hydrothermally altered volcanic seafloor sediments in the Eridania region of Mars
Michalski’s Publications in Earth and Planetary Science
Google Scholar (* = corresponding author)
[104] Wang, Z, L. Zhuang, J. Michalski, and M. K. Ng, (in review), EGD-Net: Eigenimage Guided Diffusion Network for Hyperspectral Mixed Noise Removal, IEEE Transactions on Geoscience and Remote Sensing
[103] Liu, S., B. Wu, S. Krasilnikov, J. Zhu, Z. Chen, Y. Li, and J. Michalski (submitted), Time series analysis of slope recurring lineae on Mars suggesting bedrock aquifer melting, Nature Communications.
[102] Michalski, J.*, (in revision), Volcanism and surface collapse in Ganges cavus, Mars, Planetary and Space Science
[101] Wu, X. J. Liu, W. Sun, Y. Liu, J. Michalski, W. Tan, X. Qin, Y. Zou (in review), Quantifying the chemical composition of weathering products of Hainan basalts with reflectance spectroscopy and its implications for Mars. Earth and Planetary Physics
[100] Qin, X., J. Liu, W. Tan, H. He, J. R. Michalski, Y. Sun, S. Li , B. Ye , Y-L, Li (in review), Characterization of kaolinized nontronite by visible to near infrared (VNIR) reflectance spectroscopy: implication for the genesis of compositional stratigraphy on Mars. Icarus
[99] Liu, J., J. Michalski, J. Cuadros, A. King (in review), Reflectance spectroscopy of ferrous phyllosilicates. Applied Clay Science
[98] Liu, J., J-W Li, J. R. Michalski, A.E. Williams Jones, M.F. Zhou, X-Y Jin, S-R Zhao, K. Yang (in revision), Using reflectance spectroscopy to reveal hydrothermal processes and guide mineral exploration of Carlin-type gold deposits. Mineralium Deposita (Under Revision)
[97] Liu, J., J. R. Michalski*, YY S Zhao, G. Luo, N. R. Mckenzie, H. He, YL Li (under review)., Oxidation of planetary crustal surface under a reduced atmosphere by inorganic processes.
[96] Liu, J., J. Michalski*, Z. Wang (under review), Atmospheric Oxidation Drove Climate Change on Early Mars. Nature Communication
[95] Liu, J,. B. Wu, X. Wu, Y. Liu, W. Gao, J. Michalski*, Y. Qian, Z. Ling, Z. Wu, C. Liu, A. E. Williams-Jones, J. Zhao, MF Zhou, S. Hu, H. Lin, Y Sun, W. Tan (under revision). Magma-ground ice interaction resurfaced the Zhurong landing region during the Amazonian. Nature Astronomy.
[94] Cheng, R., J. Michalski*, K. Campbell (in review), Infrared Micro-Imaging and Compositional Remote Sensing of silica sinters from El Tatio, Chile with Relevance to Astrobiological Targets on Mars, prepared for Astrobiology
[93] Cheng, R.L., J. R. Michalski, and K. A. Campbell. (under review), Compositional Remote Sensing and Hyperspectral Laboratory Analyses of Sinters in Hydrothermal Fields in Chile, with Relevance to Astrobiological Targets on Mars, JGR Planets.
[92] Wright, S.P., J. Liu, and J.R. Michalski (in review) Mineralogy and microscopic texture of partially melted shocked basalts, Meteoritics and Planetary Science.
[91] Liu, J., J. R. Michalski*, W.. Gao, C. Schröder, YL, Li (in press), Freeze-thaw cycles drove chemical weathering of sediments on early Mars. Science Advances.
[90] Wright, S.P. and J.R. Michalski (2024) Shocked soil - a rare terrestrial impactite, Journal of Geophysical Research: Planets, 128, doi: 10.1029/2023JE007913
[89] Qin, X., J. Liu, W.Tan, H. He, J. Michalski, Y. Sun, S. Li, B. Ye, Y-L Li (2022), Characterization of kaolinized nontronite by visible to near infrared (VNIR) reflectance spectroscopy: implication for the genesis of compositional stratigraphy on Mars, JGR - Planets.
