 115849. 2024Icar..41915849R

The high-resolution imaging science experiment (HiRISE) in the MRO extended science phases (2009–2023), McEwen, A. S., Byrne, S., Hansen, C., Daubar, I. J., Sutton, S., Dundas, C. M., Bardabelias, N., Baugh, N., Bergstrom, J., Beyer, R., Block, K. M., Bray, V. J., Bridges, J. C., Chojnacki, M., Conway, S. J., Delamere, W. A., Ebben, T., Espinosa, A., Fennema, A., Grant, J., Gulick, V. C., Herkenhoff, K. E., Heyd, R., Leis, R., Ojha, L., Papendick, S., Schaller, C., Thomas, N., Tornabene, L. L., Weitz, C., & Wilson, S. A. (2024), Icarus, 419, 115795. 2024Icar..41915795M

The internal structure of a debris-covered glacier on Mars revealed by gully incision, Butcher, F. E. G., Arnold, N. S., Conway, S. J., Berman, D. C., Davis, J. M., & Balme, M. R. (2024), Icarus, 419, 115717. 2024Icar..41915717B

Multiple Overspill Flood Channels from Young Craters Require Surface Melting and Hundreds of Meters of Midlatitude Ice Late in Mars's History, Warren, A. O., Wilson, S. A., Howard, A., Noblet, A., & Kite, E. S. (2024), The Planetary Science Journal, 5, 174. 2024PSJ.....5..174W

A global map of gullied hillslopes on Mars, Noblet, A., Conway, S. J., & Osinski, G. R. (2024), Icarus, 418, 116147. 2024Icar..41816147N

Evidence for Glaciovolcanic, Phreatomagmatic Tuff Dominated Ridges at Pavonis Mons, Mars, Scanlon, K. E., Garry, W. B., & Head, J. W. (2024), Geophysical Research Letters, 51, e2024GL108269. 2024GeoRL..5108269S

Inferred wind speed and direction during the descent and landing of Perseverance on Mars, Paton, M. D., Savijärvi, H., Harri, A.-M., Leino, J., Bertrand, T., Viúdez-Moreiras, D., Lorenz, R. D., & Newman, C. (2024), Icarus, 415, 116045. 2024Icar..41516045P

A Mars Local Terrain Matching Method Based on 3D Point Clouds, Wang, B., Zhao, S., Guo, X., & Yu, G. (2024), Remote Sensing, 16, 1620. 2024RemS...16.1620W

Thickness of the Seasonal Deposits at the Martian North Polar Region From Shadow Variations of Fallen Ice Blocks, Xiao, H., Xiao, Y., Su, S., Schmidt, F., Lara, L. M., & Gutierrez, P. J. (2024), Journal of Geophysical Research (Planets), 129, e2023JE008078. 2024JGRE..12908078X

Paleoenvironmental significance of Fe/Mg phyllosilicate and sulfate deposits in Mikumi crater, northern Meridiani Planum, Mars, Baschetti, B., Frigeri, A., Altieri, F., Carli, C., Tullo, A., & Sgavetti, M. (2024), Advances in Space Research, 73, 2685. 2024AdSpR..73.2685B

Current Status of the Community Sensor Model Standard for the Generation of Planetary Digital Terrain Models, Hare, T. M., Kirk, R. L., Bland, M. T., Galuszka, D. M., Laura, J. R., Mayer, D. P., Redding, B. L., & Wheeler, B. H. (2024), Remote Sensing, 16, 648. 2024RemS...16..648H

First light of VLT/HiRISE: High-resolution spectroscopy of young giant exoplanets, Vigan, A., El Morsy, M., Lopez, M., Otten, G. P. P. L., Garcia, J., Costes, J., Muslimov, E., Viret, A., Charles, Y., Zins, G., Murray, G., Costille, A., Paufique, J., Seemann, U., Houllé, M., Anwand-Heerwart, H., Phillips, M., Abinanti, A., Balard, P., Baraffe, I., Benedetti, J.-A., Blanchard, P., Blanco, L., Beuzit, J.-L., Choquet, E., Cristofari, P., Desidera, S., Dohlen, K., Dorn, R., Ely, T., Fuenteseca, E., Garcia, N., Jaquet, M., Jaubert, F., Kasper, M., Le Merrer, J., Maire, A.-L., N'Diaye, M., Pallanca, L., Popovic, D., Pourcelot, R., Reiners, A., Rochat, S., Sehim, C., Schmutzer, R., Smette, A., Tchoubaklian, N., Tomlinson, P., & Valenzuela Soto, J. (2024), Astronomy & Astrophysics, 682, A16. 2024A&A...682A..16V

Mapping Cones on Mars in High-Resolution Planetary Images with Deep Learning-Based Instance Segmentation, Yang, C., Zhang, N., Guan, R., & Zhao, H. (2024), Remote Sensing, 16, 227. 2024RemS...16..227Y

Characterization of aqueous alteration and formation of salty exposures at Ius Chasma, Mars, Wilk, K. A., Bishop, J. L., Weitz, C. M., Parente, M., Saranathan, A. M., Itoh, Y., Gross, C., Flahaut, J., & Seelos, F. (2024), Icarus, 408, 115800. 2024Icar..40815800W

Seasonal low albedo streaks at the edge of the Martian south polar layered deposits, Peng, J., Munaretto, G., Tornabene, L., Lucchetti, A., Cremonese, G., Pajola, M., Re, C., Becerra, P., & Thomas, N. (2024), Icarus, 407, 115790. 2024Icar..40715790P

Insight from the Noachian-aged fractured crust to the volcanic evolution of Mars: A case study from the Thaumasia graben and Claritas Fossae, Pieterek, B., Brož, P., Hauber, E., & Stephan, K. (2024), Icarus, 407, 115770. 2024Icar..40715770P

Monitoring martian slope streaks in the northeast of Lycus sulci, Ribeiro dos Santos Júnior, C., & Statella, T. (2023), Icarus, 406, 115737. 2023Icar..40615737R

Dendritic ridges in Antoniadi basin, Mars: Fluvial or volcanic landforms?, Mangold, N., Guimpier, A., Tornabene, L. L., Conway, S. J., Fawdon, P., Hauber, E., Noblet, A., Zaki, A. S., Pommerol, A., & Thomas, N. (2023), Icarus, 406, 115735. 2023Icar..40615735M

Mars mud volcanoes in color: A new approach to the study of subsurface sediment mobilization, Dapremont, A. M., & Wray, J. J. (2023), Icarus, 406, 115733. 2023Icar..40615733D

Insights into the interaction between defrosting seasonal ices and gully activity from CaSSIS and HiRISE observations in Sisyphi Cavi, Mars, Pasquon, K., Conway, S. J., Vincendon, M., Massé, M., Raack, J., Noblet, A., Grau Galofre, A., Morino, C., Munaretto, G., Lucchetti, A., Pajola, M., Lewis, S. R., & the CaSSIS team (2023), Planetary and Space Sciences, 235, 105743. 2023P&SS..23505743P

Atmosphere-aware photoclinometry for pixel-wise 3D topographic mapping of Mars, Liu, W. C., & Wu, B. (2023), ISPRS Journal of Photogrammetry and Remote Sensing, 204, 237. 2023JPRS..204..237L

A High-Resolution Digital Terrain Model Mosaic of the Mars 2020 Perseverance Rover Landing Site at Jezero Crater, Tao, Y., Walter, S. H. G., Muller, J.-P., Luo, Y., & Xiong, S. (2023), Earth and Space Science, 10, e2023EA003045. 2023E&SS...1003045T

Morphology of the north-western wall of Eos Chaos, Valles Marineris: Evidence for glaciation during late Amazonian high obliquity, Kakkassery, A. I., Rajesh, V. J., & Sajinkumar, K. S. (2023), Geomorphology, 436, 108733. 2023Geomo.43608733K

Geomorphological characterisation and Spectroscopy analysis of the Gusev and Jezero craters on Mars: Landing sites of NASA's Mars exploration missions, Anangonó-Tutasig, R. S., Fernández Menéndez, S., Diez Alonso, E., & De Cos Juez, F. J. (2023), Highlights on Spanish Astrophysics XI, 459. 2023hsa..conf..459A

Experimental study of sediment transport processes by liquid water and brine under Martian pressure, Philippe, M., Conway, S. J., Raack, J., Carpy, S., Massé, M., Patel, M. R., Sylvest, M. E., Lewis, S. R., & Morino, C. (2023), Icarus, 395, 115475. 2023Icar..39515475P

Orbit-to-ground framework to decode and predict biosignature patterns in terrestrial analogues, Warren-Rhodes, K., Cabrol, N. A., Phillips, M., Tebes-Cayo, C., Kalaitzis, F., Ayma, D., Demergasso, C., Chong-Diaz, G., Lee, K., Hinman, N., Rhodes, K. L., Boyle, L. N., Bishop, J. L., Hofmann, M. H., Hutchinson, N., Javiera, C., Moersch, J., Mondro, C., Nofke, N., Parro, V., Rodriguez, C., Sobron, P., Sarazzin, P., Wettergreen, D., Zacny, K., & SETI Institute NAI Team (2023), Nature Astronomy, 7, 406. 2023NatAs...7..406W

Morphometric trends and implications for the formation of araneiform clusters, Mc Keown, L. E., Diniega, S., Bourke, M. C., & Schwamb, M. E. (2023), Earth and Planetary Science Letters, 607, 118049. 2023E&PSL.60718049M

Shallow subsurface basalt layer along Cerberus Fossae, Mars: Insights from SHARAD, HiRISE, and CRISM analysis, Harish, Kimi, K. B., Tuhi, S., Baliyan, S., Mangold, N., Vijayan, S., & El-Maarry, M. R. (2023), Icarus, 391, 115343. 2023Icar..39115343H

Assessing slope uncertainties of martian Digital Elevation Models from numerical propagation of errors on synthetic geological surfaces, Millot, C., Quantin-Nataf, C., Leyrat, C., Lherm, V., & Volat, M. (2023), Icarus, 391, 115341. 2023Icar..39115341M

Planet Four: A Neural Network's search for polar spring-time fans on Mars, McDonnell, M. D., Jones, E., Schwamb, M. E., Aye, K.-M., Portyankina, G., & Hansen, C. J. (2023), Icarus, 391, 115308. 2023Icar..39115308M

CTX and HiRISE Digital elevation models (DEMs) for areas of known scientific interest by UCLA and UT Austin, Mackenzie, D. (2023), NASA Planetary Data System, 190. 2023pds..data..190M

Salt Constructs in Paleo-Lake Basins as High-Priority Astrobiology Targets, Phillips, M. S., McInenly, M., Hofmann, M. H., Hinman, N. W., Warren-Rhodes, K., Rivera-Valentín, E. G., & Cabrol, N. A. (2023), Remote Sensing, 15, 314. 2023RemS...15..314P

Automatically calculating the apparent depths of pits using the Pit Topography from Shadows (PITS) tool, Le Corre, D., Mary, D., Mason, N., Bernard-Salas, J., & Cox, N. (2023), RAS Techniques and Instruments, 2, 492. 2023RASTI...2..492L

Hydrothermal Alteration of Ultramafic Rocks in Ladon Basin, Mars—Insights From CaSSIS, HiRISE, CRISM, and CTX, Mège, D., Gurgurewicz, J., Massironi, M., Pozzobon, R., Tognon, G., Pajola, M., Tornabene, L. L., Lucchetti, A., Baschetti, B., Davis, J. M., Hauber, E., De Toffoli, B., Douté, S., Keszthelyi, L., Marinangeli, L., Perry, J., Pommerol, A., Pompilio, L., Rossi, A. P., Seelos, F., Sauro, F., Ziethe, R., Cremonese, G., & Thomas, N. (2023), Journal of Geophysical Research (Planets), 128, e2022JE007223. 2023JGRE..12807223M

Morphological changes currently occurring in sand-filled gully channels on Mars: Implications for the role of substrates inside channels, Sinha, R. K., & Ray, D. (2023), Icarus, 390, 115334. 2023Icar..39015334S

Searching for the sources of ice block falls at the martian north polar scarps, Su, S., Fanara, L., Zhang, X., Hauber, E., Gwinner, K., & Oberst, J. (2023), Icarus, 390, 115321. 2023Icar..39015321S

Ancient alluvial plains at Oxia Planum, Mars, Davis, J. M., Balme, M. R., Fawdon, P., Grindrod, P. M., Favaro, E. A., Banham, S. G., & Thomas, N. (2023), Earth and Planetary Science Letters, 601, 117904. 2023E&PSL.60117904D

Estimation of the trajectory of meteoroids from Martian clusters, Podobnaya, E. D., Popova, O. P., & Glazachev, D. O. (2022), Vestnik Tomskogo Gosudarstvennogo Universiteta Matematika i Mekhanika, 80, 97. 2022VTGUM..80...97P

HiRISE - High-Resolution Imaging and Spectroscopy Explorer - Ultrahigh resolution, interferometric and external occulting coronagraphic science, Erdélyi, R., Damé, L., Fludra, A., Mathioudakis, M., Amari, T., Belucz, B., Berrilli, F., Bogachev, S., Bolsée, D., Bothmer, V., Brun, S., Dewitte, S., de Wit, T. D., Faurobert, M., Gizon, L., Gyenge, N., Korsós, M. B., Labrosse, N., Matthews, S., Meftah, M., Morgan, H., Pallé, P., Rochus, P., Rozanov, E., Schmieder, B., Tsinganos, K., Verwichte, E., Zharkov, S., Zuccarello, F., & Wimmer-Schweingruber, R. (2022), Experimental Astronomy, 54, 227. 2022ExA....54..227E

Morphological and hydrological analysis of volcanic flank valleys - Evidence for a volcanic origin, Bahia, R. S. (2022), Planetary and Space Sciences, 223, 105592. 2022P&SS..22305592B

Digital elevation model workflow improvements for the MarsSI platform and resulting orthorectified mosaic of Oxia Planum, the landing site of the ExoMars 2022 rover, Volat, M., Quantin-Nataf, C., & Dehecq, A. (2022), Planetary and Space Sciences, 222, 105552. 2022P&SS..22205552V

Bayesian Deep Learning for Segmentation for Autonomous Safe Planetary Landing, Tomita, K., Skinner, K. A., & Ho, K. (2022), Journal of Spacecraft and Rockets, 59, 1800. 2022JSpRo..59.1800T

Pre and post-landing atmospheric optical depths at the Zhurong landing site on Mars retrieved using a single-image-based approach, Liu, W. C., Wu, B., Li, Z., Dong, J., & Rao, W. (2022), Icarus, 387, 115223. 2022Icar..38715223L

Using machine learning to reduce observational biases when detecting new impacts on Mars, Wagstaff, K. L., Daubar, I. J., Doran, G., Munje, M. J., Bickel, V. T., Gao, A., Pate, J., & Wexler, D. (2022), Icarus, 386, 115146. 2022Icar..38615146W

Validation of strategies for coupling exoplanet PSFs into single-mode fibres for high-dispersion coronagraphy, El Morsy, M., Vigan, A., Lopez, M., Otten, G. P. P. L., Choquet, E., Madec, F., Costille, A., Sauvage, J.-F., Dohlen, K., Muslimov, E., Pourcelot, R., Floriot, J., Benedetti, J.-A., Blanchard, P., Balard, P., & Murray, G. (2022), Astronomy & Astrophysics, 667, A171. 2022A&A...667A.171E

Patterns of martian glacial deformation: Implications for glacio-geology, internal structure, and regional climate, Grau Galofre, A., Serla, J. K., Becerra, P., Noblet, A., & Conway, S. J. (2022), Planetary and Space Sciences, 221, 105548. 2022P&SS..22105548G

A billion or more years of possible periglacial/glacial cycling in Protonilus Mensae, Mars, Soare, R. J., Williams, J.-P., Hepburn, A. J., & Butcher, F. E. G. (2022), Icarus, 385, 115115. 2022Icar..38515115S

An Adversarial Generative Network Designed for High-Resolution Monocular Depth Estimation from 2D HiRISE Images of Mars, La Grassa, R., Gallo, I., Re, C., Cremonese, G., Landro, N., Pernechele, C., Simioni, E., & Gatti, M. (2022), Remote Sensing, 14, 4619. 2022RemS...14.4619L

Pre-landslide topographic reconstruction in Baetis Chaos, mars using a CaSSIS Digital Elevation Model, Guimpier, A., Conway, S. J., Pajola, M., Lucchetti, A., Simioni, E., Re, C., Noblet, A., Mangold, N., Thomas, N., Cremonese, G., & CaSSIS Team (2022), Planetary and Space Sciences, 218, 105505. 2022P&SS..21805505G

