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s41598-020-78240-2.pdf.jpgDec-2020Fingerprinting molecular and isotopic biosignatures on different hydrothermal scenarios of Iceland, an acidic and sulfur-rich Mars analogSánchez García, L.; Carrizo, D.; Molina, A.; Muñoz Iglesias, V.; Lezcano, M. A.; Fernández Sampedro, M.; Parro, Victor; Prieto Ballesteros, O.
Frozen ground and snow cover monitoring in livingston and deception islands, Antarctica-preliminary reuslts of the 2015-2019 permasnow project.pdf.jpg15-Feb-2020Frozen ground and snow cover monitoring in Livingston and Deception islands, Antarctica: preliminary results of the 2015-2019 PERMASNOW projectDe Pablo, M. A.; Jiménez, J. J.; Ramos, M.; Prieto, M.; Molina, A.; Vieira, G.; Hidalgo, M. A.; Fernández, S.; Fernández Menéndez, Susana del Carmen; Calleja, J. F.; Peón, J. J.; Corbea Pérez, A.; Maior, C. N.; Morales, M.; Mora, C.
Geomorphology Sinus Sabaeus region evidence cycle on Mars 1744-5647.pdf.jpg13-Sep-2021Geomorphology of the southwest Sinus Sabaeus region: evidence for an ancient hydrological cycle on MarsRobas, C.; Molina, A.; López, I.; Prieto Ballesteros, O.; Fairén, A.
Pla-García2020_Article_MeteorologicalPredictionsForMa.pdf.jpg14-Dec-2020Meteorological Predictions for Mars 2020 Perseverance Rover Landing Site at Jezero CraterPla García, J.; Rafkin, S. C. R.; Martínez, G. M.; Vicente Retortillo, Á.; Newman, C. E.; Savijärvi, H.; De la Torre, M.; Rodríguez Manfredi, J. A.; Gómez, F.; Molina, A.; Viúdez Moreiras, Daniel; Harri, A. M.
acceso-restringido.pdf.jpg3-Nov-2020Photogeologic Map of the Perseverance Rover Field Site in Jezero Crater Constructed by the Mars 2020 Science TeamStack, K. M.; Williams, N. R.; Calef, F. J.; 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.; Quantin Nataf, C.; Rice, M.; Russel, P.; Scheller, E.; Seeger, C. H.; Abbey, W. J.; Adler, J. B.; Amudsen, H.; Anderson, R. B.; Ángel, 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.; Gómez, 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.
Transition from a Subaerial to a Subnival Permafrost temperature regime following increased snow cover.pdf.jpg8-Dec-2020Transition from a Subaerial to a Subnival Permafrost Temperature Regime Following Increased Snow Cover (Livingston Island, Maritime Antarctic)Ramos, M.; Vieira, G.; De Pablo, M. A.; Molina, A.; Jiménez, J. J.