[88] Z. Wang, M. K. Ng, J. Michalski and L. Zhuang, "A Self-Supervised Deep Denoiser for Hyperspectral and Multispectral Image Fusion," in IEEE Transactions on Geoscience and Remote Sensing, vol. 61, pp. 1-14, 2023, Art no. 5520414, doi: 10.1109/TGRS.2023.3303921.
[87] L. Zhuang, M. K. Ng, L. Gao, J. Michalski and Z. Wang (2023), "Eigenimage2Eigenimage (E2E): A Self-Supervised Deep Learning Network for Hyperspectral Image Denoising," in IEEE Transactions on Neural Networks and Learning Systems, doi: 10.1109/TNNLS.2023.3293328.
[86] Michalski, J. R.*, A. D. Rogers, C. Edwards, A. Cowart, and L. Xiao (accepted), Diverse volcanism and crustal recycling on early Mars, Nature Astronomy.
[85] Qian, Y., Xiao, L., Zhao, J., Head, J. W., He, Q., Xu, H., Wang, F., Zhang, X., Ping, X., Zeng, W., Wang, X., Michalski, J., Liu, J., Ye, B., Wang, M., Sun, L., Pang, Y., Wang, J., & Zhao, S. (2024). First magnetic and spectroscopic constraints on attenuated space weathering at the Chang’e-5 landing site. Icarus, 410, 115892. https://doi.org/10.1016/j.icarus.2023.115892
[84] Xu, J., Mo, B., Wu, Y., Zhao, Y., Lin, H., Ye, B., Michalski, J. R., Li, Y., Tai, K., Li, C., Guo, Z., Qi, C., Liu, S., Li, X., Liu, J. (2023). Space Weathering Effects and Potential Spectral Alteration on Phobos and the Moon: Clues from the Fe Content of Olivine. Astronomy & Astrophysics. 672, A115. https://doi.org/10.1051/0004-6361/202245453
[83] Qian, Y., She, Z., He, Q., Xiao, L., Wang, Z., Head, J. W., Sun, L., Wang, Y., Wu, B., Wu, X., Luo, B., Cao, K., Li, Y., Dong, M., Song, W., Pan, F., Michalski, J., Ye, B., Zhao, J., … Hu, Z. (2023). Mineralogy and chronology of the young mare volcanism in the Procellarum-KREEP-Terrane. Nature Astronomy, 7(3), Article 3. https://doi.org/10.1038/s41550-022-01862-1
[82] Michalski, J. R*., T. A. Goudge, S. Crowe, J. Cuadros, J. Mustard and S. Stewart Johnson (2022), Geological diversity and microbiological potential of lakes on Mars, Nature Astronomy, 1133-1141.
[81] Chu, Y. Y. Y. a, Michalski, J. R.*, & Webb, A. A. G. (2023). The geology of Eden Patera, a type-example of plains style caldera complexes on Mars. Journal of Geophysical Research: Planets, 128, e2022JE007337. https://doi.org/10.1029/2022JE007337
[80] Li, Q, T. C. Bonebrake, J. R. Michalski, F. Kwan K. Wong, Tung Fung (in review), Combining multi-temporal LiDAR and Sentinel-2 multispectral data for assessment of disturbances and recovery of mangrove forests, Journal of Applied Ecology
[79] Guo, Y., Y. Lin, W. Y. Chen, J. Ling, Q. Li, J. Michalski, H. Zhanga (2022), Inversion of the AGB dynamics in urban forest at the species level based on multi-temporal LiDAR and optical data, Ecological Indicators, 145, 109694.
[78] Ye. B. a and J. R. Michalski* (2022), Chemical weathering over hundreds of millions of years of greenhouse conditions on Mars, Nature Communications Earth & Environment, 3, 266
[77] Zhang, H., Y. Gu,; Q. Li, Y. Lin; J. Michalski (2022), New morphological features for tree species identification in urban forest using LiDAR point clouds, Urban Forestry & Urban Greening, 127558.
[76] Cuadros, J.C. Mavris, and J. R. Michalski, (2022), The occurrence of widespread vermiculite on Mars, Applied Clay Science, 228, 106643.