The roughness of Martian topography: A metre-scale fractal analysis of six selected areas, Pardo-Igúzquiza, E., & Dowd, P. A. (2022), Icarus, 384, 115109. 2022Icar..38415109P

The Martian Boulder Automatic Recognition System, MBARS, Hood, D. R., Sholes, S. F., Karunatillake, S., Fassett, C. I., Ewing, R. C., & Levy, J. (2022), Earth and Space Science, 9, e02410. 2022E&SS....902410H

New evidence for sedimentary volcanism on Chryse Planitia, Mars, Brož, P., Hauber, E., Conway, S. J., Luzzi, E., Mazzini, A., Noblet, A., Jaroš, J., Fawdon, P., & Markonis, Y. (2022), Icarus, 382, 115038. 2022Icar..38215038B

Multi-year measurements of ripple and dune migration on Mars: Implications for the wind regime and sand transport, Roback, K. P., Runyon, K., Newman, C., & Avouac, J.-P. (2022), Icarus, 380, 114966. 2022Icar..38014966R

Detection and Classification of Potential Caves on the Flank of Elysium Mons, Mars, Sharma, R., & Srivastava, N. (2022), Research in Astronomy and Astrophysics, 22, 065008. 2022RAA....22f5008S

Revealing Active Mars with HiRISE Digital Terrain Models, Sutton, S. S., Chojnacki, M., McEwen, A. S., Kirk, R. L., Dundas, C. M., Schaefer, E. I., Conway, S. J., Diniega, S., Portyankina, G., Landis, M. E., Baugh, N. F., Heyd, R., Byrne, S., Tornabene, L. L., Ojha, L., & Hamilton, C. W. (2022), Remote Sensing, 14, 2403. 2022RemS...14.2403S

A CaSSIS and HiRISE map of the Clay-bearing Unit at the ExoMars 2022 landing site in Oxia Planum, Bowen, A. P., Bridges, J., Tornabene, L., Mandon, L., Quantin-Nataf, C., Patel, M. R., Thomas, N., Cremonese, G., Munaretto, G., Pommerol, A., & Pajola, M. (2022), Planetary and Space Sciences, 214, 105429. 2022P&SS..21405429B

Geology, in-situ resource-identification and engineering analysis of the Vernal crater area (Arabia Terra): A suitable Mars human landing site candidate, Pajola, M., Pozzobon, R., Silvestro, S., Salese, F., Rossato, S., Pompilio, L., Munaretto, G., Teodoro, L., Kling, A., Simioni, E., Lucchetti, A., Tornabene, L. L., Marinangeli, L., Tangari, A. C., Wilson, J., Cremonese, G., Massironi, M., & Thomas, N. (2022), Planetary and Space Sciences, 213, 105444. 2022P&SS..21305444P

Explosive volcanism in Noctis Fossae on Mars, Pieterek, B., Laban, M., Ciążela, J., & Muszyński, A. (2022), Icarus, 375, 114851. 2022Icar..37514851P

Modelling reconstruction and boulder size-frequency distribution of a young (<5 Myr) landslide located in Simud Vallis floor, Mars, Pajola, M., Mergili, M., Cambianica, P., Lucchetti, A., Brunetti, M. T., Guimpier, A., Mastropietro, M., Munaretto, G., Conway, S., Beccarelli, J., & Cremonese, G. (2022), Icarus, 375, 114850. 2022Icar..37514850P

Sinuous channels east of Olympus Mons, Mars: Implications for volcanic, hydrological, and tectonic processes, Sutton, S. S., Hamilton, C. W., Cataldo, V., Williams, D. A., & Bleacher, J. E. (2022), Icarus, 374, 114798. 2022Icar..37414798S

Planet Four: Derived South Polar Martian Winds Interpreted Using Mesoscale Modeling, Portyankina, G., Michaels, T. I., Aye, K.-M., Schwamb, M. E., Hansen, C. J., & Lintott, C. J. (2022), The Planetary Science Journal, 3, 31. 2022PSJ.....3...31P

Evaluating the role of volatiles in bedrock chute formation on the Moon and Mars, Levin, J. N., Dickson, J. L., & Lamb, M. P. (2022), Icarus, 373, 114774. 2022Icar..37314774L

Subpixel-Scale Topography Retrieval of Mars Using Single-Image DTM Estimation and Super-Resolution Restoration, Tao, Y., Xiong, S., Muller, J.-P., Michael, G., Conway, S. J., Paar, G., Cremonese, G., & Thomas, N. (2022), Remote Sensing, 14, 257. 2022RemS...14..257T

Fractal analysis of the Martian landscape: A study of kilometre-scale topographic roughness, Pardo-Igúzquiza, E., & Dowd, P. A. (2022), Icarus, 372, 114727. 2022Icar..37214727P

NOAH-H, a deep-learning, terrain classification system for Mars: Results for the ExoMars Rover candidate landing sites, Barrett, A. M., Balme, M. R., Woods, M., Karachalios, S., Petrocelli, D., Joudrier, L., & Sefton-Nash, E. (2022), Icarus, 371, 114701. 2022Icar..37114701B

Multisource Classification of Meridiani Planum's Aeolian Landscape Using HiRISE and Opportunity Images Analysis Based on Deep Learning, Choromanski, K., Kozakiewicz, J., Sobucki, M., Pilarska-Mazurek, M., & Olszewski, R. (2022), IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 15, 9963. 2022IJSTA..15.9963C

Boulder Fall Ejecta: Present Day Activity on Mars, Vijayan, S., Harish, Kimi, K. B., Tuhi, S., Vigneshwaran, K., Sinha, R. K., Conway, S. J., Sivaraman, B., & Bhardwaj, A. (2022), Geophysical Research Letters, 49, e96808. 2022GeoRL..4996808V

Atmospheric, Geomorphological and Compositional analysis of Martian Asimov and Hale Craters: implications for Recurring Slope Lineae, Howari, F. M., Sharma, M., Xavier, C. M., Nazzal, Y., & Alaydaroos, F. (2022), Frontiers in Astronomy and Space Sciences, 8, 244. 2022FrASS...8..244H

Networked configurations as an emergent property of transverse aeolian ridges on Mars, Nagle-McNaughton, T. P., & Scuderi, L. A. (2021), Communications Earth and Environment, 2, 217. 2021ComEE...2..217N

Spatial distributions and origin of hydrated sulfate minerals at the mineral bowl in Ophir Chasma, Mars, Bai, H., Bi, X., Liu, C., Shi, E., Cao, H., Xin, Y., Fu, X., Qiao, L., Zhang, J., Li, B., Wu, Z., & Ling, Z. (2021), Planetary and Space Sciences, 207, 105323. 2021P&SS..20705323B

Automatic mapping and spatial analysis of high spatial resolution closed terrain depressions and mounds on Martian landscapes, Pardo-Igúzquiza, E., Dowd, P. A., & Naor, R. (2021), Icarus, 369, 114632. 2021Icar..36914632P

Dynamics of recent landslides (<20 My) on Mars: Insights from high-resolution topography on Earth and Mars and numerical modelling, Guimpier, A., Conway, S. J., Mangeney, A., Lucas, A., Mangold, N., Peruzzetto, M., Pajola, M., Lucchetti, A., Munaretto, G., Sæmundsson, T., Johnsson, A., Le Deit, L., Grindrod, P., Davis, J., Thomas, N., & Cremonese, G. (2021), Planetary and Space Sciences, 206, 105303. 2021P&SS..20605303G

Synthetic topography from the decameter to the centimeter scale on Mars for scientific and rover operations of the ESA-Roscosmos ExoMars mission, Ruesch, O., Hess, M., Wohlfarth, K., Heyer, T., Wöhler, C., Bontognali, T. R. R., Orgel, C., Sefton-Nash, E., Josset, J.-L., & Vago, J. L. (2021), Planetary and Space Sciences, 205, 105301. 2021P&SS..20505301R

Martian boundary layer wind profiles during the landings of Viking and InSight, Paton, M. D., Leino, J., Harri, A.-M., & Savijärvi, H. (2021), Icarus, 367, 114581. 2021Icar..36714581P

Evaluating Stereo Digital Terrain Model Quality at Mars Rover Landing Sites with HRSC, CTX, and HiRISE Images, Kirk, R. L., Mayer, D. P., Fergason, R. L., Redding, B. L., Galuszka, D. M., Hare, T. M., & Gwinner, K. (2021), Remote Sensing, 13, 3511. 2021RemS...13.3511K

Inferring Airflow across Martian Dunes from Ripple Patterns and Dynamics, Hood, D. R., Ewing, R. C., Roback, K. P., Runyon, K., Avouac, J.-P., & McEnroe, M. (2021), Frontiers in Earth Science, 9, 557. 2021FrEaS...9..557H

Topographic correction of HiRISE and CaSSIS images: Validation and application to color observations of Martian albedo features, Munaretto, G., Pajola, M., Lucchetti, A., Re, C., Cremonese, G., Simioni, E., Cambianica, P., & Thomas, N. (2021), Planetary and Space Sciences, 200, 105198. 2021P&SS..20005198M

Evidence for fluvial and glacial activities within impact craters that excavated into a Noachian volcanic dome on Mars, Harish, Vijayan, S., & Mangold, N. (2021), Icarus, 361, 114397. 2021Icar..36114397H

Detecting the Sources of Ice Block Falls at the Martian North Polar Scarps by Analysis of Multi-Temporal Hirise Imagery, Su, S., Fanara, L., Zhang, X., Gwinner, K., Hauber, E., & Oberst, J. (2021), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 43B3, 673. 2021ISPAr43B3..673S

D Multi-Resolution Mapping of Mars Using Casp-Go on HRSC, Crism, Ctx and Hirise, Muller, J.-P., Tao, Y., Putri, A. R. D., & Conway, S. J. (2021), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 43B3, 667. 2021ISPAr43B3..667M

Further Adventures in Mars DTM Quality: Smoothing Errors, Sharpening Details, Kirk, R. L., Mayer, D., Redding, B. L., Galuszka, D. M., Fergason, R. L., Hare, T. M., & Gwinner, K. (2021), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 43B3, 659. 2021ISPAr43B3..659K

Martian roughness analogues of Europan terrains for radar sounder investigations, Gerekos, C., Grima, C., Steinbrügge, G., Thakur, S., Scanlan, K. M., Young, D. A., Bruzzone, L., & Blankenship, D. D. (2021), Icarus, 358, 114197. 2021Icar..35814197G

Measuring Ripple and Dune Migration in Coprates Chasma, Valles Marineris: A Source to Sink Aeolian System on Mars?, Boazman, S. J., Davis, J. M., Grindrod, P. M., Balme, M. R., Vermeesch, P., & Baird, T. (2021), Journal of Geophysical Research (Planets), 126, e06608. 2021JGRE..12606608B

Spectral and geological analyses of domes in western Arcadia Planitia, Mars: Evidence for intrusive alkali-rich volcanism and ice-associated surface features, Farrand, W. H., Rice, J. W., Chuang, F. C., & Rogers, A. D. (2021), Icarus, 357, 114111. 2021Icar..35714111F

Morphological and Spectral Diversity of the Clay-Bearing Unit at the ExoMars Landing Site Oxia Planum, Mandon, L., Parkes Bowen, A., Quantin-Nataf, C., Bridges, J. C., Carter, J., Pan, L., Beck, P., Dehouck, E., Volat, M., Thomas, N., Cremonese, G., Tornabene, L. L., & Thollot, P. (2021), Astrobiology, 21, 464. 2021AsBio..21..464M

Mars3DNet: CNN-Based High-Resolution 3D Reconstruction of the Martian Surface from Single Images, Chen, Z., Wu, B., & Liu, W. C. (2021), Remote Sensing, 13, 839. 2021RemS...13..839C

The Surface Texture of Martian Lava Flows as Inferred from Their Decimeter- and Meter-scale Roughness, Rodriguez Sanchez-Vahamonde, C., & Neish, C. (2021), The Planetary Science Journal, 2, 15. 2021PSJ.....2...15R

Direct characterization of young giant exoplanets at high spectral resolution by coupling SPHERE and CRIRES+, Otten, G. P. P. L., Vigan, A., Muslimov, E., N'Diaye, M., Choquet, E., Seemann, U., Dohlen, K., Houllé, M., Cristofari, P., Phillips, M. W., Charles, Y., Baraffe, I., Beuzit, J.-L., Costille, A., Dorn, R., El Morsy, M., Kasper, M., Lopez, M., Mordasini, C., Pourcelot, R., Reiners, A., & Sauvage, J.-F. (2021), Astronomy & Astrophysics, 646, A150. 2021A&A...646A.150O

The Morphology and Evolution of Transverse Aeolian Ridges on Mars, Nagle-McNaughton, T. P. (2021), Ph.D. Thesis,. 2021PhDT........14N

Transverse Aeolian Ridge (TAR) growth mechanisms and pattern evolution in Scandia Cavi, Mars, Fenton, L. K., Silvestro, S., & Kocurek, G. (2021), Frontiers in Earth Science, 8, 689. 2021FrEaS...8..689F

Subsurface Reflectors Detected by SHARAD Reveal Stratigraphy and Buried Channels Over Central Elysium Planitia, Mars, Xiong, S., Tao, Y., Persaud, D. M., Campbell, J. D., Putri, A. R. D., & Muller, J.-P. (2021), Earth and Space Science, 8, e00968. 2021E&SS....800968X

Surface Roughness Evolution and Implications for the Age of the North Polar Residual Cap of Mars, Wilcoski, A. X., & Hayne, P. O. (2020), Journal of Geophysical Research (Planets), 125, e06570. 2020JGRE..12506570W

Global documentation of overlapping lobate deposits in Martian gullies, Sinha, R. K., Ray, D., De Haas, T., & Conway, S. J. (2020), Icarus, 352, 113979. 2020Icar..35213979S

Boulder Fall Activity in the Jezero Crater, Mars, Sinha, R. K., Rani, A., Conway, S. J., Vijayan, S., Basu Sarbadhikari, A., Massé, M., Mangold, N., & Bhardwaj, A. (2020), Geophysical Research Letters, 47, e90362. 2020GeoRL..4790362S

Boulder Analysis on the Oxia Planum ExoMars 2022 Rover Landing Site: Scientific and Engineering Perspectives, Mastropietro, M., Pajola, M., Cremonese, G., Munaretto, G., & Lucchetti, A. (2020), Solar System Research, 54, 504. 2020SoSyR..54..504M

Photogeologic Map of the Perseverance Rover Field Site in Jezero Crater Constructed by the Mars 2020 Science Team, Stack, K. M., Williams, N. R., Calef, F., Sun, V. Z., Williford, K. H., Farley, K. A., Eide, S., Flannery, D., Hughes, C., Jacob, S. R., Kah, L. C., Meyen, F., Molina, A., Nataf, C. Q., Rice, M., Russell, P., Scheller, E., Seeger, C. H., Abbey, W. J., Adler, J. B., Amundsen, H., Anderson, R. B., Angel, S. M., Arana, G., Atkins, J., Barrington, M., Berger, T., Borden, R., Boring, B., Brown, A., Carrier, B. L., Conrad, P., Dypvik, H., Fagents, S. A., Gallegos, Z. E., Garczynski, B., Golder, K., Gomez, F., Goreva, Y., Gupta, S., Hamran, S.-E., Hicks, T., Hinterman, E. D., Horgan, B. N., Hurowitz, J., Johnson, J. R., Lasue, J., Kronyak, R. E., Liu, Y., Madariaga, J. M., Mangold, N., McClean, J., Miklusicak, N., Nunes, D., Rojas, C., Runyon, K., Schmitz, N., Scudder, N., Shaver, E., SooHoo, J., Spaulding, R., Stanish, E., Tamppari, L. K., Tice, M. M., Turenne, N., Willis, P. A., & Aileen Yingst, R. (2020), Space Science Reviews, 216, 127. 2020SSRv..216..127S

Present-day gully activity in Sisyphi Cavi, Mars - Flow-like features and block movements, Raack, J., Conway, S. J., Heyer, T., Bickel, V. T., Philippe, M., Hiesinger, H., Johnsson, A., & Massé, M. (2020), Icarus, 350, 113899. 2020Icar..35013899R

