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19 p, 4.6 MB |
Evidence of an oceanic impact and megatsunami sedimentation in Chryse Planitia, Mars
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Rodriguez, J. Alexis P. (Planetary Science Institute) ;
Robertson, Darrel K. (NASA Ames Research Center) ;
Kargel, Jeffrey S. (Planetary Science Institute) ;
Baker, Victor R. (University of Arizona) ;
Berman, Daniel (Planetary Science Institute) ;
Cohen, Jacob (NASA Ames Research Center) ;
Costard, Francois (Université Paris-Saclay) ;
Komatsu, Goro (Università D'Annunzio) ;
Lopez, Anthony (Planetary Science Institute) ;
Miyamoto, Hideaki (University of Tokyo) ;
Zarroca Bonet, Mario (Universitat Autònoma de Barcelona. Departament de Geologia)
In 1976, NASA's Viking 1 Lander (V1L) was the first spacecraft to operate successfully on the Martian surface. The V1L landed near the terminus of an enormous catastrophic flood channel, Maja Valles. [...]
2022 - 10.1038/s41598-022-18082-2
Scientific reports, Vol. 12 (December 2022) , art. 19589
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14 p, 7.7 MB |
The Chaotic Terrains of Mercury Reveal a History of Planetary Volatile Retention and Loss in the Innermost Solar System
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Rodriguez, J. Alexis P. (Planetary Science Institute (USA)) ;
Leonard, Gregory J. (University of Arizona. Department of Planetary Sciences) ;
Kargel, Jeffrey S. (Planetary Science Institute (USA)) ;
Domingue, Deborah (Planetary Science Institute (USA)) ;
Berman, Daniel (Planetary Science Institute (USA)) ;
Banks, Maria (NASA Goddard Space Flight Center) ;
Zarroca Bonet, Mario (Universitat Autònoma de Barcelona. Departament de Geologia) ;
Linares, Rogelio (Universitat Autònoma de Barcelona. Departament de Geologia) ;
Marchi, Simone (Southwest Research Institute (USA)) ;
Baker, Victor R. (University of Arizona. Department of Hydrology and Atmospheric Sciences) ;
Webster, Kevin D. (Planetary Science Institute (USA)) ;
Sykes, Mark (Planetary Science Institute (USA))
Mercury's images obtained by the 1974 Mariner 10 flybys show extensive cratered landscapes degraded into vast knob fields, known as chaotic terrain (AKA hilly and lineated terrain). For nearly half a century, it was considered that these terrains formed due to catastrophic quakes and ejecta fallout produced by the antipodal Caloris basin impact. [...]
2020 - 10.1038/s41598-020-59885-5
Scientific reports, Vol. 10 (March 2020) , art. 4737
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16 p, 20.5 MB |
Using a multi-proxy approach to locate the elusive Phoenician/Persian anchorage of Tel Akko (Israel)
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Giaime, Matthieu (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ;
Jol, Harry M. (University of Wisconsin-Eau Claire. Department of Geography & Anthropology (Estats Units d'Amèrica)) ;
Salmon, Yossi (University of Haifa. The Leon Recanati Institute for Maritime Studies (Israel)) ;
López, Gloria I. (University of Haifa. The Leon Recanati Institute for Maritime Studies (Israel)) ;
Abu Hamid, Amani (University of Haifa. The Leon Recanati Institute for Maritime Studies (Israel)) ;
Bergevin, Logan (University of Wisconsin-Eau Claire. Department of Geography & Anthropology (Estats Units d'Amèrica)) ;
Bauman, Paul (BGC Engineering Inc. (Canadà)) ;
McClymont, Alastair (BGC Engineering Inc. (Canadà)) ;
Sailer-Haugland, Ethan (University of Wisconsin-Eau Claire. Department of Geography & Anthropology (Estats Units d'Amèrica)) ;
Artzy, Michal (University of Haifa. The Leon Recanati Institute for Maritime Studies (Israel))
Previous geoarchaeological research on the Akko coastal plain have contributed to the understanding of the ancient coastal interface and added evidence as to the location/shift of the ancient anchorages dating from the Middle Bronze Age (beginning of the 2nd Millennium BC) to the Early Hellenistic period (mid of the 2nd century BC) of the ancient site of Tel Akko. [...]
2021 - 10.1016/j.quaint.2021.06.008
Quaternary international, Vol. 602 (November 2021) , p. 66-81
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9 p, 2.5 MB |
The 1997 Mars Pathfinder Spacecraft Landing Site : Spillover Deposits from an Early Mars Inland Sea
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Rodriguez, J. A. P. (Planetary Science Institute) ;
Baker, Victor R (University of Arizona. Department of Hydrology & Atmospheric Sciences) ;
Liu, Tao (University of Arizona. Department of Hydrology & Atmospheric Sciences) ;
Zarroca Bonet, Mario (Universitat Autònoma de Barcelona. Departament de Geologia) ;
Travis, B. (Planetary Science Institute) ;
Hui, T. (University of Arizona. Department of Hydrology & Atmospheric Sciences) ;
Komatsu, Goro (Università D'Annunzio. International Research School of Planetary Sciences) ;
Berman, Daniel (Planetary Science Institute) ;
Linares, Rogelio (Universitat Autònoma de Barcelona. Departament de Geologia) ;
Sykes, M. V. (Planetary Science Institute) ;
Banks, Maria (NASA Goddard Space Flight Center) ;
Kargel, J. S. (Planetary Science Institute)
The Martian outflow channels comprise some of the largest known channels in the Solar System. Remote-sensing investigations indicate that cataclysmic floods likely excavated the channels ~3. 4 Ga. Previous studies show that, in the southern circum-Chryse region, their flooding pathways include hundreds of kilometers of channel floors with upward gradients. [...]
2019 - 10.1038/s41598-019-39632-1
Scientific reports, Vol. 9, Núm. 1 (December 2019) , art. 4045
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5 p, 76.3 KB |
Geolingüística. En pos de los orígenes de los términos geológicos
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Bjornerud, Marcia (Miami University. Geology Departament) ;
Domingo i Morató, Montserrat, trad. (Universitat Autònoma de Barcelona. Departament de Geografia)
Las palabras, como las rocas, son legados del pasado y encierran claves de su historia y origen. En la enseñanza de la Geología, la consideración del origen de las palabras usadas para describir la Tierra aporta un elemento humano al estudio de los fenómenos geológicos, al revelar de qué modo culturas diversas han concebido el planeta. Words, like rocks, are legacies from the past and bear clues to their histories and origins. In teaching geology, discussing the origins of words used to describe Earth brings a human element to the study of geologic phenomena by revealing the ways in which diverse cultures have viewed the planet.
1996
Enseñanza de las ciencias de la tierra, Vol. 4, Num. 3 (1996) , p. 181-185
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