[75] Liu, J. a, J. Michalski*, and M. F. Zhou (2021), Intense Subaerial Weathering of Eolian Sediments in Gale Crater, Mars, Science Advances, Vol. 7, no. 32, eabh2687
[74] Michalski, J.*, P. B .Niles, T. D. Glotch, and J. Cuadros (2021), Infrared spectral evidence for K-metasomatism of volcanic rocks on Mars, Geophys. Research Letters, 10.1029/2021GL093882
[73] Baumgartner, R.J., J. Cuadros, J. Michalski, B. Pejcic, C. Laukamp, S. Hu, J. Bourdet (2022), Chemistry-dependent Raman spectral features of glauconite and nontronite: Implications for mineral identification and mineral provenance analysis, American Mineralogist.
[72] Tan, W., X. Qin;l, J. Liu a, J. R. Michalski, Y. Yao, M. Yang, J.Huang, X. Lin, C. Zhang, and X. Liang (2021), Visible/Near Infrared Reflectance (VNIR) Spectral Features of Ion-exchangeable Rare Earth Elements hosted by Clay minerals: Potential Use for Exploration of Regolith-hosted REE Deposits, Applied Clay Science, 215, 106320.
[71] Ferguson, G. J.C. McIntosh, O. Warr, B. Sherwood Lollar, C. J. Ballantine, J.F. Famiglietti, J-H. Kim, J. Michalski, J. Tarnas, J. J. McDonnell (2021), Crustal Groundwater Volumes Greater than Previously Thought, Geophys. Res. Lett., 48, e2021GL093549.
[70] Cheng, R. a, H. He, J. Michalski*, and Y. Li (2021), Slope streaks in the Yingxiong Range, the western Qaidam Basin and Implications for Mars. Geomorphology, 398, 108062. [link]
[69] Changela, H.G., E. Chatzitheodoridis D. Beaty, J. C. Bridges, C. S. Cockell, C. Conoly, E. Dadachova, C. Dong, L. Edgar, A. Ellery, M. Ferus, X. Fu, K. Fujita, J. E. Hallsworth, S. Hu, A. Kereszturi, Y. Liu, J. Oberst, J. Michalski, P. M. Ranjith, D. Rothery, R. K. Sinha, A. Wang, K. Williford, J. Vago (2021), Mars: New insights and unresolved questions. International Journal of Astrobiology, 1-33. doi:10.1017/S1473550421000276.
[68] Ye, B, Y. Qian, L. Xiao, J. R. Michalski*, Y. Li, B. Wu, L. Qiao (2021), Geomorphologic exploration targets at Zhurong’s landing site in the southern Utopia Planitia of Mars, EPSL., 576, 117199.
[67] Cheng, R. a, H. He, J. Michalski*, and Y. Li (2021), A new type of polygonal patterned ground formed by sulfate weathering in arid regions, Geomorphology, 383, 107695.
[66] Baccolo, G., B. Delmonte, P. B. Niles, G. Cibin, Elena Di Stefano, D.Hampai, L. Keller, V. Maggi, A. Marcelli, J. Michalski, C. Snead and M. Frezzotti (2021), Jarosite formation in deep Antarctic ice provides a window into acidic, water-limited weathering on Mars, Nature Communications, 12, article 436.
[65] Cuadros, J., J. Michalski, J. L. Bishop, C. Mavris, S. Fiore, V. Dekov (2022), Mars-rover cameras evaluation of laboratory spectra of Fe-bearing Mars analog samples, 371, 114704
[64] Liu, J., J. R. Michalski*, W. Tan, H. He, L. Xiao, B. Ye (2021), Anoxic chemical weathering under a reducing greenhouse on early Mars, Nature Astronomy.
[63] Liu, J., HP He, J. Michalski*, J. Cuadros, Y. Yao, W. Tan; X. Qin, S. Li; G. Wei (2020), Reflectance spectroscopy applied to clay mineralogy and alteration intensity of a thick basaltic weathering sequence in Hainan Island, South China, Applied Clay Science.
[62] Du, P, P. Yuan, J. Liu a, Y. Yang, H. Bu, S. Wang, J. Zhou, H. Song, D. Liu, J. Michalski, C. Liu (2020), Effects of environmental Fe concentrations on formation and evolution of allophane in Al-Si-Fe systems: implications on both Earth and Mars, JGR Planets, 125 (12)
[61] Cheng, R. a, H. He, J. Michalski*, and Y. Li (2021), Brain-terrain-like features in the Qaidam Basin: implications for various morphological features on Mars, Icarus, 363, 1, 114434.