Origin and composition of three heterolithic boulder- and cobble-bearing deposits overlying the Murray and Stimson formations, Gale Crater, Mars, Wiens, R. C., Edgett, K. S., Stack, K. M., Dietrich, W. E., Bryk, A. B., Mangold, N., Bedford, C., Gasda, P., Fairén, A., Thompson, L., Johnson, J., Gasnault, O., Clegg, S., Cousin, A., Forni, O., Frydenvang, J., Lanza, N., Maurice, S., Newsom, H., Ollila, A., Payré, V., Rivera-Hernandez, F., & Vasavada, A. (2020), Icarus, 350, 113897. 2020Icar..35013897W

The Acidalia Mensa region on Mars: A key element to test the Mars ocean hypothesis, Ivanov, M. A., & Hiesinger, H. (2020), Icarus, 349, 113874. 2020Icar..34913874I

Evaluation of large data sets for Transverse Aeolian Ridges (TARs) on Earth and Mars, Foroutan, M., & Zimbelman, J. R. (2020), Planetary and Space Sciences, 189, 104966. 2020P&SS..18904966F

Postimpact Evolution of the Southern Hale Crater Ejecta, Mars, Collins-May, J. L., Carr, J. R., Balme, M. R., Ross, N., Russell, A. J., Brough, S., & Gallagher, C. (2020), Journal of Geophysical Research (Planets), 125, e06302. 2020JGRE..12506302C

Identification, delineation and morphometric analysis of closed terrain depressions on Mars, Pardo-Igúzquiza, E., & Dowd, P. A. (2020), Icarus, 348, 113869. 2020Icar..34813869P

Semiautomated Identification and Characterization of Dunes at Hargraves Crater, Mars, Emran, A., Marzen, L. J., & King, D. T. (2020), Earth and Space Science, 7, e00935. 2020E&SS....700935E

Implications for the origin and evolution of Martian Recurring Slope Lineae at Hale crater from CaSSIS observations, Munaretto, G., Pajola, M., Cremonese, G., Re, C., Lucchetti, A., Simioni, E., McEwen, A. S., Pommerol, A., Becerra, P., Conway, S. J., Thomas, N., & Massironi, M. (2020), Planetary and Space Sciences, 187, 104947. 2020P&SS..18704947M

Evaluating Stereo DTM Quality at Jezero Crater, Mars with HRSC, Ctx, and Hirise Images, Kirk, R. L., Fergason, R. L., Redding, B., Galuszka, D., Smith, E., Mayer, D., Hare, T. M., & Gwinner, K. (2020), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 43B3, 1129. 2020ISPAr43B3.1129K

Fluvial Regimes, Morphometry, and Age of Jezero Crater Paleolake Inlet Valleys and Their Exobiological Significance for the 2020 Rover Mission Landing Site, Mangold, N., Dromart, G., Ansan, V., Salese, F., Kleinhans, M. G., Massé, M., Quantin-Nataf, C., & Stack, K. M. (2020), Astrobiology, 20, 994. 2020AsBio..20..994M

Morphometry of a glacier-linked esker in NW Tempe Terra, Mars, and implications for sediment-discharge dynamics of subglacial drainage, Butcher, F. E. G., Balme, M. R., Conway, S. J., Gallagher, C., Arnold, N. S., Storrar, R. D., Lewis, S. R., & Hagermann, A. (2020), Earth and Planetary Science Letters, 542, 116325. 2020E&PSL.54216325B

Morphology, Development, and Sediment Dynamics of Elongating Linear Dunes on Mars, Davis, J. M., Banham, S. G., Grindrod, P. M., Boazman, S. J., Balme, M. R., & Bristow, C. S. (2020), Geophysical Research Letters, 47, e88456. 2020GeoRL..4788456D

Small-scale lobate hillslope features on Mars: A comparative 3D morphological study with terrestrial solifluction lobes and zebra stripe lobes, Gastineau, R., Conway, S. J., Johnsson, A., Eichel, J., Mangold, N., Grindrod, P. M., & Izquierdo, T. (2020), Icarus, 342, 113606. 2020Icar..34213606G

Present-day erosion rate of north polar scarps on Mars due to active mass wasting, Fanara, L., Gwinner, K., Hauber, E., & Oberst, J. (2020), Icarus, 342, 113434. 2020Icar..34213434F

Multiple mineral horizons in layered outcrops at Mawrth Vallis, Mars, signify changing geochemical environments on early Mars, Bishop, J. L., Gross, C., Danielsen, J., Parente, M., Murchie, S. L., Horgan, B., Wray, J. J., Viviano, C., & Seelos, F. P. (2020), Icarus, 341, 113634. 2020Icar..34113634B

Monitoring of Dust Devil Tracks Around the InSight Landing Site, Mars, and Comparison With In Situ Atmospheric Data, Perrin, C., Rodriguez, S., Jacob, A., Lucas, A., Spiga, A., Murdoch, N., Lorenz, R., Daubar, I. J., Pan, L., Kawamura, T., Lognonné, P., Banfield, D., Banks, M. E., Garcia, R. F., Newman, C. E., Ohja, L., Widmer-Schnidrig, R., McEwen, A. S., & Banerdt, W. B. (2020), Geophysical Research Letters, 47, e87234. 2020GeoRL..4787234P

A survey of small-scale (<50 m) surface features on the Martian north polar cap using HiRISE, Nguyen, T. G., Radebaugh, J., Innanen, A., & Moores, J. E. (2020), Planetary and Space Sciences, 182, 104809. 2020P&SS..18204809N

3D digital outcrop model reconstruction of the Kimberley outcrop (Gale crater, Mars) and its integration into Virtual Reality for simulated geological analysis, Caravaca, G., Le Mouélic, S., Mangold, N., L'Haridon, J., Le Deit, L., & Massé, M. (2020), Planetary and Space Sciences, 182, 104808. 2020P&SS..18204808C

Reconstruction of the sand transport pathways and provenance in Moreux crater, Mars, Cardinale, M., Pozzobon, R., Tangari, A. C., Runyon, K., Di Primio, M., & Marinangeli, L. (2020), Planetary and Space Sciences, 181, 104788. 2020P&SS..18104788C

Quantified Aeolian Dune Changes on Mars Derived From Repeat Context Camera Images, Davis, J. M., Grindrod, P. M., Boazman, S. J., Vermeesch, P., & Baird, T. (2020), Earth and Space Science, 7, e00874. 2020E&SS....700874D

Automated detection of block falls in the north polar region of Mars, Fanara, L., Gwinner, K., Hauber, E., & Oberst, J. (2020), Planetary and Space Sciences, 180, 104733. 2020P&SS..18004733F

Geographic information system based detection and quantification of boulders using HiRISE imagery: a case study in Jezero Crater, Nagle-McNaughton, T. P., Williams, J. M., Gallegos, Z. E., Wilkie, H. A., Martinez, D. C., & Scuderi, L. A. (2020), Journal of Applied Remote Sensing, 14, 014522. 2020JARS...14a4522N

Evaluation of wet and dry recurring slope lineae (RSL) formation mechanisms based on quantitative mapping of RSL in Garni Crater, Valles Marineris, Mars, Stillman, D. E., Bue, B. D., Wagstaff, K. L., Primm, K. M., Michaels, T. I., & Grimm, R. E. (2020), Icarus, 335, 113420. 2020Icar..33513420S

Creating HiRISE digital elevation models for Mars using the open-source Ames Stereo Pipeline, Hepburn, A. J., Holt, T., Hubbard, B., & Ng, F. (2019), Geoscientific Instrumentation, Methods and Data Systems, 8, 293. 2019GI......8..293H

Through the Thick and Thin: New Constraints on Mars Paleopressure History 3.8 - 4 Ga from Small Exhumed Craters, Warren, A. O., Kite, E. S., Williams, J.-P., & Horgan, B. (2019), Journal of Geophysical Research (Planets), 124, 2793. 2019JGRE..124.2793W

Geology of the northeastern flank of Apollinaris Mons, Mars: Constraints on the erosional history from morphology, topography, and crater populations, Chuang, F. C., Crown, D. A., & Berman, D. C. (2019), Icarus, 333, 385. 2019Icar..333..385C

The transition between sand ripples and megaripples on Mars, Zimbelman, J. R. (2019), Icarus, 333, 127. 2019Icar..333..127Z

Present-day development of gully-channel sinuosity by carbon dioxide gas supported flows on Mars, Pasquon, K., Gargani, J., Massé, M., Vincendon, M., Conway, S. J., Séjourné, A., Jomelli, V., Balme, M. R., Lopez, S., & Guimpier, A. (2019), Icarus, 329, 296. 2019Icar..329..296P

The fingerprint of linear dunes, Scuderi, L. (2019), Aeolian Research, 39, 1. 2019AeoRe..39....1S

Performance Evaluation of 3DPD, the Photogrammetric Pipeline for the Cassis Stereo Images, Re, C., Tulyakov, S., Simioni, E., Mudric, T., Cremonese, G., & Thomas, N. (2019), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 4213, 1443. 2019ISPAr4213.1443R

Anomaly Detection Performance Comparison on Anomaly-Detection Based Change Detection on Martian Image Pairs, Putri, A. R. D., Sidiropoulos, P., & Muller, J.-P. (2019), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 4213, 1437. 2019ISPAr4213.1437P

Atmospherically Compensated Shape from Shading on the Martian Surface: Towards the Perfect Digital Terrain Model of Mars, Hess, M., Wohlfarth, K., Grumpe, A., Wöhler, C., Ruesch, O., & Wu, B. (2019), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 4213, 1405. 2019ISPAr4213.1405H

PLANETARY3D: a Photogrammetric Tool for 3d Topographic Mapping of Planetary Bodies, Hu, H., & Wu, B. (2019), ISPRS Annals of Photogrammetry, Remote Sensing and Spatial Information Sciences, 42W5, 519. 2019ISPAn42W5..519H

Distribution and Morphologies of Transverse Aeolian Ridges in ExoMars 2020 Rover Landing Site, Bhardwaj, A., Sam, L., Martin-Torres, F. J., & Zorzano, M.-P. (2019), Remote Sensing, 11, 912. 2019RemS...11..912B

The use of GIS, mapping, and immersive technologies in the CanMars Mars Sample Return analogue mission; advantages for science interpretation and operational decision-making, Morse, Z. R., Harrington, E., Hill, P. J. A., Christoffersen, P., Newman, J., Choe, B.-H., Tornabene, L. L., Caudill, C., & Osinski, G. R. (2019), Planetary and Space Sciences, 168, 15. 2019P&SS..168...15M

The case against vast glaciation in Valles Marineris, Mars, Kissick, L. E., & Carbonneau, P. E. (2019), Icarus, 321, 803. 2019Icar..321..803K

Hypotheses for the origin of the Hypanis fan-shaped deposit at the edge of the Chryse escarpment, Mars: Is it a delta?, Adler, J. B., Bell, J. F., Fawdon, P., Davis, J., Warner, N. H., Sefton-Nash, E., & Harrison, T. N. (2019), Icarus, 319, 885. 2019Icar..319..885A

The formation of irregular polygonal ridge networks, Nili Fossae, Mars: Implications for extensive subsurface channelized fluid flow in the Noachian, Pascuzzo, A. C., Mustard, J. F., Kremer, C. H., & Ebinger, E. (2019), Icarus, 319, 852. 2019Icar..319..852P

Planet Four: Probing springtime winds on Mars by mapping the southern polar CO₂ jet deposits, Aye, K.-M., Schwamb, M. E., Portyankina, G., Hansen, C. J., McMaster, A., Miller, G. R. M., Carstensen, B., Snyder, C., Parrish, M., Lynn, S., Mai, C., Miller, D., Simpson, R. J., & Smith, A. M. (2019), Icarus, 319, 558. 2019Icar..319..558A

Machine Learning on Mars: A New Lens on Data from Planetary Exploration Missions, Kerner, H. R. (2019), Ph.D. Thesis,. 2019PhDT........83K

Araneiform terrain formation in Angustus Labyrinthus, Mars, Hao, J., Michael, G. G., Adeli, S., & Jaumann, R. (2019), Icarus, 317, 479. 2019Icar..317..479H

Patterns in Mobility and Modification of Middle- and High-Latitude Southern Hemisphere Dunes on Mars, Banks, M. E., Fenton, L. K., Bridges, N. T., Geissler, P. E., Chojnacki, M., Runyon, K. D., Silvestro, S., & Zimbelman, J. R. (2018), Journal of Geophysical Research (Planets), 123, 3205. 2018JGRE..123.3205B

Complex bedding geometry in the upper portion of Aeolis Mons, Gale crater, Mars, Anderson, R. B., Edgar, L. A., Rubin, D. M., Lewis, K. W., & Newman, C. (2018), Icarus, 314, 246. 2018Icar..314..246A

The albedo of Mars: Six Mars years of observations from Pancam on the Mars Exploration Rovers and comparisons to MOC, CTX and HiRISE, Rice, M. S., Reynolds, M., Studer-Ellis, G., Bell, J. F., Johnson, J. R., Herkenhoff, K. E., Wellington, D., & Kinch, K. M. (2018), Icarus, 314, 159. 2018Icar..314..159R

The distribution of putative periglacial landforms on the martian northern plains, Barrett, A. M., Balme, M. R., Patel, M. R., & Hagermann, A. (2018), Icarus, 314, 133. 2018Icar..314..133B

Geology of central Libya Montes, Mars: Aqueous alteration history from mineralogical and morphological mapping, Tirsch, D., Bishop, J. L., Voigt, J. R. C., Tornabene, L. L., Erkeling, G., & Jaumann, R. (2018), Icarus, 314, 12. 2018Icar..314...12T

A Bayesian Approach to Subkilometer Crater Shape Analysis Using Individual HiRISE Images, Savage, R., Palafox, L. F., Morrison, C. T., Rodriguez, J. J., Barnard, K., Byrne, S., & Hamilton, C. W. (2018), IEEE Transactions on Geoscience and Remote Sensing, 56, 5802. 2018ITGRS..56.5802S

High-resolution investigations of Transverse Aeolian Ridges on Mars, Berman, D. C., Balme, M. R., Michalski, J. R., Clark, S. C., & Joseph, E. C. S. (2018), Icarus, 312, 247. 2018Icar..312..247B

The Search for Active Marsquakes Using Subpixel Coregistration and Correlation: Best Practice and First Results, Grindrod, P. M., Hollingsworth, J., Ayoub, F., & Hunt, S. A. (2018), Journal of Geophysical Research (Planets), 123, 1881. 2018JGRE..123.1881G

The Nature and Origin of Deposits in Uzboi Vallis on Mars, Wilson, S. A., Grant, J. A., Howard, A. D., & Buczkowski, D. L. (2018), Journal of Geophysical Research (Planets), 123, 1842. 2018JGRE..123.1842W

Planet Four: Terrains - Discovery of araneiforms outside of the South Polar layered deposits, Schwamb, M. E., Aye, K.-M., Portyankina, G., Hansen, C. J., Allen, C., Allen, S., Calef, F. J., Duca, S., McMaster, A., & Miller, G. R. M. (2018), Icarus, 308, 148. 2018Icar..308..148S

Regional stratigraphy of the south polar layered deposits (Promethei Lingula, Mars): "Discontinuity-bounded" units in images and radargrams, Guallini, L., Rossi, A. P., Forget, F., Marinangeli, L., Lauro, S. E., Pettinelli, E., Seu, R., & Thomas, N. (2018), Icarus, 308, 76. 2018Icar..308...76G

Massive stereo-based DTM production for Mars on cloud computers, Tao, Y., Muller, J.-P., Sidiropoulos, P., Xiong, S.-T., Putri, A. R. D., Walter, S. H. G., Veitch-Michaelis, J., & Yershov, V. (2018), Planetary and Space Sciences, 154, 30. 2018P&SS..154...30T

Usability of small impact craters on small surface areas in crater count dating: Analysing examples from the Harmakhis Vallis outflow channel, Mars, Kukkonen, S., & Kostama, V.-P. (2018), Icarus, 305, 33. 2018Icar..305...33K

Mapping and dating based evolution studies of the Niger Vallis outflow channel, Mars, Kukkonen, S., & Kostama, V.-P. (2018), Planetary and Space Sciences, 153, 54. 2018P&SS..153...54K

Surface-based 3D measurements of small aeolian bedforms on Mars and implications for estimating ExoMars rover traversability hazards, Balme, M., Robson, E., Barnes, R., Butcher, F., Fawdon, P., Huber, B., Ortner, T., Paar, G., Traxler, C., Bridges, J., Gupta, S., & Vago, J. L. (2018), Planetary and Space Sciences, 153, 39. 2018P&SS..153...39B

Determination of Mars crater geometric data: Insights from high-resolution digital elevation models, Mouginis-Mark, P. J., Boyce, J., Sharpton, V. L., & Garbeil, H. (2018), Meteoritics & Planetary Science, 53, 726. 2018M&PS...53..726M

