Examinando por Autor "Rampe, Elizabeth"

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Acceso Abierto
Inhabited subsurface wet smectites in the hyperarid core of the Atacama Desert as an analog for the search for life on Mars
(Nature Research Journals, 2020-11-05) Azua Bustos, A.; Fairén, Alberto G.; González Silva, C.; Carrizo, D.; Fernández Martínez, Miguel Ángel; Arenas Fajardo, C.; Fernández Sampedro, M.; Gil Lozano, C.; Sánchez García, Laura; Ascaso, C.; Wierzchos, J.; Rampe, Elizabeth; European Research Council (ERC); Agencia Estatal de Investigación (AEI); Sánchez García, L. [0000-0002-7444-1242]; Lozano, C. G. [0000-0003-3500-2850]; Fernández Sampedro, M. [0000-0003-1932-7591]
The modern Martian surface is unlikely to be habitable due to its extreme aridity among other environmental factors. This is the reason why the hyperarid core of the Atacama Desert has been studied as an analog for the habitability of Mars for more than 50 years. Here we report a layer enriched in smectites located just 30 cm below the surface of the hyperarid core of the Atacama. We discovered the clay-rich layer to be wet (a phenomenon never observed before in this region), keeping a high and constant relative humidity of 78% (aw 0.780), and completely isolated from the changing and extremely dry subaerial conditions characteristic of the Atacama. The smectite-rich layer is inhabited by at least 30 halophilic species of metabolically active bacteria and archaea, unveiling a previously unreported habitat for microbial life under the surface of the driest place on Earth. The discovery of a diverse microbial community in smectite-rich subsurface layers in the hyperarid core of the Atacama, and the collection of biosignatures we have identified within the clays, suggest that similar shallow clay deposits on Mars may contain biosignatures easily reachable by current rovers and landers.
Restringido
Long-lasting habitable periods in Gale crater constrained by glauconitic clays
(Springer Link, 2021-06-28) Losa Adams, E.; Gil Lozano, C.; Fairén, Alberto G.; Bishop, J. L.; Rampe, Elizabeth; Gago Duport, L.; European Research Council (ERC); Xunta de Galicia
In situ investigations by the Mars Science Laboratory Curiosity rover have confirmed the presence of an ancient lake that existed in Gale crater for up to 10 million years. The lake was filled with sediments that eventually converted to a compacted sandstone. However, it remains unclear whether the infilling of the lake was the result of background sedimentation processes or represents punctual flooding events in a largely isolated lake. Here, we used the X-ray diffraction data obtained with the Chemistry and Mineralogy instrument onboard the Curiosity rover to characterize the degree of disorder of clay minerals in the Murray formation at Gale crater. Our analysis shows that they are structurally and compositionally related to glauconitic clays, which are a sensitive proxy of quiescent conditions in liquid bodies for extended periods of time. Such results provide evidence of long periods of extremely low sedimentation in an ancient brackish lake on Mars, the signature of an aqueous regime with slow evaporation at low temperatures. More in general, the identification of lacustrine glauconitic clays on Mars provides a key parameter in the characterization of aqueous Martian palaeoenvironments that may once have harboured life.