[60] Tarnas, J.D., J.F. Mustard, B. Sherwood Lollar V. Stamenković, K.M. Cannon, J.-P. Lorand, T.C. Onstott, J.R. Michalski, O. Warr, A.M. Palumbo, A.-C. Plesa (2021), Earth-like habitable environments in the subsurface of Mars, Astrobiology, 741-756.
[59] Chu, Y.Y.Y. a, J. Michalski*, S. Wright and A. A. G. WEBB (2021), Caldera collapse and volcanic resurfacing in eastern Arabia Terra provide hints of vast under-recognized early Martian volcanism, Geophys. Research Letters
[58] Ye, B. a and J. Michalski* (2021), Precipitation‐Driven Pedogenic Weathering of Volcaniclastics on Early Mars, Geophys. Res. Letters.
[57] Hao, D., Y. Yao, J. Fu, J. R. Michalski, and Kun Song (2020), The Laboratory-Based HySpex Features of Chlorite as the Exploration Tool for High-Grade Iron Ore in Anshan-Benxi Area, Liaoning Province, Northeast China, Applied Science, 10, 7444.
[56] Eichstaedt, H., T. Tsedenbaljir, R. Kahnt, M. Denk, Y. Ogen, C. Glaeser, R. Loeser, R. Suppes, U. Alyeksandr, T. Oyunbuyan, and J. Michalski (2020), Quantitative estimation of clay minerals in airborne hyperspectral data using a calibration field, Journal of Applied Remote Sensing, 14(3), 034524.
[55] Stamenković, V. and 50 others including J. R. Michalski (2019), The next frontier for planetary and human exploration, Nature Astronomy.
[54] Cuadros, J., J. Michalski, M. D. Dyar, and V. Dekov (2019), Controls on tetrahedral Fe(III) abundance in 2:1 phyllosilicates, American Mineralogist, 104 (11): 1608–1619.
[53] Michalski, J. R.*, T. D. Glotch, A. D. Rogers P. B. Niles J. Cuadros J. W. Ashley and S. Stewart Johnson (2019). The geology and astrobiology of McLaughlin Crater, Mars: an ancient lacustrine basin containing turbidites, mudstones and serpentinites, J. Geophysical research - Planets.
[52] Cuadros, J., C. Mavris, J. R Michalski, J. M. Nieto, J. L Bishop; S. Fiore (2019), Abundance and composition of kaolinite on Mars: Information from NIR spectra of rocks from acid-alteration environments, Riotinto, SE Spain, Icarus, 330, 30-41
[51] Ye, B. a, J. Huang, Y. Dang, J. R. Michalski, and L. Xiao (2019), The geomorphologic characteristics of polygonal features on chloride-bearing deposits on Mars: Implications for Martian hydrology and astrobiology, J. Earth Science, 30(E2).
[50] Cuadros, J., C. Mavris, J. Nieto, J.Bishop, and J. Michalski (2018). Diverse mineral assemblages of acidic alteration in the Riotinto area (south-west Spain): implications for Mars. American Mineralogist, 103 (12): 1877-1890.
[49] Sánchez-Marañón, M., J. Cuadros, J. R.. Michalski; M. Melgosa; V. Dekov (2018), Identification of iron in Earth analogues of Martian phyllosilicates using visible reflectance spectroscopy: spectral derivatives and color parameters, Applied Clay Sciences,265, 264-276.
[48] Bishop, J.L., A.G. Fairen, J. R. Michalski, L. Gago-Duport, L. Baker, M. A. Velbel, C. Gross, and E. B. Rampe (2018). Surface clay formation during short-term warmer and wetter conditions on a largely cold ancient Mars, Nature Astronomy.