High-Resolution Topographic Analyses of Mounds in Southern Acidalia Planitia, Mars: Implications for Possible Mud Volcanism in Submarine and Subaerial Environments, Hemmi, R., & Miyamoto, H. (2018), Geosciences, 8, 152. 2018Geosc...8..152H

Image Simulation and Assessment of the Colour and Spatial Capabilities of the Colour and Stereo Surface Imaging System (CaSSIS) on the ExoMars Trace Gas Orbiter, Tornabene, L. L., Seelos, F. P., Pommerol, A., Thomas, N., Caudill, C. M., Becerra, P., Bridges, J. C., Byrne, S., Cardinale, M., Chojnacki, M., Conway, S. J., Cremonese, G., Dundas, C. M., El-Maarry, M. R., Fernando, J., Hansen, C. J., Hansen, K., Harrison, T. N., Henson, R., Marinangeli, L., McEwen, A. S., Pajola, M., Sutton, S. S., & Wray, J. J. (2018), Space Science Reviews, 214, 18. 2018SSRv..214...18T

MarsSI: Martian surface data processing information system, Quantin-Nataf, C., Lozac'h, L., Thollot, P., Loizeau, D., Bultel, B., Fernando, J., Allemand, P., Dubuffet, F., Poulet, F., Ody, A., Clenet, H., Leyrat, C., & Harrisson, S. (2018), Planetary and Space Sciences, 150, 157. 2018P&SS..150..157Q

Evidences of early aqueous Mars: Implications on the origin of branched valleys in the Ius Chasma, Mars, Martha, T. R., Jain, N., Vamshi, G. T., & Vinod Kumar, K. (2017), Planetary and Space Sciences, 148, 56. 2017P&SS..148...56M

Aqueous dune-like bedforms in Athabasca Valles and neighbouring locations utilized in palaeoflood reconstruction, Durrant, L., Balme, M. R., Carling, P. A., & Grindrod, P. M. (2017), Planetary and Space Sciences, 148, 45. 2017P&SS..148...45D

Boulder abundances and size-frequency distributions on Oxia Planum-Mars: Scientific implications for the 2020 ESA ExoMars rover, Pajola, M., Rossato, S., Baratti, E., Pozzobon, R., Quantin, C., Carter, J., & Thollot, P. (2017), Icarus, 296, 73. 2017Icar..296...73P

Analysis of Local Slopes at the InSight Landing Site on Mars, Fergason, R. L., Kirk, R. L., Cushing, G., Galuszka, D. M., Golombek, M. P., Hare, T. M., Howington-Kraus, E., Kipp, D. M., & Redding, B. L. (2017), Space Science Reviews, 211, 109. 2017SSRv..211..109F

Meter-Scale Slopes of Candidate InSight Landing Sites from Point Photoclinometry, Beyer, R. A. (2017), Space Science Reviews, 211, 97. 2017SSRv..211...97B

Selection of the InSight Landing Site, Golombek, M., Kipp, D., Warner, N., Daubar, I. J., Fergason, R., Kirk, R. L., Beyer, R., Huertas, A., Piqueux, S., Putzig, N. E., Campbell, B. A., Morgan, G. A., Charalambous, C., Pike, W. T., Gwinner, K., Calef, F., Kass, D., Mischna, M., Ashley, J., Bloom, C., Wigton, N., Hare, T., Schwartz, C., Gengl, H., Redmond, L., Trautman, M., Sweeney, J., Grima, C., Smith, I. B., Sklyanskiy, E., Lisano, M., Benardini, J., Smrekar, S., Lognonné, P., & Banerdt, W. B. (2017), Space Science Reviews, 211, 5. 2017SSRv..211....5G

Identification of the Beagle 2 lander on Mars, Bridges, J. C., Clemmet, J., Croon, M., Sims, M. R., Pullan, D., Muller, J.-P., Tao, Y., Xiong, S., Putri, A. R., Parker, T., Turner, S. M. R., & Pillinger, J. M. (2017), Royal Society Open Science, 4, 170785. 2017RSOS....470785B

Martian aeolian activity at the Bagnold Dunes, Gale Crater: The view from the surface and orbit, Bridges, N. T., Sullivan, R., Newman, C. E., Navarro, S., van Beek, J., Ewing, R. C., Ayoub, F., Silvestro, S., Gasnault, O., Le Mouélic, S., Lapotre, M. G. A., & Rapin, W. (2017), Journal of Geophysical Research (Planets), 122, 2077. 2017JGRE..122.2077B

Ridge-like lava tube systems in southeast Tharsis, Mars, Zhao, J., Huang, J., Kraft, M. D., Xiao, L., & Jiang, Y. (2017), Geomorphology, 295, 831. 2017Geomo.295..831Z

Automated detection of new impact sites on Martian surface from HiRISE images, Xin, X., Di, K., Wang, Y., Wan, W., & Yue, Z. (2017), Advances in Space Research, 60, 1557. 2017AdSpR..60.1557X

Semi-automatic mapping of linear-trending bedforms using 'Self-Organizing Maps' algorithm, Foroutan, M., & Zimbelman, J. R. (2017), Geomorphology, 293, 156. 2017Geomo.293..156F

A composite mineralogical map of Ganges Chasma and surroundings, Valles Marineris, Mars, Cull-Hearth, S., & Clark, M. C. (2017), Planetary and Space Sciences, 142, 1. 2017P&SS..142....1C

Some unique surface patterns on ignimbrites on Earth: A "bird's eye" view as a guide for planetary mappers, de Silva, S. L., & Bailey, J. E. (2017), Journal of Volcanology and Geothermal Research, 342, 47. 2017JVGR..342...47D

Plateaus and sinuous ridges as the fingerprints of lava flow inflation in the Eastern Tharsis Plains of Mars, Bleacher, J. E., Orr, T. R., de Wet, A. P., Zimbelman, J. R., Hamilton, C. W., Brent Garry, W., Crumpler, L. S., & Williams, D. A. (2017), Journal of Volcanology and Geothermal Research, 342, 29. 2017JVGR..342...29B

Morphologic and thermophysical characteristics of lava flows southwest of Arsia Mons, Mars, Crown, D. A., & Ramsey, M. S. (2017), Journal of Volcanology and Geothermal Research, 342, 13. 2017JVGR..342...13C

Impact-generated winds on Mars, Schultz, P. H., & Quintana, S. N. (2017), Icarus, 292, 86. 2017Icar..292...86S

Automatic detection of Martian dark slope streaks by machine learning using HiRISE images, Wang, Y., Di, K., Xin, X., & Wan, W. (2017), ISPRS Journal of Photogrammetry and Remote Sensing, 129, 12. 2017JPRS..129...12W

An Investigation of the Hypotheses for Formation of the Platy-Ridged Terrain in Elysium Planitia, Mars, Yue, Z., Gou, S., Michael, G., Di, K., Xie, H., Gong, H., & Shao, Y. (2017), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 62W1, 205. 2017ISPAr62W1..205Y

Improved Large-Scale Slope Analysis on Mars Based on Correlation of Slopes Derived with Different Baselines, Wang, Y., & Wu, B. (2017), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 62W1, 155. 2017ISPAr62W1..155W

Correcting Spacecraft Jitter in Hirise Images, Sutton, S. S., Boyd, A. K., Kirk, R. L., Cook, D., Backer, J. W., Fennema, A., Heyd, R., McEwen, A. S., & Mirchandani, S. D. (2017), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 62W1, 141. 2017ISPAr62W1..141S

Community Tools for Cartographic and Photogrammetric Processing of Mars Express HRSC Images, Kirk, R. L., Howington-Kraus, E., Edmundson, K., Redding, B., Galuszka, D., Hare, T., & Gwinner, K. (2017), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 62W1, 69. 2017ISPAr62W1...69K

Estimation of Aeolian Dune Migration Over Martian Surface Employing High Precision Photogrammetric Measurements, Kim, J. (2017), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 62W1, 63. 2017ISPAr62W1...63K

Resurfacing event observed in Morpheos basin (Eridania Planitia) and the implications to the formation and timing of Waikato and Reull Valles, Mars, Kostama, V.-P., Kukkonen, S., & Raitala, J. (2017), Planetary and Space Sciences, 140, 35. 2017P&SS..140...35K

The morphology of transverse aeolian ridges on Mars, Geissler, P. E., & Wilgus, J. T. (2017), Aeolian Research, 26, 63. 2017AeoRe..26...63G

Surface slope effects for ripple orientation on sand dunes in López crater, Terra Tyrrhena region of Mars, Zimbelman, J. R., & Johnson, M. B. (2017), Aeolian Research, 26, 57. 2017AeoRe..26...57Z

Investigation of boresight offsets and co-registration of HiRISE and CTX imagery for precision Mars topographic mapping, Wang, Y., & Wu, B. (2017), Planetary and Space Sciences, 139, 18. 2017P&SS..139...18W

Spatial distribution of impact craters on Deimos, Hirata, N. (2017), Icarus, 288, 69. 2017Icar..288...69H

Mars sedimentary rock erosion rates constrained using crater counts, with applications to organic-matter preservation and to the global dust cycle, Kite, E. S., & Mayer, D. P. (2017), Icarus, 286, 212. 2017Icar..286..212K

Morphology of transverse aeolian ridges (TARs) on Mars from a large sample: Further evidence of a megaripple origin?, Hugenholtz, C. H., Barchyn, T. E., & Boulding, A. (2017), Icarus, 286, 193. 2017Icar..286..193H

How the martian residual south polar cap develops quasi-circular and heart-shaped pits, troughs, and moats, Buhler, P. B., Ingersoll, A. P., Ehlmann, B. L., Fassett, C. I., & Head, J. W. (2017), Icarus, 286, 69. 2017Icar..286...69B

Characteristics of the numerous and widespread recurring slope lineae (RSL) in Valles Marineris, Mars, Stillman, D. E., Michaels, T. I., & Grimm, R. E. (2017), Icarus, 285, 195. 2017Icar..285..195S

The central uplift of Elorza Crater: Insights into its geology and possible relationships to the Valles Marineris and Tharsis regions, Hopkins, R. T., Tornabene, L. L., & Osinski, G. R. (2017), Icarus, 284, 284. 2017Icar..284..284H

Expanded Craters on Mars: Implications for Shallow, Mid-latitude Excess Ice, Viola, D. (2017), Ph.D. Thesis,. 2017PhDT........28V

Beagle 2 on Mars - the Discovery Assessed, Clemmet, J., & et al. (2017), Journal of the British Interplanetary Society, 70, 262. 2017JBIS...70..262C

Present-day erosion of Martian polar terrain by the seasonal CO₂ jets, Portyankina, G., Hansen, C. J., & Aye, K.-M. (2017), Icarus, 282, 93. 2017Icar..282...93P

Geology and mineralogy of the Auki Crater, Tyrrhena Terra, Mars: A possible post impact-induced hydrothermal system, Carrozzo, F. G., Di Achille, G., Salese, F., Altieri, F., & Bellucci, G. (2017), Icarus, 281, 228. 2017Icar..281..228C

Automated localisation of Mars rovers using co-registered HiRISE-CTX-HRSC orthorectified images and wide baseline Navcam orthorectified mosaics, Tao, Y., Muller, J.-P., & Poole, W. (2016), Icarus, 280, 139. 2016Icar..280..139T

Comparing orbiter and rover image-based mapping of an ancient sedimentary environment, Aeolis Palus, Gale crater, Mars, Stack, K. M., Edwards, C. S., Grotzinger, J. P., Gupta, S., Sumner, D. Y., Calef, F. J., Edgar, L. A., Edgett, K. S., Fraeman, A. A., Jacob, S. R., Le Deit, L., Lewis, K. W., Rice, M. S., Rubin, D., Williams, R. M. E., & Williford, K. H. (2016), Icarus, 280, 3. 2016Icar..280....3S

Topographic measurements of slope streaks on Mars, Brusnikin, E. S., Kreslavsky, M. A., Zubarev, A. E., Patratiy, V. D., Krasilnikov, S. S., Head, J. W., & Karachevtseva, I. P. (2016), Icarus, 278, 52. 2016Icar..278...52B

A classification of martian gullies from HiRISE imagery, Auld, K. S., & Dixon, J. C. (2016), Planetary and Space Sciences, 131, 88. 2016P&SS..131...88A

Comparing wind directions inferred from Martian dust devil tracks analysis with those predicted by the Mars Climate Database, Statella, T., Pina, P., Silva, E. A., Nervis Frigeri, A. V., & Neto, F. G. (2016), Planetary and Space Sciences, 131, 60. 2016P&SS..131...60S

Stratigraphy of the north polar layered deposits of Mars from high-resolution topography, Becerra, P., Byrne, S., Sori, M. M., Sutton, S., & Herkenhoff, K. E. (2016), Journal of Geophysical Research (Planets), 121, 1445. 2016JGRE..121.1445B

Present-day formation and seasonal evolution of linear dune gullies on Mars, Pasquon, K., Gargani, J., Massé, M., & Conway, S. J. (2016), Icarus, 274, 195. 2016Icar..274..195P

Former extent of glacier-like forms on Mars, Brough, S., Hubbard, B., & Hubbard, A. (2016), Icarus, 274, 37. 2016Icar..274...37B

Possible water lubricated grain movement in the circumpolar region of Mars, Kereszturi, A., & Rivera-Valentin, E. G. (2016), Planetary and Space Sciences, 125, 130. 2016P&SS..125..130K

The Multi-Temporal Database of Planetary Image Data (MUTED): A database to support the identification of surface changes and short-lived surface processes, Erkeling, G., Luesebrink, D., Hiesinger, H., Reiss, D., Heyer, T., & Jaumann, R. (2016), Planetary and Space Sciences, 125, 43. 2016P&SS..125...43E

Comparison and Co-Registration of Dems Generated from HiRISE and Ctx Images, Wang, Y., & Wu, B. (2016), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 41B4, 511. 2016ISPAr41B4..511W

Quantitative Assessment of a Novel Super-Resolution Restoration Technique Using HiRISE with Navcam Images: how much Resolution Enhancement is Possible from Repeat-Pass Observations, Tao, Y., & Muller, J.-P. (2016), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 41B4, 503. 2016ISPAr41B4..503T

Batch Co-Registration of Mars High-Resolution Images to HRSC MC11-E Mosaic, Sidiropoulos, P., & Muller, J.-P. (2016), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 41B4, 491. 2016ISPAr41B4..491S

Identifying Surface Changes on HRSC Images of the Mars South Polar Residual CAP (sprc), Putri, A. R. D., Sidiropoulos, P., & Muller, J.-P. (2016), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 41B4, 463. 2016ISPAr41B4..463P

EU-FP7-iMARS: Analysis of Mars Multi-Resolution Images Using Auto-Coregistration Data Mining and Crowd Source Techniques: Processed Results - a First Look, Muller, J.-P., Tao, Y., Sidiropoulos, P., Gwinner, K., Willner, K., Fanara, L., Waehlisch, M., van Gasselt, S., Walter, S., Steikert, R., Schreiner, B., Ivanov, A., Cantini, F., Wardlaw, J., Morley, J., Sprinks, J., Giordano, M., Marsh, S., Kim, J., Houghton, R., & Bamford, S. (2016), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 41B4, 453. 2016ISPAr41B4..453M

Radiometric Calibration of Mars HiRISE High Resolution Imagery Based on Fpga, Hou, Y., Geng, X., Xing, S., Tang, Y., & Xu, Q. (2016), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 41B4, 405. 2016ISPAr41B4..405H

Mass MOVEMENTS' Detection in Hirise Images of the North Pole of Mars, Fanara, L., Gwinner, K., Hauber, E., & Oberst, J. (2016), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 41B4, 383. 2016ISPAr41B4..383F

Morphologic evidence of subsurface sediment mobilization and mud volcanism in Candor and Coprates Chasmata, Valles Marineris, Mars, Okubo, C. H. (2016), Icarus, 269, 23. 2016Icar..269...23O

Orbital evidence for more widespread carbonate-bearing rocks on Mars, Wray, J. J., Murchie, S. L., Bishop, J. L., Ehlmann, B. L., Milliken, R. E., Wilhelm, M. B., Seelos, K. D., & Chojnacki, M. (2016), Journal of Geophysical Research (Planets), 121, 652. 2016JGRE..121..652W

Small edifice features in Chryse Planitia, Mars: Assessment of a mud volcano hypothesis, Komatsu, G., Okubo, C. H., Wray, J. J., Ojha, L., Cardinale, M., Murana, A., Orosei, R., Chan, M. A., Ormö, J., & Gallagher, R. (2016), Icarus, 268, 56. 2016Icar..268...56K

Dust devil track survey at Elysium Planitia, Mars: Implications for the InSight landing sites, Reiss, D., & Lorenz, R. D. (2016), Icarus, 266, 315. 2016Icar..266..315R

High precision comet trajectory estimates: The Mars flyby of C/2013 A1 (Siding Spring), Farnocchia, D., Chesley, S. R., Micheli, M., Delamere, W. A., Heyd, R. S., Tholen, D. J., Giorgini, J. D., Owen, W. M., & Tamppari, L. K. (2016), Icarus, 266, 279. 2016Icar..266..279F

Automated width measurements of Martian dust devil tracks, Statella, T., Pina, P., & da Silva, E. A. (2016), Aeolian Research, 20, 1. 2016AeoRe..20....1S

A novel method for surface exploration: Super-resolution restoration of Mars repeat-pass orbital imagery, Tao, Y., & Muller, J.-P. (2016), Planetary and Space Sciences, 121, 103. 2016P&SS..121..103T

Complex geomorphologic assemblage of terrains in association with the banded terrain in Hellas basin, Mars, Diot, X., El-Maarry, M. R., Schlunegger, F., Norton, K. P., Thomas, N., Grindrod, P. M., & Chojnacki, M. (2016), Planetary and Space Sciences, 121, 36. 2016P&SS..121...36D

Recent near-surface wind directions inferred from mapping sand ripples on Martian dunes, Liu, Z. Y.-C., & Zimbelman, J. R. (2015), Icarus, 261, 169. 2015Icar..261..169L

Extensive Middle Amazonian mantling of debris aprons and plains in Deuteronilus Mensae, Mars: Implications for the record of mid-latitude glaciation, Baker, D. M. H., & Head, J. W. (2015), Icarus, 260, 269. 2015Icar..260..269B

Scoria cones on Mars: Detailed investigation of morphometry based on high-resolution digital elevation models, Brož, P., Čadek, O., Hauber, E., & Rossi, A. P. (2015), Journal of Geophysical Research (Planets), 120, 1512. 2015JGRE..120.1512B

Sedimentological analyses of martian gullies: The subsurface as the key to the surface, de Haas, T., Ventra, D., Hauber, E., Conway, S. J., & Kleinhans, M. G. (2015), Icarus, 258, 92. 2015Icar..258...92D

Volcanic terrain and the possible periglacial formation of "excess ice" at the mid-latitudes of Utopia Planitia, Mars, Soare, R. J., Horgan, B., Conway, S. J., Souness, C., & El-Maarry, M. R. (2015), Earth and Planetary Science Letters, 423, 182. 2015E&PSL.423..182S

Automated quantitative measurements and associated error covariances for planetary image analysis, Tar, P. D., Thacker, N. A., Gilmour, J. D., & Jones, M. A. (2015), Advances in Space Research, 56, 92. 2015AdSpR..56...92T

Atypical pit craters on Mars: New insights from THEMIS, CTX, and HiRISE observations, Cushing, G. E., Okubo, C. H., & Titus, T. N. (2015), Journal of Geophysical Research (Planets), 120, 1023. 2015JGRE..120.1023C

Characterization and mapping of surface physical properties of Mars from CRISM multi-angular data: Application to Gusev Crater and Meridiani Planum, Fernando, J., Schmidt, F., Pilorget, C., Pinet, P., Ceamanos, X., Douté, S., Daydou, Y., & Costard, F. (2015), Icarus, 253, 271. 2015Icar..253..271F

The central uplift of Ritchey crater, Mars, Ding, N., Bray, V. J., McEwen, A. S., Mattson, S. S., Okubo, C. H., Chojnacki, M., & Tornabene, L. L. (2015), Icarus, 252, 255. 2015Icar..252..255D

Evidence for an explosive origin of central pit craters on Mars, Williams, N. R., Bell, J. F., Christensen, P. R., & Farmer, J. D. (2015), Icarus, 252, 175. 2015Icar..252..175W

Mineralogy, morphology and stratigraphy of the light-toned interior layered deposits at Juventae Chasma, Noel, A., Bishop, J. L., Al-Samir, M., Gross, C., Flahaut, J., McGuire, P. C., Weitz, C. M., Seelos, F., & Murchie, S. (2015), Icarus, 251, 315. 2015Icar..251..315N

Persistent aeolian activity at Endeavour crater, Meridiani Planum, Mars; new observations from orbit and the surface, Chojnacki, M., Johnson, J. R., Moersch, J. E., Fenton, L. K., Michaels, T. I., & Bell, J. F. (2015), Icarus, 251, 275. 2015Icar..251..275C

Agents of change on Mars' northern dunes: CO₂ ice and wind, Hansen, C. J., Diniega, S., Bridges, N., Byrne, S., Dundas, C., McEwen, A., & Portyankina, G. (2015), Icarus, 251, 264. 2015Icar..251..264H

Long-term monitoring of martian gully formation and evolution with MRO/HiRISE, Dundas, C. M., Diniega, S., & McEwen, A. S. (2015), Icarus, 251, 244. 2015Icar..251..244D

Transient bright "halos" on the South Polar Residual Cap of Mars: Implications for mass-balance, Becerra, P., Byrne, S., & Brown, A. J. (2015), Icarus, 251, 211. 2015Icar..251..211B

Mapping Mars: Geodetic and cartographic aspects, Statella, T. (2015), Planetary and Space Sciences, 108, 1. 2015P&SS..108....1S

Extensive computation of albedo contrast between martian dust devil tracks and their neighboring regions, Statella, T., Pina, P., & da Silva, E. A. (2015), Icarus, 250, 43. 2015Icar..250...43S

Expanded secondary craters in the Arcadia Planitia region, Mars: Evidence for tens of Myr-old shallow subsurface ice, Viola, D., McEwen, A. S., Dundas, C. M., & Byrne, S. (2015), Icarus, 248, 190. 2015Icar..248..190V

High-resolution studies of double-layered ejecta craters: Morphology, inherent structure, and a phenomenological formation model, Wulf, G., & Kenkmann, T. (2015), Meteoritics & Planetary Science, 50, 173. 2015M&PS...50..173W

Morphometry of small recent impact craters on Mars: Size and terrain dependence, short-term modification, Watters, W. A., Geiger, L. M., Fendrock, M., & Gibson, R. (2015), Journal of Geophysical Research (Planets), 120, 226. 2015JGRE..120..226W

Reconstructing Past Depositional and Diagenetic Processes through Quantitative Stratigraphic Analysis of the Martian Sedimentary Rock Record, Stack, K. M. (2015), Ph.D. Thesis,. 2015PhDT.......383S

Cratering on Mars with almost no atmosphere or volatiles: Pangboche crater, Mouginis-Mark, P. J. (2015), Meteoritics & Planetary Science, 50, 51. 2015M&PS...50...51M

Amazonian thermokarst in Danielson crater, Arabia Terra region, Mars, Baioni, D., Murana, A., & Tramontana, M. (2014), Planetary and Space Sciences, 104, 310. 2014P&SS..104..310B

Identification and visualisation of possible ancient ocean shoreline on Mars using submeter-resolution Digital Terrain Models, Świąder, A. (2014), Geologos, 20, 289. 2014Geolg..20..289S

The surface geology and geomorphology of Phobos, Basilevsky, A. T., Lorenz, C. A., Shingareva, T. V., Head, J. W., Ramsley, K. R., & Zubarev, A. E. (2014), Planetary and Space Sciences, 102, 95. 2014P&SS..102...95B

Evidence for Middle Amazonian catastrophic flooding and glaciation on Mars, Rodríguez, J. A. P., Gulick, V. C., Baker, V. R., Platz, T., Fairén, A. G., Miyamoto, H., Kargel, J. S., Rice, J. W., & Glines, N. (2014), Icarus, 242, 202. 2014Icar..242..202R

The geomorphology and morphometry of the banded terrain in Hellas basin, Mars, Diot, X., El-Maarry, M. R., Schlunegger, F., Norton, K. P., Thomas, N., & Grindrod, P. M. (2014), Planetary and Space Sciences, 101, 118. 2014P&SS..101..118D

Detection of copiapite in the northern Mawrth Vallis region of Mars: Evidence of acid sulfate alteration, Farrand, W. H., Glotch, T. D., & Horgan, B. (2014), Icarus, 241, 346. 2014Icar..241..346F

Potential desiccation cracks on Mars: A synthesis from modeling, analogue-field studies, and global observations, El-Maarry, M. R., Watters, W., McKeown, N. K., Carter, J., Noe Dobrea, E., Bishop, J. L., Pommerol, A., & Thomas, N. (2014), Icarus, 241, 248. 2014Icar..241..248E

Topography of polygonal structures at the Phoenix landing site on mars through the relief retrieval from the HiRISE images with the improved photoclinometry method, Bondarenko, N. V., Dulova, I. A., & Kornienko, Y. V. (2014), Solar System Research, 48, 243. 2014SoSyR..48..243B

Automated determination of the orientation of dust devil tracks in mars orbiter images, Statella, T., Pina, P., & da Silva, E. A. (2014), Advances in Space Research, 53, 1822. 2014AdSpR..53.1822S

A network of lava tubes as the origin of Labyrinthus Noctis and Valles Marineris on Mars, Leone, G. (2014), Journal of Volcanology and Geothermal Research, 277, 1. 2014JVGR..277....1L

A cold hydrological system in Gale crater, Mars, Fairén, A. G., Stokes, C. R., Davies, N. S., Schulze-Makuch, D., Rodríguez, J. A. P., Davila, A. F., Uceda, E. R., Dohm, J. M., Baker, V. R., Clifford, S. M., McKay, C. P., & Squyres, S. W. (2014), Planetary and Space Sciences, 93, 101. 2014P&SS...93..101F

Dust deflation by dust devils on Mars derived from optical depth measurements using the shadow method in HiRISE images, Reiss, D., Hoekzema, N. M., & Stenzel, O. J. (2014), Planetary and Space Sciences, 93, 54. 2014P&SS...93...54R

3D Data Products and Web-GIS for Mars Rover Mission for Seamless Visualisation from Orbit to Ground-level, Tao, Y., Muller, J.-P., Willner, K., Morley, J., Sprinks, J., Traxler, C., & Paar, G. (2014), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XL4, 249. 2014ISPAr.XL4..249T

Evaluation of an Area-Based matching algorithm with advanced shape models, Re, C., Roncella, R., Forlani, G., Cremonese, G., & Naletto, G. (2014), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XL4, 215. 2014ISPAr.XL4..215R

Morphologic characteristics of volcanic and sedimentary sequences on Mars, Ivanov, M. A., Abdrakhimov, A. M., Guseva, E. N., Kostama, V. P., Raitala, J., Korteniemi, J., & Törmänen, T. (2014), Solar System Research, 48, 130. 2014SoSyR..48..130I

Geometry, stratigraphy and evidences for fluid expulsion within Crommelin crater deposits, Arabia Terra, Mars, Franchi, F., Rossi, A. P., Pondrelli, M., & Cavalazzi, B. (2014), Planetary and Space Sciences, 92, 34. 2014P&SS...92...34F

HiRISE observations of Recurring Slope Lineae (RSL) during southern summer on Mars, Ojha, L., McEwen, A., Dundas, C., Byrne, S., Mattson, S., Wray, J., Masse, M., & Schaefer, E. (2014), Icarus, 231, 365. 2014Icar..231..365O

Inverse maximum gross bedform-normal transport 2: Application to a dune field in Ganges Chasma, Mars and comparison with HiRISE repeat imagery and MRAMS, Fenton, L. K., Michaels, T. I., Chojnacki, M., & Beyer, R. A. (2014), Icarus, 230, 47. 2014Icar..230...47F

Co-evolution of polygonal and scalloped terrains, southwestern Utopia Planitia, Mars, Haltigin, T. W., Pollard, W. H., Dutilleul, P., Osinski, G. R., & Koponen, L. (2014), Earth and Planetary Science Letters, 387, 44. 2014E&PSL.387...44H

HiRISE observations of new impact craters exposing Martian ground ice, Dundas, C. M., Byrne, S., McEwen, A. S., Mellon, M. T., Kennedy, M. R., Daubar, I. J., & Saper, L. (2014), Journal of Geophysical Research (Planets), 119, 109. 2014JGRE..119..109D

The horizontal motion of dust devils on Mars derived from CRISM and CTX/HiRISE observations, Reiss, D., Spiga, A., & Erkeling, G. (2014), Icarus, 227, 8. 2014Icar..227....8R

Morphology and geology of an interior layered deposit in the western Tithonium Chasma, Mars, Baioni, D. (2013), Planetary and Space Sciences, 89, 140. 2013P&SS...89..140B

Evidence of extensive glaciation in Deuteronilus Mensae, Mars: Inferences towards multiple glacial events in the past epochs, Sinha, R. K., & Murty, S. V. S. (2013), Planetary and Space Sciences, 86, 10. 2013P&SS...86...10S

Multi-resolution digital terrain models and their potential for Mars landing site assessments, Kim, J.-R., Lin, S.-Y., Muller, J.-P., Warner, N. H., & Gupta, S. (2013), Planetary and Space Sciences, 85, 89. 2013P&SS...85...89K

Morphology and evolution of the ejecta of Hale crater in Argyre basin, Mars: Results from high resolution mapping, El-Maarry, M. R., Dohm, J. M., Michael, G., Thomas, N., & Maruyama, S. (2013), Icarus, 226, 905. 2013Icar..226..905E

Possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of Utopia Planitia, Mars, Soare, R. J., Conway, S. J., Pearce, G. D., Dohm, J. M., & Grindrod, P. M. (2013), Icarus, 225, 971. 2013Icar..225..971S

Observations of the northern seasonal polar cap on Mars III: CRISM/HiRISE observations of spring sublimation, Pommerol, A., Appéré, T., Portyankina, G., Aye, K.-M., Thomas, N., & Hansen, C. J. (2013), Icarus, 225, 911. 2013Icar..225..911P

Observations of the northern seasonal polar cap on Mars II: HiRISE photometric analysis of evolution of northern polar dunes in spring, Portyankina, G., Pommerol, A., Aye, K.-M., Hansen, C. J., & Thomas, N. (2013), Icarus, 225, 898. 2013Icar..225..898P

Knob fields in the Terra Cimmeria/Terra Sirenum region of Mars: Stratigraphy, mineralogy and morphology, Wendt, L., Bishop, J. L., & Neukum, G. (2013), Icarus, 225, 200. 2013Icar..225..200W

Properties of martian slope streak populations, Bergonio, J. R., Rottas, K. M., & Schorghofer, N. (2013), Icarus, 225, 194. 2013Icar..225..194B

Bed thickness distributions on Mars: An orbital perspective, Stack, K. M., Grotzinger, J. P., & Milliken, R. E. (2013), Journal of Geophysical Research (Planets), 118, 1323. 2013JGRE..118.1323S

Variability of rock texture and morphology correlated with the clay-bearing units at Mawrth Vallis, Mars, McKeown, N. K., Bishop, J. L., & Silver, E. A. (2013), Journal of Geophysical Research (Planets), 118, 1245. 2013JGRE..118.1245M

Avalanche slope angles in low-gravity environments from active Martian sand dunes, Atwood-Stone, C., & McEwen, A. S. (2013), Geophysical Research Letters, 40, 2929. 2013GeoRL..40.2929A

Bedform migration on Mars: Current results and future plans, Bridges, N., Geissler, P., Silvestro, S., & Banks, M. (2013), Aeolian Research, 9, 133. 2013AeoRe...9..133B

Hellas Planitia as a potential site of sedimentary minerals, Zalewska Andrzejewska, N. (2013), Planetary and Space Sciences, 78, 25. 2013P&SS...78...25Z

Identification of possible recent water/lava source vents in the Cerberus plains: Stratigraphic andcrater count age constraints, Thomas, R. J. (2013), Journal of Geophysical Research (Planets), 118, 789. 2013JGRE..118..789T

Analysis of transverse aeolian ridge profiles derived from HiRISE images of Mars, Shockey, K. M., & Zimbelman, J. R. (2013), Earth Surface Processes and Landforms, 38, 179. 2013ESPL...38..179S

Spectral Identification and Analyses of Hydrous Mineral Deposits: Implications for the Aqueous History of Aram Chaos and Melas Chasma, Mars, Liu, Y. (2013), Ph.D. Thesis,. 2013PhDT.......129L