[47] Berman, D. C., M. R. Balme, J. R, Michalski, S. C. Clarke, and E. C. S. Joseph (2018), High-resolution Investigations of Transverse Aeolian Ridges on Mars, Icarus 312, 247-266
[46] Michalski, J. R.* T.C. Onstott, S. J. Mojzsis, J. Mustard, Q. chan, P. B. Niles, and S. Stewart Johnson (2017), The Martian subsurface as a potential window into the origin of life, Nature Geoscience. doi:10.1038/s41561-017-0015-2
[45] Michalski, J. R.*, E. Z. Noe Dobrea, P. B. Niles and J. Cuadros (2017). Hydrothermal seafloor deposits in Eridania basin on Mars, Nature Communications. DOI: 10.1038/NCOMMS15978.
[44] Niles, P. B., J. Michalski, D. W. Ming and D. C. Golden (2017). Elevated olivine weathering rates and sulfate formation at cryogenic temperatures on Mars, Nature Communications 8, 998
[43] Michalski, J. R.*, T. D. Glotch, L. R. Friedlander, M. D. Dyar, D. L. Bish, T. G. Sharp and J. Carter (2017), Shock metamorphism of clay minerals on Mars by meteor impact, Geophysical Research Letters, 44. DOI:10.1002/2017GL073423
[42] Cuadros, J., B. Segvic, V. Dekov, J. R. Michalski, and David Baussa (2017). Electron microscopy investigation of the genetic link between Fe oxides/oxyhydroxides and nontronite in submarine hydrothermal fields, Marine Geology 395 (1)m 247-259.
[41] Bishop, J. L, J. R. Michalski and J. Carter (2017), Remote detection of clay minerals, book chapter in "Infrared and raman spectroscopy of clay minerals" edited by W. Gates et al. Developments in Clay Science, Vol 8. Elsevier, Amsterdam, Netherlands.
[40] Cuadros, J., J. R. Michalski, V. Dekov, and J. L. Bishop (2016), Octahedral chemistry of 2:1 clay minerals and hydroxyl band position in the near-infrared. Application to Mars. American Mineralogist 101(3):554-563
[39] Friedlander, L. , T. D. Glotch, B. L. Phillips, J. Vaughn, and J. R. Michalski (2016). Comparing structural and related spectral change between iron- and magnesium-rich 2:1 smectites after experimental impacts between 10-40 GPa, Clays and Clay Minerals, 64 (3), 189–209 .
[38] Michalski, J. R.*, J. Cuadros, J. L. Bishop, M. D. Dyar, V. Dekov, and S. Fiore (2015). Constraints on the crystal-chemistry of Fe/Mg-rich smectitic clays on Mars and links to global alteration trends, EPSL, 427 (1), 215-225.
[37] Cong, P., A.D. Rogers and J. Michalski (2015), Thermal and Near-Infrared Analyses of Central Uplifts of Martian Impact Craters: Evidence for a Heterogeneous Martian Crust, J. Geophys. Res. 120, 662–688, doi: 10.1002/2014JE004676.
[36] Loizeau, D., N. Mangold, F. Poulet, J.-P. Bibring, J. Bishop, J. Michalski, and C. Quantin (in press), History of the clay‐rich unit at Mawrth Vallis, Mars: High‐resolution mapping of a candidate landing site (2015) .J. Geophys. Res. 120 (11), 1820-1846.
[35] Friedlander, L., T. D. Glotch, D. L. Bish, M.D. Dyar, T. G. Sharp, E. C. Sklute, and J. R. Michalski (2015), Structural and spectroscopic changes to natural nontronite induced by experimental impacts between 10 and 40 GPa, J. Geophys. Res., 120 (5), 888- 912. Doi: 10.1002/2014JE004638
[34] Michalski, J. R.* and J.E. Bleacher (2013), Supervolcanoes within an ancient volcanic province in Arabia Terra, Mars, Nature, 502, 47-52.
[33] Cuadros, J., J. Michalski, V. Dekov, J. L. Bishop, S. Fiore, M. D. Dyar (2013), Crystal-chemistry of interstratified clay minerals from seafloor hydrothermal sites, Chemical Geology, 360-361, 142-158.
[32] Michalski, J. R.*, P.Niles, J. Cuadros, and A. M. Baldridge (2013), Multiple working hypotheses for the formation of compositional stratigraphy on Mars: Insights from the Mawrth Vallis region, Icarus, 226 ( 1), 816–840.
[31] Michalski, J. R.*, J. Cuadros, P. Niles, J. Parnell, A. D. Rogers and S. Wright, (2013), Groundwater activity on Mars and implications for a deep biosphere, Nature Geoscience, 6, 133–138, doi:10.1038/ngeo1706
[30] Cuadros, J. and J. Michalski (2013), Investigation of Al-rich clays on Mars: evidence for kaolinite-smectite mixed-layer versus mixture of end-member phases, Icarus, 222 (1), 296-306.
[29] Gaillard, F., J. R. Michalski, G. Berger, S. McLennan, and B. Scaillet (2012), Geochemical reservoirs and timing of sulphur cycling on Mars, Space Science Reviews, DOI 10.1007/s11214-012-9947-4
[28] Ehlmann, B. E., G. Berger, N. Mangold, J.R. Michalski, D. C. Catling, S. W. Ruff, E.Chassefière, and F. Poulet (2012), Geochemical Consequences of Widespread Clay Mineral Formation in Mars’ Ancient Crust, Space Science Reviews, DOI 10.1007/s11214-012-9930-0
[27] Niles, P.B., D. C. Catling, G. Berger, E. Chassefière, B. L. Ehlmann, J R. Michalski, R. Morris, S. W. Ruff, and B. Sutter (2012), Geochemistry of Carbonates on Mars: Implications for Climate History and Nature of Aqueous Environments, Space Science Reviews. DOI 10.1007/s11214-012-9940-y
[26] Cuadros, J., B. Afsin, J.R. Michalski and M. Ardakani (2012), Fast, microscale-controlled weathering of obsidian to quartz and alunite, EPSL., 353-354, p. 156-162. ISSN: 0012-821X DOI: 10.1016/j.epsl.2012.08.009.
[25] Golombek, M. and 23 others including J.R. Michalski (2012), Selection of the Mars Science Laboratory Landing Site, Space Science Reviews, 170 (1-4), 641-737.
[24] Michalski, J.* and P. B. Niles (2012). An atmospheric origin of Martian Inr Layered Deposits (ILDs): Links to climate change and the global sulfur cycle. Geology, 40 (5), 419-422. 9
[23] Noe Dobrea, E., J. Michalski, and G. Swayze (2011), Aqueous mineralogy and stratigraphy at and around the proposed Mawrth Vallis MSL landing site: New insights into the aqueous history of the region, MARS, 6, 32-46.
[22] Che, C., T. D. Glotch, D. L. Bish, J. Michalski, and W. Xu (2011), Spectroscopic study of the dehydration of phyllosilicate and zeolite minerals, JGR Planets, 116, E05007.
[21] Michalski, J.* and P. Niles (2010). Deep crustal carbonate rocks exposed by meteor impact on Mars. Nature Geoscience, 3, 751-755.
[20] Michalski, J. *, J.-P. Bibring, F. Poulet, D. Loizeau, N. Mangold, E. Noe Dobrea, J. L. Bishop, J. J. Wray, N. K. McKeown, M. Parente, E. Hauber, F. Altieri, F. G. Carrozzo, and P. B. Niles (2010), The Mawrth Vallis region of Mars: a potential landing site for the Mars Science Laboratory (MSL) mission, Astrobiology, 10 (7), 687-703.
[19] Michalski, J.*, F. Poulet, J.-P. Bibring, and N. Mangold (2010), Analysis of phyllosilicate deposits in the Nili Fossae region of Mars: Comparison of TES and OMEGA data, Icarus, 206 (1), 269-289.
[18] Baldridge, A. M., S. J. Hook, J. K. Crowley, G. M. Marion, J. S. Kargel, J. Michalski, B. J. Thomson, C. R. de Souza Filho, N. T. Bridges, and A. J. Brown (2009), Contemporaneous deposition of phyllosilicates and sulfates: Using Australian acidic saline lake deposits to describe geochemical variability on Mars, Geophys. Res. Lett., 36, L19201, doi:10.1029/2009GL040069L.