A detailed geologic characterization of Eberswalde crater, Mars, Rice, M. S., BellI, J. F., Gupta, S., Warner, N. H., Goddard, K., & Anderson, R. B. (2013), International Journal of Mars Science and Exploration, 8, 15. 2013IJMSE...8...15R

Characterization of palimpsest craters on Mars, Barata, T., Alves, E. I., Machado, A., & Barberes, G. A. (2012), Planetary and Space Sciences, 72, 62. 2012P&SS...72...62B

Mars periglacial punctual features analyses, Machado, A., Barata, T., Ivo Alves, E., & Cunha, P. P. (2012), Planetary and Space Sciences, 72, 53. 2012P&SS...72...53M

Morphological and mechanical characterization of gullies in a periglacial environment: The case of the Russell crater dune (Mars), Jouannic, G., Gargani, J., Costard, F., Ori, G. G., Marmo, C., Schmidt, F., & Lucas, A. (2012), Planetary and Space Sciences, 71, 38. 2012P&SS...71...38J

Meter-Scale Slopes of Candidate MSL Landing Sites from Point Photoclinometry, Beyer, R. A., & Kirk, R. L. (2012), Space Science Reviews, 170, 775. 2012SSRv..170..775B

Mars Science Laboratory Mission and Science Investigation, Grotzinger, J. P., Crisp, J., Vasavada, A. R., Anderson, R. C., Baker, C. J., Barry, R., Blake, D. F., Conrad, P., Edgett, K. S., Ferdowski, B., Gellert, R., Gilbert, J. B., Golombek, M., Gómez-Elvira, J., Hassler, D. M., Jandura, L., Litvak, M., Mahaffy, P., Maki, J., Meyer, M., Malin, M. C., Mitrofanov, I., Simmonds, J. J., Vaniman, D., Welch, R. V., & Wiens, R. C. (2012), Space Science Reviews, 170, 5. 2012SSRv..170....5G

Image processing algorithm for the identification of Martian dust devil tracks in MOC and HiRISE images, Statella, T., Pina, P., & da Silva, E. A. (2012), Planetary and Space Sciences, 70, 46. 2012P&SS...70...46S

Composition and structures of the subsurface in the vicinity of Valles Marineris as revealed by central uplifts of impact craters, Quantin, C., Flahaut, J., Clenet, H., Allemand, P., & Thomas, P. (2012), Icarus, 221, 436. 2012Icar..221..436Q

Pristine Noachian crust and key geologic transitions in the lower walls of Valles Marineris: Insights into early igneous processes on Mars, Flahaut, J., Quantin, C., Clenet, H., Allemand, P., Mustard, J. F., & Thomas, P. (2012), Icarus, 221, 420. 2012Icar..221..420F

Topographic, spectral and thermal inertia analysis of interior layered deposits in Iani Chaos, Mars, Sefton-Nash, E., Catling, D. C., Wood, S. E., Grindrod, P. M., & Teanby, N. A. (2012), Icarus, 221, 20. 2012Icar..221...20S

Identification and mapping of dikes with relatively primitive compositions in Thaumasia Planum on Mars: Implications for Tharsis volcanism and the opening of Valles Marineris, Huang, J., Edwards, C. S., Horgan, B. H. N., Christensen, P. R., Kraft, M. D., & Xiao, L. (2012), Geophysical Research Letters, 39, L17201. 2012GeoRL..3917201H

Crater wall outcrop analysis for targeting subsurface sampling on Mars, Kereszturi, A. (2012), Planetary and Space Sciences, 67, 14. 2012P&SS...67...14K

Geologic relationships between gray hematite, sulfates, and clays in Capri Chasma, Weitz, C. M., Noe Dobrea, E. Z., Lane, M. D., & Knudson, A. T. (2012), Journal of Geophysical Research (Planets), 117, E00J09. 2012JGRE..117.0J09W

Structural asymmetry in martian impact craters as an indicator for an impact trajectory, Wulf, G., Poelchau, M. H., & Kenkmann, T. (2012), Icarus, 220, 194. 2012Icar..220..194W

Seasonal activity and morphological changes in martian gullies, Dundas, C. M., Diniega, S., Hansen, C. J., Byrne, S., & McEwen, A. S. (2012), Icarus, 220, 124. 2012Icar..220..124D

Detailed stratigraphy and bed thickness of the Mars north and south polar layered deposits, Limaye, A. B. S., Aharonson, O., & Perron, J. T. (2012), Journal of Geophysical Research (Planets), 117, E06009. 2012JGRE..117.6009L

Hydrological characteristics of recurrent slope lineae on Mars: Evidence for liquid flow through regolith and comparisons with Antarctic terrestrial analogs, Levy, J. (2012), Icarus, 219, 1. 2012Icar..219....1L

Seasonally active slipface avalanches in the north polar sand sea of Mars: Evidence for a wind-related origin, Horgan, B. H. N., & Bell, J. F. (2012), Geophysical Research Letters, 39, L09201. 2012GeoRL..39.9201H

Most Mars minerals in a nutshell: Various alteration phases formed in a single environment in Noctis Labyrinthus, Thollot, P., Mangold, N., Ansan, V., Le Mouélic, S., Milliken, R. E., Bishop, J. L., Weitz, C. M., Roach, L. H., Mustard, J. F., & Murchie, S. L. (2012), Journal of Geophysical Research (Planets), 117, E00J06. 2012JGRE..117.0J06T

Inverted fluvial features in the Aeolis-Zephyria Plana, western Medusae Fossae Formation, Mars: Evidence for post-formation modification, Lefort, A., Burr, D. M., Beyer, R. A., & Howard, A. D. (2012), Journal of Geophysical Research (Planets), 117, E03007. 2012JGRE..117.3007L

Extensive surface pedogenic alteration of the Martian Noachian crust suggested by plateau phyllosilicates around Valles Marineris, Le Deit, L., Flahaut, J., Quantin, C., Hauber, E., Mège, D., Bourgeois, O., Gurgurewicz, J., Massé, M., & Jaumann, R. (2012), Journal of Geophysical Research (Planets), 117, E00J05. 2012JGRE..117.0J05L

Periglacial mass-wasting landforms on Mars suggestive of transient liquid water in the recent past: Insights from solifluction lobes on Svalbard, Johnsson, A., Reiss, D., Hauber, E., Zanetti, M., Hiesinger, H., Johansson, L., & Olvmo, M. (2012), Icarus, 218, 489. 2012Icar..218..489J

Formation of an Hesperian-aged sedimentary basin containing phyllosilicates in Coprates Catena, Mars, Grindrod, P. M., West, M., Warner, N. H., & Gupta, S. (2012), Icarus, 218, 178. 2012Icar..218..178G

Major episodes of geologic history of Isidis Planitia on Mars, Ivanov, M. A., Hiesinger, H., Erkeling, G., Hielscher, F. J., & Reiss, D. (2012), Icarus, 218, 24. 2012Icar..218...24I

Possible evidence of paleomarsquakes from fallen boulder populations, Cerberus Fossae, Mars, Roberts, G. P., Matthews, B., Bristow, C., Guerrieri, L., & Vetterlein, J. (2012), Journal of Geophysical Research (Planets), 117, E02009. 2012JGRE..117.2009R

Polygonal cracks in the seasonal semi-translucent CO₂ ice layer in Martian polar areas, Portyankina, G., Pommerol, A., Aye, K.-M., Hansen, C. J., & Thomas, N. (2012), Journal of Geophysical Research (Planets), 117, E02006. 2012JGRE..117.2006P

Optical depth of the Martian atmosphere and surface albedo from high-resolution orbiter images, Petrova, E. V., Hoekzema, N. M., Markiewicz, W. J., Thomas, N., & Stenzel, O. J. (2012), Planetary and Space Sciences, 60, 287. 2012P&SS...60..287P

Evidence of an eolian ice-rich and stratified permafrost in Utopia Planitia, Mars, Séjourné, A., Costard, F., Gargani, J., Soare, R. J., & Marmo, C. (2012), Planetary and Space Sciences, 60, 248. 2012P&SS...60..248S

Surface age of the ice-dust mantle deposit in Malea Planum, Mars, Willmes, M., Reiss, D., Hiesinger, H., & Zanetti, M. (2012), Planetary and Space Sciences, 60, 199. 2012P&SS...60..199W

Detection and Characterization of Rocks and Rock Size-Frequency Distributions at the Final Four Mars Science Laboratory Landing Sites, Golombek, M., Huertas, A., Kipp, D., & Calef, F. (2012), International Journal of Mars Science and Exploration, 7, 1. 2012IJMSE...7....1G

Aqueous mineralogy and stratigraphy at and around the proposed Mawrth Vallis MSL Landing Site: New insights into the aqueous history of the region, Noe Dobrea, E. Z., Michalski, J., & Swayze, G. (2011), International Journal of Mars Science and Exploration, 6, 32. 2011IJMSE...6...32N

Measurements of Martian dust devil winds with HiRISE, Choi, D. S., & Dundas, C. M. (2011), Geophysical Research Letters, 38, L24206. 2011GeoRL..3824206C

Recent tectonics and subsidence on Mars: Hints from Aureum Chaos, Spagnuolo, M. G., Rossi, A. P., Hauber, E., & van Gasselt, S. (2011), Earth and Planetary Science Letters, 312, 13. 2011E&PSL.312...13S

Mars Odyssey neutron data: 2. Search for buried excess water ice deposits at nonpolar latitudes on Mars, Feldman, W. C., Pathare, A., Maurice, S., Prettyman, T. H., Lawrence, D. J., Milliken, R. E., & Travis, B. J. (2011), Journal of Geophysical Research (Planets), 116, E11009. 2011JGRE..11611009F

Boulder movement at high northern latitudes of Mars, Orloff, T., Kreslavsky, M., Asphaug, E., & Korteniemi, J. (2011), Journal of Geophysical Research (Planets), 116, E11006. 2011JGRE..11611006O

Polygon pattern geomorphometry on Svalbard (Norway) and western Utopia Planitia (Mars) using high-resolution stereo remote-sensing data, Ulrich, M., Hauber, E., Herzschuh, U., Härtel, S., & Schirrmeister, L. (2011), Geomorphology, 134, 197. 2011Geomo.134..197U

Possible role of brines in the darkening and flow-like features on the Martian polar dunes based on HiRISE images, Kereszturi, A., Möhlmann, D., Berczi, S., Horvath, A., Sik, A., & Szathmary, E. (2011), Planetary and Space Sciences, 59, 1413. 2011P&SS...59.1413K

Spectral heterogeneity on Phobos and Deimos: HiRISE observations and comparisons to Mars Pathfinder results, Thomas, N., Stelter, R., Ivanov, A., Bridges, N. T., Herkenhoff, K. E., & McEwen, A. S. (2011), Planetary and Space Sciences, 59, 1281. 2011P&SS...59.1281T

Possible climate-related signals in high-resolution topography of lobate debris aprons in Tempe Terra, Mars, Grindrod, P. M., & Fawcett, S. A. (2011), Geophysical Research Letters, 38, L19201. 2011GeoRL..3819201G

Evolution of south seasonal cap during Martian spring: Insights from high-resolution observations by HiRISE and CRISM on Mars Reconnaissance Orbiter, Pommerol, A., Portyankina, G., Thomas, N., Aye, K.-M., Hansen, C. J., Vincendon, M., & Langevin, Y. (2011), Journal of Geophysical Research (Planets), 116, E08007. 2011JGRE..116.8007P

Retrieving optical depth from shadows in orbiter images of Mars, Hoekzema, N. M., Garcia-Comas, M., Stenzel, O. J., Petrova, E. V., Thomas, N., Markiewicz, W. J., Gwinner, K., Keller, H. U., & Delamere, W. A. (2011), Icarus, 214, 447. 2011Icar..214..447H

Constraints on the origin and evolution of the layered mound in Gale Crater, Mars using Mars Reconnaissance Orbiter data, Thomson, B. J., Bridges, N. T., Milliken, R., Baldridge, A., Hook, S. J., Crowley, J. K., Marion, G. M., de Souza Filho, C. R., Brown, A. J., & Weitz, C. M. (2011), Icarus, 214, 413. 2011Icar..214..413T

Topographic Local Roughness Extraction and Calibration Over Martian Surface by Very High Resolution Stereo Analysis and Multi Sensor Data Fusion, Kim, J. R., & Park, J. G. (2011), ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 3825, 131. 2011ISPAr3825W.131K

Influence of fault-controlled topography on fluvio-deltaic sedimentary systems in Eberswalde crater, Mars, Rice, M. S., Gupta, S., Bell, J. F., & Warner, N. H. (2011), Geophysical Research Letters, 38, L16203. 2011GeoRL..3816203R

Field reconnaissance geologic mapping of the Columbia Hills, Mars, based on Mars Exploration Rover Spirit and MRO HiRISE observations, Crumpler, L. S., Arvidson, R. E., Squyres, S. W., McCoy, T., Yingst, A., Ruff, S., Farrand, W., McSween, Y., Powell, M., Ming, D. W., Morris, R. V., Bell, J. F., Grant, J., Greeley, R., DesMarais, D., Schmidt, M., Cabrol, N. A., Haldemann, A., Lewis, K. W., Wang, A. E., Schröder, C., Blaney, D., Cohen, B., Yen, A., Farmer, J., Gellert, R., Guinness, E. A., Herkenhoff, K. E., Johnson, J. R., Klingelhöfer, G., McEwen, A., Rice, J. W., Rice, M., deSouza, P., & Hurowitz, J. (2011), Journal of Geophysical Research (Planets), 116, E00F24. 2011JGRE..116.0F24C

Slope morphology of hills at the Mars Pathfinder landing site, Hobbs, S. W., Pain, C. F., & Clarke, J. D. A. (2011), Icarus, 214, 258. 2011Icar..214..258H

Rigorous Photogrammetric Processing of HiRISE Stereo Imagery for Mars Topographic Mapping, Li, R., Hwangbo, J., Chen, Y., & di, K. (2011), IEEE Transactions on Geoscience and Remote Sensing, 49, 2558. 2011ITGRS..49.2558L

Distribution and time-variation of spire streaks at Pavonis Mons on Mars, Toyota, T., Kurita, K., & Spiga, A. (2011), Planetary and Space Sciences, 59, 672. 2011P&SS...59..672T

Scalloped depressions and small-sized polygons in western Utopia Planitia, Mars: A new formation hypothesis, Séjourné, A., Costard, F., Gargani, J., Soare, R. J., Fedorov, A., & Marmo, C. (2011), Planetary and Space Sciences, 59, 412. 2011P&SS...59..412S

Evidence of volcanic and glacial activity in Chryse and Acidalia Planitiae, Mars, Martínez-Alonso, S., Mellon, M. T., Banks, M. E., Keszthelyi, L. P., McEwen, A. S., & HiRISE Team (2011), Icarus, 212, 597. 2011Icar..212..597M

Sub-surface CO₂ gas flow in Mars' polar regions: Gas transport under constant production rate conditions, Thomas, N., Portyankina, G., Hansen, C. J., & Pommerol, A. (2011), Geophysical Research Letters, 38, L08203. 2011GeoRL..38.8203T

HiRISE observations of gas sublimation-driven activity in Mars’ southern polar regions: IV. Fluid dynamics models of CO₂ jets, Thomas, N., Portyankina, G., Hansen, C. J., & Pommerol, A. (2011), Icarus, 212, 66. 2011Icar..212...66T

MER Spirit rover localization: Comparison of ground image- and orbital image-based methods and science applications, Li, R., He, S., Chen, Y., Tang, M., Tang, P., Di, K., Matthies, L., Arvidson, R. E., Squyres, S. W., Crumpler, L. S., Parker, T., & Sims, M. (2011), Journal of Geophysical Research (Planets), 116, E00F16. 2011JGRE..116.0F16L

An analysis of the stability and transport of CO₂ on Mars and Iapetus: Increasing accuracy via experiments and photometry, Blackburn, D. G. (2011), Ph.D. Thesis,. 2011PhDT.........4B

Water ice in the dark dune spots of Richardson crater on Mars, Kereszturi, A., Vincendon, M., & Schmidt, F. (2011), Planetary and Space Sciences, 59, 26. 2011P&SS...59...26K

Identifying degrees of freedom in pushbroom bundle adjustment, Jama, M., Lewis, C., & Schinstock, D. (2011), ISPRS Journal of Photogrammetry and Remote Sensing, 66, 400. 2011JPRS...66..400J