[17] Noe Dobrea E. Z., J.L. Bishop, N.K. McKeown, R. Fu, C. Rossi, C. Heinlein, V. Hanus, J. R. Michalski, G. Swayze, F. Poulet, J.-P. Bibring, J.F. Mustard; B.L. Ehlmann, S. Murchie, A.S. McEwen, E. Malaret, C. Hash, and the CRISM Team (2010), Mineralogy and stratigraphy of the phyllosilicate-bearing and dark mantling units in the Mawrth Vallils region of Mars: Constrains on geologic origins, JGR Planets, 115, doi: 10.1029/2009JE003351
[16] Niles, P. and J. R. Michalski (2009), Meridiani Planum sediments on Mars formed through weathering in massive ice deposits, Nature Geoscience, 2, 215 – 220.
[15] Michalski, J. R. * and R. Fergason (2009), Composition and thermal inertia of the Mawrth Vallis region of Mars from TES and THEMIS data, Icarus, 199 (1), 25-48
[14] Poulet, F., N. Mangold, D. Loizeau, J.-P. Bibring, Y. Langevin, J. Michalski, and B. Gondet (2008), Abundance of minerals in the phyllosilicate-rich units on Mars, Astronomy & Astrophysics, 487, L41-L44.
[13] Bishop, J., Noe Dobrea, E., McKeown, N., Parente, M., B. Ehlmann, J. Michalski, F. Poulet, G. Swayze, J. Mustard, S. Murchie, and J.-P. Bibring (2008), Phyllosilicate Diversity and Past Aqueous Activity Revealed at Mawrth Vallis, Mars. Science. 321 (5890), 830-833.
[12] Michalski, J. R. * and Noe, E. Z. (2007), Evidence for a sedimentary origin of clay minerals in the Mawrth Vallis region, Mars, Geology, 35 (10), 951-954.
[11] Michalski, J. R. *, S. J. Reynolds, P. Niles, T. G. Sharp, and P. R. Christensen (2007), Alteration mineralogy in detachment zones: Insights from Swansea, Arizona., Geosphere., 3 (4), 184-198.
[10] Clark, B., R. Arvidson , R. Gellert , R. Morris , D. Ming , L. Richter , S. Ruff , J. Michalski, W. Farrand , A. S. Yen , K. Herkenhoff , R. Li , S. W. Squyres , C. Schroeder , G. Klingelhoefer J. F. Bell III. (2007), Evidence for montmorillonite or its compositional equivalent in Columbia Hills, Mars, J. Geophys. Res., 112, E06S01, doi:10.1029/ 2006JE002756 (link)
[9] Ruff, S. W., P. Christensen , D. Blaney , W. H. Farrand , J. Johnson , J. Michalski , J. E. Moersch, S. Wright , S. W. Squyres (2006), The rocks of Gusev Crater as viewed by the Mini-TES instrument, J. Geophys. Res., 111(E12), doi: 10.1029/2006JE002747.
[8] Michalski, J. R. *, M. D. Kraft, T. G. Sharp, P. R. Christensen (2006), Effects of chemical weathering on infrared spectra of Columbia River Basalt and spectral interpretation of martian alteration, EPSL, 284 (3-4), 822-829.
[7] Michalski, J. *, M. D. Kraft, T. G. Sharp, L. B. Williams, and P. R. Christensen (2006), Emission spectroscopy of clay minerals and evidence for poorly crystalline aluminosilicates on Mars from TES data, J. Geophys. Res.,111, E03004, doi:10.1029/2005JE002438.
[6] Hurowitz, J., S. S. McLennan, N. Tosca, R. Arvidson, J. Michalski, D. Ming., C. Shroeder and S. Squyres (2006), In-situ and experimental evidence for acid weathering of rock and soils on Mars, J. Geophys. Res., 111 (E2), E02S19.
[5] Michalski, J. *, M. D. Kraft, T. G. Sharp, L. B. Williams, and P. R. Christensen (2005), Mineralogical constraints on the high-silica Martian surface component observed by TES, Icarus, 174, 161-177.
[4] Michalski, J. *, S. J. Reynolds, P. R. Christensen, and T. G. Sharp (2004), Thermal infrared analysis of weathered granitic rock compositions in the Sacaton Mountains, Arizona: Implications for petrologic classifications from thermal infrared remote-sensing data, J. Geophys. Res., 109, E03007, doi:10.1029/2003JE002197.
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