Temporal observations of bright soil exposures at Gusev crater, Mars, Rice, M. S., Bell, J. F., Cloutis, E. A., Wray, J. J., Herkenhoff, K. E., Sullivan, R., Johnson, J. R., & Anderson, R. B. (2011), Journal of Geophysical Research (Planets), 116, E00F14. 2011JGRE..116.0F14R

Sorted clastic stripes, lobes and associated gullies in high-latitude craters on Mars: Landforms indicative of very recent, polycyclic ground-ice thaw and liquid flows, Gallagher, C., Balme, M. R., Conway, S. J., & Grindrod, P. M. (2011), Icarus, 211, 458. 2011Icar..211..458G

Geomorphological characterisation and interpretation of a mid-latitude glacier-like form: Hellas Planitia, Mars, Hubbard, B., Milliken, R. E., Kargel, J. S., Limaye, A., & Souness, C. (2011), Icarus, 211, 330. 2011Icar..211..330H

Constraints on mechanisms for the growth of gully alcoves in Gasa crater, Mars, from two-dimensional stability assessments of rock slopes, Okubo, C. H., Tornabene, L. L., & Lanza, N. L. (2011), Icarus, 211, 207. 2011Icar..211..207O

Spectral evidence of volcanic cryptodomes on the northern plains of Mars, Farrand, W. H., Lane, M. D., Edwards, B. R., & Aileen Yingst, R. (2011), Icarus, 211, 139. 2011Icar..211..139F

Analysis of two sections of Shalbatana Vallis’ tributary channels, Kereszturi, A. (2010), Planetary and Space Sciences, 58, 2008. 2010P&SS...58.2008K

A study of the record of ancient sedimentary rocks on Mars using MER, HiRISE and CRISM images, Metz, J. M. (2010), Ph.D. Thesis,. 2010PhDT.......415M

Thin-skinned deformation of sedimentary rocks in Valles Marineris, Mars, Metz, J., Grotzinger, J., Okubo, C., & Milliken, R. (2010), Journal of Geophysical Research (Planets), 115, E11004. 2010JGRE..11511004M

Constraints on ripple migration at Meridiani Planum from Opportunity and HiRISE observations of fresh craters, Golombek, M., Robinson, K., McEwen, A., Bridges, N., Ivanov, B., Tornabene, L., & Sullivan, R. (2010), Journal of Geophysical Research (Planets), 115, E00F08. 2010JGRE..115.0F08G

Aeolian processes and dune morphology in Gale Crater, Hobbs, S. W., Paull, D. J., & Bourke, M. C. (2010), Icarus, 210, 102. 2010Icar..210..102H

Evaporation effects on the formation of martian gullies, Bryson, K. L., Dixon, J. C., & Sears, D. W. G. (2010), Icarus, 210, 72. 2010Icar..210...72B

Water on ancient Mars: Forming the phyllosilicates at Mawrth Vallis, McKeown, N. K. (2010), Ph.D. Thesis,. 2010PhDT.......126M

Comparison of ground- and aerial-based approaches for quantifying polygonal terrain network geometry on Earth and Mars via spatial point pattern analysis, Haltigin, T., Pollard, W., & Dutilleul, P. (2010), Planetary and Space Sciences, 58, 1636. 2010P&SS...58.1636H

Mapping Medusae Fossae Formation materials in the southern highlands of Mars, Harrison, S. K., Balme, M. R., Hagermann, A., Murray, J. B., & Muller, J.-P. (2010), Icarus, 209, 405. 2010Icar..209..405H

Concentric crater fill in the northern mid-latitudes of Mars: Formation processes and relationships to similar landforms of glacial origin, Levy, J., Head, J. W., & Marchant, D. R. (2010), Icarus, 209, 390. 2010Icar..209..390L

Possible impact melt and debris flows at Tooting Crater, Mars, Morris, A. R., Mouginis-Mark, P. J., & Garbeil, H. (2010), Icarus, 209, 369. 2010Icar..209..369M

Observations from the High Resolution Imaging Science Experiment (HiRISE): Martian dust devils in Gusev and Russell craters, Verba, C. A., Geissler, P. E., Titus, T. N., & Waller, D. (2010), Journal of Geophysical Research (Planets), 115, E09002. 2010JGRE..115.9002V

Transverse Aeolian Ridges on Mars: First results from HiRISE images, Zimbelman, J. R. (2010), Geomorphology, 121, 22. 2010Geomo.121...22Z

The Three Types of Liquid Water in the Surface of Mars, Mohlmann, D. (2010), Origins of Life and Evolution of the Biosphere, 40, 560. 2010OLEB...40..560M

Dune field pattern formation and recent transporting winds in the Olympia Undae Dune Field, north polar region of Mars, Ewing, R. C., Peyret, A.-P. B., Kocurek, G., & Bourke, M. (2010), Journal of Geophysical Research (Planets), 115, E08005. 2010JGRE..115.8005E

Morphology, stratigraphy, and mineralogical composition of a layered formation covering the plateaus around Valles Marineris, Mars: Implications for its geological history, Le Deit, L., Bourgeois, O., Mège, D., Hauber, E., Le Mouélic, S., Massé, M., Jaumann, R., & Bibring, J.-P. (2010), Icarus, 208, 684. 2010Icar..208..684L

Do young martian ray craters have ages consistent with the crater count system?, Hartmann, W. K., Quantin, C., Werner, S. C., & Popova, O. (2010), Icarus, 208, 621. 2010Icar..208..621H

Hydrothermal formation of Clay-Carbonate alteration assemblages in the Nili Fossae region of Mars, Brown, A. J., Hook, S. J., Baldridge, A. M., Crowley, J. K., Bridges, N. T., Thomson, B. J., Marion, G. M., de Souza Filho, C. R., & Bishop, J. L. (2010), Earth and Planetary Science Letters, 297, 174. 2010E&PSL.297..174B

Formation constraints on Martian north polar volcanic edifices, Fagan, A. L., Sakimoto, S. E. H., & Hughes, S. S. (2010), Journal of Geophysical Research (Planets), 115, E07013. 2010JGRE..115.7013F

Spectral and stratigraphic mapping of hydrated sulfate and phyllosilicate-bearing deposits in northern Sinus Meridiani, Mars, Wiseman, S. M., Arvidson, R. E., Morris, R. V., Poulet, F., Andrews-Hanna, J. C., Bishop, J. L., Murchie, S. L., Seelos, F. P., Des Marais, D., & Griffes, J. L. (2010), Journal of Geophysical Research (Planets), 115, E00D18. 2010JGRE..115.0D18W

Investigating gully flow emplacement mechanisms using apex slopes, Kolb, K. J., McEwen, A. S., & Pelletier, J. D. (2010), Icarus, 208, 132. 2010Icar..208..132K

Defrosting, dark flow features, and dune activity on Mars: Example in Russell crater, Gardin, E., Allemand, P., Quantin, C., & Thollot, P. (2010), Journal of Geophysical Research (Planets), 115, E06016. 2010JGRE..115.6016G

Numerical modeling of Martian gully sediment transport: Testing the fluvial hypothesis, Parsons, R. A., & Nimmo, F. (2010), Journal of Geophysical Research (Planets), 115, E06001. 2010JGRE..115.6001P

Diagenetic haematite and sulfate assemblages in Valles Marineris, Roach, L. H., Mustard, J. F., Lane, M. D., Bishop, J. L., & Murchie, S. L. (2010), Icarus, 207, 659. 2010Icar..207..659R

An assessment of surface matching for the automated co-registration of MOLA, HRSC and HiRISE DTMs, Lin, S.-Y., Muller, J.-P., Mills, J. P., & Miller, P. E. (2010), Earth and Planetary Science Letters, 294, 520. 2010E&PSL.294..520L

The Circum-Hellas Volcanic Province, Mars: Assessment of wrinkle-ridged plains, Williams, D. A., Greeley, R., Manfredi, L., Raitala, J., Neukum, G., & HRSC Co-Investigator Team (2010), Earth and Planetary Science Letters, 294, 492. 2010E&PSL.294..492W

Structural analysis of interior layered deposits in Northern Coprates Chasma, Mars, Fueten, F., Racher, H., Stesky, R., MacKinnon, P., Hauber, E., McGuire, P. C., Zegers, T., & Gwinner, K. (2010), Earth and Planetary Science Letters, 294, 343. 2010E&PSL.294..343F

Kilometer-thick ice accumulation and glaciation in the northern mid-latitudes of Mars: Evidence for crater-filling events in the Late Amazonian at the Phlegra Montes, Dickson, J. L., Head, J. W., & Marchant, D. R. (2010), Earth and Planetary Science Letters, 294, 332. 2010E&PSL.294..332D

Structural geology of Amazonian-aged layered sedimentary deposits in southwest Candor Chasma, Mars, Okubo, C. H. (2010), Icarus, 207, 210. 2010Icar..207..210O

Sublimation kinetics of CO ₂ ice on Mars, Blackburn, D. G., Bryson, K. L., Chevrier, V. F., Roe, L. A., & White, K. F. (2010), Planetary and Space Sciences, 58, 780. 2010P&SS...58..780B

Structural evolution of the Northern Cerberus Fossae graben system, Elysium Planitia, Mars, Vetterlein, J., & Roberts, G. P. (2010), Journal of Structural Geology, 32, 394. 2010JSG....32..394V

Seasonal H₂O and CO₂ ice cycles at the Mars Phoenix landing site: 1. Prelanding CRISM and HiRISE observations, Cull, S., Arvidson, R. E., Mellon, M., Wiseman, S., Clark, R., Titus, T., Morris, R. V., & McGuire, P. (2010), Journal of Geophysical Research (Planets), 115, E00D16. 2010JGRE..115.0D16C

Distribution and evolution of scalloped terrain in the southern hemisphere, Mars, Zanetti, M., Hiesinger, H., Reiss, D., Hauber, E., & Neukum, G. (2010), Icarus, 206, 691. 2010Icar..206..691Z

New and recent gully activity on Mars as seen by HiRISE, Dundas, C. M., McEwen, A. S., Diniega, S., Byrne, S., & Martinez-Alonso, S. (2010), Geophysical Research Letters, 37, L07202. 2010GeoRL..37.7202D

The people's camera, No author (2010), Nature Geoscience, 3, 141. 2010NatGe...3..141.

Hydrated mineral stratigraphy of Ius Chasma, Valles Marineris, Roach, L. H., Mustard, J. F., Swayze, G., Milliken, R. E., Bishop, J. L., Murchie, S. L., & Lichtenberg, K. (2010), Icarus, 206, 253. 2010Icar..206..253R

Thermal contraction crack polygons on Mars: A synthesis from HiRISE, Phoenix, and terrestrial analog studies, Levy, J. S., Marchant, D. R., & Head, J. W. (2010), Icarus, 206, 229. 2010Icar..206..229L

Evidence for present day gully activity on the Russell crater dune field, Mars, Reiss, D., Erkeling, G., Bauch, K. E., & Hiesinger, H. (2010), Geophysical Research Letters, 37, L06203. 2010GeoRL..37.6203R

Stratigraphy in the Mawrth Vallis region through OMEGA, HRSC color imagery and DTM, Loizeau, D., Mangold, N., Poulet, F., Ansan, V., Hauber, E., Bibring, J.-P., Gondet, B., Langevin, Y., Masson, P., & Neukum, G. (2010), Icarus, 205, 396. 2010Icar..205..396L

The water cycle at the Phoenix landing site, Mars, Cull, S. (2010), Ph.D. Thesis,. 2010PhDT.......212C

Integration of orbital and ground imagery for automation of rover localization, Hwangbo, J. W. (2010), Ph.D. Thesis,. 2010PhDT.......123H

HiRISE observations of gas sublimation-driven activity in Mars’ southern polar regions: III. Models of processes involving translucent ice, Portyankina, G., Markiewicz, W. J., Thomas, N., Hansen, C. J., & Milazzo, M. (2010), Icarus, 205, 311. 2010Icar..205..311P

HiRISE observations of gas sublimation-driven activity in Mars’ southern polar regions: II. Surficial deposits and their origins, Thomas, N., Hansen, C. J., Portyankina, G., & Russell, P. S. (2010), Icarus, 205, 296. 2010Icar..205..296T

HiRISE observations of gas sublimation-driven activity in Mars’ southern polar regions: I. Erosion of the surface, Hansen, C. J., Thomas, N., Portyankina, G., McEwen, A., Becker, T., Byrne, S., Herkenhoff, K., Kieffer, H., & Mellon, M. (2010), Icarus, 205, 283. 2010Icar..205..283H

Evaluating the meaning of “layer” in the martian north polar layered deposits and the impact on the climate connection, Fishbaugh, K. E., Byrne, S., Herkenhoff, K. E., Kirk, R. L., Fortezzo, C., Russell, P. S., & McEwen, A. (2010), Icarus, 205, 269. 2010Icar..205..269F

Scalloped terrains in the Peneus and Amphitrites Paterae region of Mars as observed by HiRISE, Lefort, A., Russell, P. S., & Thomas, N. (2010), Icarus, 205, 259. 2010Icar..205..259L

An assessment of evidence for pingos on Mars using HiRISE, Dundas, C. M., & McEwen, A. S. (2010), Icarus, 205, 244. 2010Icar..205..244D

Emplacement of the youngest flood lava on Mars: A short, turbulent story, Jaeger, W. L., Keszthelyi, L. P., Skinner, J. A., Milazzo, M. P., McEwen, A. S., Titus, T. N., Rosiek, M. R., Galuszka, D. M., Howington-Kraus, E., Kirk, R. L., & HiRISE Team (2010), Icarus, 205, 230. 2010Icar..205..230J

Hydrovolcanic features on Mars: Preliminary observations from the first Mars year of HiRISE imaging, Keszthelyi, L. P., Jaeger, W. L., Dundas, C. M., Martínez-Alonso, S., McEwen, A. S., & Milazzo, M. P. (2010), Icarus, 205, 211. 2010Icar..205..211K

HiRISE images of yardangs and sinuous ridges in the lower member of the Medusae Fossae Formation, Mars, Zimbelman, J. R., & Griffin, L. J. (2010), Icarus, 205, 198. 2010Icar..205..198Z

Aeolian bedforms, yardangs, and indurated surfaces in the Tharsis Montes as seen by the HiRISE Camera: Evidence for dust aggregates, Bridges, N. T., Banks, M. E., Beyer, R. A., Chuang, F. C., Noe Dobrea, E. Z., Herkenhoff, K. E., Keszthelyi, L. P., Fishbaugh, K. E., McEwen, A. S., Michaels, T. I., Thomson, B. J., & Wray, J. J. (2010), Icarus, 205, 165. 2010Icar..205..165B

Modification of martian slope streaks by eolian processes, Chuang, F. C., Beyer, R. A., & Bridges, N. T. (2010), Icarus, 205, 154. 2010Icar..205..154C

Geomorphic knobs of Candor Chasma, Mars: New Mars Reconnaissance Orbiter data and comparisons to terrestrial analogs, Chan, M. A., Ormö, J., Murchie, S., Okubo, C. H., Komatsu, G., Wray, J. J., McGuire, P., McGovern, J. A., & HiRISE Team (2010), Icarus, 205, 138. 2010Icar..205..138C

Modeling the formation of bright slope deposits associated with gullies in Hale Crater, Mars: Implications for recent liquid water, Kolb, K. J., Pelletier, J. D., & McEwen, A. S. (2010), Icarus, 205, 113. 2010Icar..205..113K

Evidence for debris flow gully formation initiated by shallow subsurface water on Mars, Lanza, N. L., Meyer, G. A., Okubo, C. H., Newsom, H. E., & Wiens, R. C. (2010), Icarus, 205, 103. 2010Icar..205..103L

Inverted channel deposits on the floor of Miyamoto crater, Mars, Newsom, H. E., Lanza, N. L., Ollila, A. M., Wiseman, S. M., Roush, T. L., Marzo, G. A., Tornabene, L. L., Okubo, C. H., Osterloo, M. M., Hamilton, V. E., & Crumpler, L. S. (2010), Icarus, 205, 64. 2010Icar..205...64N

HiRISE views enigmatic deposits in the Sirenum Fossae region of Mars, Grant, J. A., Wilson, S. A., Noe Dobrea, E., Fergason, R. L., Griffes, J. L., Moore, J. M., & Howard, A. D. (2010), Icarus, 205, 53. 2010Icar..205...53G

Color imaging of Mars by the High Resolution Imaging Science Experiment (HiRISE), Delamere, W. A., Tornabene, L. L., McEwen, A. S., Becker, K., Bergstrom, J. W., Bridges, N. T., Eliason, E. M., Gallagher, D., Herkenhoff, K. E., Keszthelyi, L., Mattson, S., McArthur, G. K., Mellon, M. T., Milazzo, M., Russell, P. S., & Thomas, N. (2010), Icarus, 205, 38. 2010Icar..205...38D

The High Resolution Imaging Science Experiment (HiRISE) during MRO’s Primary Science Phase (PSP), McEwen, A. S., Banks, M. E., Baugh, N., Becker, K., Boyd, A., Bergstrom, J. W., Beyer, R. A., Bortolini, E., Bridges, N. T., Byrne, S., Castalia, B., Chuang, F. C., Crumpler, L. S., Daubar, I., Davatzes, A. K., Deardorff, D. G., DeJong, A., Alan Delamere, W., Dobrea, E. N., Dundas, C. M., Eliason, E. M., Espinoza, Y., Fennema, A., Fishbaugh, K. E., Forrester, T., Geissler, P. E., Grant, J. A., Griffes, J. L., Grotzinger, J. P., Gulick, V. C., Hansen, C. J., Herkenhoff, K. E., Heyd, R., Jaeger, W. L., Jones, D., Kanefsky, B., Keszthelyi, L., King, R., Kirk, R. L., Kolb, K. J., Lasco, J., Lefort, A., Leis, R., Lewis, K. W., Martinez-Alonso, S., Mattson, S., McArthur, G., Mellon, M. T., Metz, J. M., Milazzo, M. P., Milliken, R. E., Motazedian, T., Okubo, C. H., Ortiz, A., Philippoff, A. J., Plassmann, J., Polit, A., Russell, P. S., Schaller, C., Searls, M. L., Spriggs, T., Squyres, S. W., Tarr, S., Thomas, N., Thomson, B. J., Tornabene, L. L., Van Houten, C., Verba, C., Weitz, C. M., & Wray, J. J. (2010), Icarus, 205, 2. 2010Icar..205....2M

Introduction to the High Resolution Imaging Science Experiment (HiRISE) Special Issue of Icarus, Herkenhoff, K. E., Keszthelyi, L. P., & McEwen, A. S. (2010), Icarus, 205, 1. 2010Icar..205....1H

Multi-resolution topographic data extraction from Martian stereo imagery, Kim, J. R., & Muller, J.-P. (2009), Planetary and Space Sciences, 57, 2095. 2009P&SS...57.2095K

Discovery of jarosite within the Mawrth Vallis region of Mars: Implications for the geologic history of the region, Farrand, W. H., Glotch, T. D., Rice, J. W., Hurowitz, J. A., & Swayze, G. A. (2009), Icarus, 204, 478. 2009Icar..204..478F

Coregistration of Mars Orbiter Laser Altimeter (MOLA) topography with high-resolution Mars images, Kolb, K. J., & Okubo, C. H. (2009), Computers and Geosciences, 35, 2304. 2009CG.....35.2304K

Residual south polar cap of Mars: Stratigraphy, history, and implications of recent changes, Thomas, P. C., James, P. B., Calvin, W. M., Haberle, R., & Malin, M. C. (2009), Icarus, 203, 352. 2009Icar..203..352T

An analysis of sinuous ridges in the southern Argyre Planitia, Mars using HiRISE and CTX images and MOLA data, Banks, M. E., Lang, N. P., Kargel, J. S., McEwen, A. S., Baker, V. R., Grant, J. A., Pelletier, J. D., & Strom, R. G. (2009), Journal of Geophysical Research (Planets), 114, E09003. 2009JGRE..114.9003B

Tharsis-sourced relatively dust-free lavas and their possible relationship to Martian meteorites, Lang, N. P., Tornabene, L. L., McSween, H. Y., & Christensen, P. R. (2009), Journal of Volcanology and Geothermal Research, 185, 103. 2009JVGR..185..103L

The topography and morphology of low shields and associated landforms of plains volcanism in the Tharsis region of Mars, Hauber, E., Bleacher, J., Gwinner, K., Williams, D., & Greeley, R. (2009), Journal of Volcanology and Geothermal Research, 185, 69. 2009JVGR..185...69H

New evidence for a magmatic influence on the origin of Valles Marineris, Mars, Dohm, J. M., Williams, J.-P., Anderson, R. C., Ruiz, J., McGuire, P. C., Komatsu, G., Davila, A. F., Ferris, J. C., Schulze-Makuch, D., Baker, V. R., Boynton, W. V., Fairén, A. G., Hare, T. M., Miyamoto, H., Tanaka, K. L., & Wheelock, S. J. (2009), Journal of Volcanology and Geothermal Research, 185, 12. 2009JVGR..185...12D

Concentric crater fill in Utopia Planitia: History and interaction between glacial “brain terrain” and periglacial mantle processes, Levy, J. S., Head, J. W., & Marchant, D. R. (2009), Icarus, 202, 462. 2009Icar..202..462L

A recent ice age on Mars: Evidence for climate oscillations from regional layering in mid-latitude mantling deposits, Schon, S. C., Head, J. W., & Milliken, R. E. (2009), Geophysical Research Letters, 36, L15202. 2009GeoRL..3615202S

The Circum-Hellas Volcanic Province, Mars: Overview, Williams, D. A., Greeley, R., Fergason, R. L., Kuzmin, R., McCord, T. B., Combe, J.-P., Head, J. W., Xiao, L., Manfredi, L., Poulet, F., Pinet, P., Baratoux, D., Plaut, J. J., Raitala, J., Neukum, G., & HRSC Co-Investigator Team (2009), Planetary and Space Sciences, 57, 895. 2009P&SS...57..895W

Postdating of flow in Athabasca Valles by faulting of the Cerberus Fossae, Elysium Planitia, Mars, Vetterlein, J., & Roberts, G. P. (2009), Journal of Geophysical Research (Planets), 114, E07003. 2009JGRE..114.7003V

Stratigraphical evidence of late Amazonian periglaciation and glaciation in the Astapus Colles region of Mars, Soare, R. J., & Osinski, G. R. (2009), Icarus, 202, 17. 2009Icar..202...17S

Positive identification of lake strandlines in Shalbatana Vallis, Mars, Di Achille, G., Hynek, B. M., & Searls, M. L. (2009), Geophysical Research Letters, 36, L14201. 2009GeoRL..3614201D

An equatorial periglacial landscape on Mars, Balme, M. R., & Gallagher, C. (2009), Earth and Planetary Science Letters, 285, 1. 2009E&PSL.285....1B

Investigating evidence of geologically recent liquid water on Mars, Kolb, K. J. (2009), Ph.D. Thesis,. 2009PhDT.........7K

Investigations of the Martian mid-latitudes: Implications for ground ice, Dundas, C. M. (2009), Ph.D. Thesis,. 2009PhDT.........4D

Glacial processes and morphologies in the southern hemisphere of Mars, Banks, M. E. (2009), Ph.D. Thesis,. 2009PhDT.........4B

Recent rheologic processes on dark polar dunes of Mars: Driven by interfacial water?, Kereszturi, A., Möhlmann, D., Berczi, S., Ganti, T., Kuti, A., Sik, A., & Horvath, A. (2009), Icarus, 201, 492. 2009Icar..201..492K

Geologic features of Wudalianchi volcanic field, northeastern China: Implications for Martian volcanology, Xiao, L., & Wang, C. (2009), Planetary and Space Sciences, 57, 685. 2009P&SS...57..685X

Inflated flows on Daedalia Planum (Mars)? Clues from a comparative analysis with the Payen volcanic complex (Argentina), Giacomini, L., Massironi, M., Martellato, E., Pasquarè, G., Frigeri, A., & Cremonese, G. (2009), Planetary and Space Sciences, 57, 556. 2009P&SS...57..556G

Observations of periglacial landforms in Utopia Planitia with the High Resolution Imaging Science Experiment (HiRISE), Lefort, A., Russell, P. S., Thomas, N., McEwen, A. S., Dundas, C. M., & Kirk, R. L. (2009), Journal of Geophysical Research (Planets), 114, E04005. 2009JGRE..114.4005L

Sorted stone circles in Elysium Planitia, Mars: Implications for recent martian climate, Balme, M. R., Gallagher, C. J., Page, D. P., Murray, J. B., & Muller, J.-P. (2009), Icarus, 200, 30. 2009Icar..200...30B

A synthesis of Martian aqueous mineralogy after 1 Mars year of observations from the Mars Reconnaissance Orbiter, Murchie, S. L., Mustard, J. F., Ehlmann, B. L., Milliken, R. E., Bishop, J. L., McKeown, N. K., Noe Dobrea, E. Z., Seelos, F. P., Buczkowski, D. L., Wiseman, S. M., Arvidson, R. E., Wray, J. J., Swayze, G., Clark, R. N., Des Marais, D. J., McEwen, A. S., & Bibring, J.-P. (2009), Journal of Geophysical Research (Planets), 114, E00D06. 2009JGRE..114.0D06M

Ice table depth variability near small rocks at the Phoenix landing site, Mars: A pre-landing assessment, Sizemore, H. G., Mellon, M. T., & Golombek, M. P. (2009), Icarus, 199, 303. 2009Icar..199..303S

Analysis of Dark Albedo Features on a Southern Polar Dune Field of Mars, Horváth, A., Kereszturi, Á., Bérczi, S., Sik, A., Pócs, T., Gánti, T., & Szathmáry, E. (2009), Astrobiology, 9, 90. 2009AsBio...9...90H

Thermal contraction crack polygons on Mars: Classification, distribution, and climate implications from HiRISE observations, Levy, J., Head, J., & Marchant, D. (2009), Journal of Geophysical Research (Planets), 114, E01007. 2009JGRE..114.1007L

High Resolution Imaging Science Experiment (HiRISE) observations of glacial and periglacial morphologies in the circum-Argyre Planitia highlands, Mars, Banks, M. E., McEwen, A. S., Kargel, J. S., Baker, V. R., Strom, R. G., Mellon, M. T., Gulick, V. C., Keszthelyi, L., Herkenhoff, K. E., Pelletier, J. D., & Jaeger, W. L. (2008), Journal of Geophysical Research (Planets), 113, E12015. 2008JGRE..11312015B

Relative age of interior layered deposits in southwest Candor Chasma based on high-resolution structural mapping, Okubo, C. H., Lewis, K. W., McEwen, A. S., & Kirk, R. L. (2008), Journal of Geophysical Research (Planets), 113, E12002. 2008JGRE..11312002O

Seasonally active frost-dust avalanches on a north polar scarp of Mars captured by HiRISE, Russell, P., Thomas, N., Byrne, S., Herkenhoff, K., Fishbaugh, K., Bridges, N., Okubo, C., Milazzo, M., Daubar, I., Hansen, C., & McEwen, A. (2008), Geophysical Research Letters, 35, L23204. 2008GeoRL..3523204R

A Case for Ancient Springs in Arabia Terra, Mars, Allen, C. C., & Oehler, D. Z. (2008), Astrobiology, 8, 1093. 2008AsBio...8.1093A

Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: Meter-scale slopes of candidate Phoenix landing sites, 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), Journal of Geophysical Research (Planets), 113, E00A24. 2008JGRE..113.0A24K

Periglacial landforms at the Phoenix landing site and the northern plains of Mars, Mellon, M. T., Arvidson, R. E., Marlow, J. J., Phillips, R. J., & Asphaug, E. (2008), Journal of Geophysical Research (Planets), 113, E00A23. 2008JGRE..113.0A23M

Lava flows at Arsia Mons, Mars: Insights from a graben imaged by HiRISE, Mouginis-Mark, P. J., & Rowland, S. K. (2008), Icarus, 198, 27. 2008Icar..198...27M

Light-toned strata and inverted channels adjacent to Juventae and Ganges chasmata, Mars, Weitz, C. M., Milliken, R. E., Grant, J. A., McEwen, A. S., Williams, R. M. E., & Bishop, J. L. (2008), Geophysical Research Letters, 35, L19202. 2008GeoRL..3519202W

Geomorphologic and mineralogic characterization of the northern plains of Mars at the Phoenix Mission candidate landing sites, Seelos, K. D., Arvidson, R. E., Cull, S. C., Hash, C. D., Heet, T. L., Guinness, E. A., McGuire, P. C., Morris, R. V., Murchie, S. L., Parker, T. J., Roush, T. L., Seelos, F. P., & Wolff, M. J. (2008), Journal of Geophysical Research (Planets), 113, E00A13. 2008JGRE..113.0A13S

Distribution of the ices exposed near the south pole of Mars using Thermal Emission Imaging System (THEMIS) temperature measurements, Piqueux, S., Edwards, C. S., & Christensen, P. R. (2008), Journal of Geophysical Research (Planets), 113, E08014. 2008JGRE..113.8014P

Rock abrasion features in the Columbia Hills, Mars, Thomson, B. J., Bridges, N. T., & Greeley, R. (2008), Journal of Geophysical Research (Planets), 113, E08010. 2008JGRE..113.8010T

Hydrogen content of sand dunes within Olympia Undae, Feldman, W. C., Bourke, M. C., Elphic, R. C., Maurice, S., Bandfield, J., Prettyman, T. H., Diez, B., & Lawrence, D. J. (2008), Icarus, 196, 422. 2008Icar..196..422F

Size-frequency distributions of rocks on the northern plains of Mars with special reference to Phoenix landing surfaces, Golombek, M. P., Huertas, A., Marlow, J., McGrane, B., Klein, C., Martinez, M., Arvidson, R. E., Heet, T., Barry, L., Seelos, K., Adams, D., Li, W., Matijevic, J. R., Parker, T., Sizemore, H. G., Mellon, M., McEwen, A. S., Tamppari, L. K., & Cheng, Y. (2008), Journal of Geophysical Research (Planets), 113, E00A09. 2008JGRE..113.0A09G

Compositional stratigraphy of clay-bearing layered deposits at Mawrth Vallis, Mars, Wray, J. J., Ehlmann, B. L., Squyres, S. W., Mustard, J. F., & Kirk, R. L. (2008), Geophysical Research Letters, 35, L12202. 2008GeoRL..3512202W

High Resolution Imaging Science Experiment (HiRISE) images of volcanic terrains from the first 6 months of the Mars Reconnaissance Orbiter Primary Science Phase, Keszthelyi, L., Jaeger, W., McEwen, A., Tornabene, L., Beyer, R. A., Dundas, C., & Milazzo, M. (2008), Journal of Geophysical Research (Planets), 113, E04005. 2008JGRE..113.4005K

HiRISE imaging of impact megabreccia and sub-meter aqueous strata in Holden Crater, Mars, Grant, J. A., Irwin, R. P., Grotzinger, J. P., Milliken, R. E., Tornabene, L. L., McEwen, A. S., Weitz, C. M., Squyres, S. W., Glotch, T. D., & Thomson, B. J. (2008), Geology, 36, 195. 2008Geo....36..195G

HiRISE observations of fractured mounds: Possible Martian pingos, Dundas, C. M., Mellon, M. T., McEwen, A. S., Lefort, A., Keszthelyi, L. P., & Thomas, N. (2008), Geophysical Research Letters, 35, L04201. 2008GeoRL..35.4201D

Topographic and geomorphologic analyses of volcanic and impact-related landforms on Earth and Mars, Morris, A. R. (2008), Ph.D. Thesis,. 2008PhDT........38M

Windy Mars: A dynamic planet as seen by the HiRISE camera, Bridges, N. T., Geissler, P. E., McEwen, A. S., Thomson, B. J., Chuang, F. C., Herkenhoff, K. E., Keszthelyi, L. P., & Martínez-Alonso, S. (2007), Geophysical Research Letters, 34, L23205. 2007GeoRL..3423205B

HiRISE observations of slope streaks on Mars, Chuang, F. C., Beyer, R. A., McEwen, A. S., & Thomson, B. J. (2007), Geophysical Research Letters, 34, L20204. 2007GeoRL..3420204C

Mars Reconnaissance Orbiter's High Resolution Imaging Science Experiment (HiRISE), 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), Journal of Geophysical Research (Planets), 112, E05S02. 2007JGRE..112.5S02M

Round-the-Clock Ground-Based Imaging Spectroscopy of Space Weather Effects on the Thermosphere and Ionosphere, Chakrabarti, S., & Pallamraju, D. (2006), Advances in Geosciences, Volume 2: Solar Terrestrial (ST), 2, 201. 2006aogs....2..201C

HIRISE: a ground-based high-resolution imaging spectrograph using echelle grating for measuring daytime airglow/auroral emissions, Pallamraju, D., Baumgardner, J., & Chakrabarti, S. (2002), Journal of Atmospheric and Solar-Terrestrial Physics, 64, 1581. 2002JASTP..64.1581P