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1. In-situ crystallographic mapping constrains sulfate deposition and timing in Jezero crater, Mars

Author

Jones, Michael W. M., Flannery, David T., Hurowitz, Joel A., Tice, Mike T., Schrank, Christoph E., Allwood, Abigail C., Tosca, Nicholas J., Catling, David C., VanBommel, Scott J., Knight, Abigail L., Ganly, Briana, Siebach, Kirsten L., Benison, Kathleen C., Broz, Adrian P., Zorzano, Maria-Paz, Heirwegh, Chris M., Orenstein, Brendan J., Clark, Benton C., Sinclair, Kimberly P., Shumway, Andrew O., Wade, Lawrence A., Davidoff, Scott, Nemere, Peter, Wright, Austin P., Galvin, Adrian E., Randazzo, Nicholas, Martinez-Frias, Jesus, and ONeil, Lauren P.

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Instrumentation and Detectors
Abstract

Late-stage Ca-sulfate-filled fractures are common on Mars. Notably, the Shenandoah formation in the western edge of Jezero crater preserves a variety of Ca-sulfate minerals in the fine-grained siliciclastic rocks explored by the Perseverance rover. However, the depositional environment and timing of the formation of these sulfates is unknown. To address this outstanding problem, we developed a new technique to map the crystal textures of these sulfates in situ at two stratigraphically similar locations in the Shenandoah formation, allowing us to constrain the burial depth and paleoenvironment at the time of their deposition. Our results suggest that some Ca-sulfate analyzed was formed at a burial depth greater than 80m, whereas Ca-sulfates present at another outcrop likely precipitated in a shallow-subsurface environment. These results indicate that samples collected for potential return to Earth at the two studied locations capture two different times and distinct chemical conditions in the depositional history of the Shenandoah formation providing multiple opportunities to evaluate surface and subsurface habitability.

Published
2024

3. Present-day thermal and water activity environment of the Mars Sample Return collection

Author

Zorzano, Maria-Paz, Martínez, Germán, Polkko, Jouni, Tamppari, Leslie K., Newman, Claire, Savijärvi, Hannu, Goreva, Yulia, Viúdez-Moreiras, Daniel, Bertrand, Tanguy, Smith, Michael, Hausrath, Elisabeth M., Siljeström, Sandra, Benison, Kathleen, Bosak, Tanja, Czaja, Andrew D., Debaille, Vinciane, Herd, Christopher D. K., Mayhew, Lisa, Sephton, Mark A., Shuster, David, Simon, Justin I., Weiss, Benjamin, Randazzo, Nicolas, Mandon, Lucia, Brown, Adrian, Hecht, Michael H., and Martínez-Frías, Jesús

Published
2024
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5. Habitability Models for Astrobiology

Author

Méndez, Abel, Rivera-Valentín, Edgard E., Schulze-Makuch, Dirk, Filiberto, Justin, Ramírez, Ramses M., Wood, Tana, Dávila, Alfonso, McKay, Chris, Ceballos, Kevin N. Ortiz, Jusino-Maldonado, Marcos, Torres-Santiago, Nicole J., Nery, Guillermo, Heller, René, Byrne, Paul K., Malaska, Michael J., Nathan, Erica, Simões, Marta F., Antunes, André, Martínez-Frías, Jesús, Carone, Ludmila, Izenberg, Noam R., Atri, Dimitra, Chitty, Humberto I. Carvajal, Nowajewski-Barra, Priscilla, Rivera-Hernández, Frances, Brown, Corine, Lynch, Kennda, Catling, David, Zuluaga, Jorge I., Salazar, Juan F., Chen, Howard, González, Grizelle, Jagadeesh, Madhu Kashyap, and Haqq-Misra, Jacob

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Quantitative Biology - Quantitative Methods
Abstract

Habitability has been generally defined as the capability of an environment to support life. Ecologists have been using Habitat Suitability Models (HSMs) for more than four decades to study the habitability of Earth from local to global scales. Astrobiologists have been proposing different habitability models for some time, with little integration and consistency among them, being different in function to those used by ecologists. Habitability models are not only used to determine if environments are habitable or not, but they also are used to characterize what key factors are responsible for the gradual transition from low to high habitability states. Here we review and compare some of the different models used by ecologists and astrobiologists and suggest how they could be integrated into new habitability standards. Such standards will help to improve the comparison and characterization of potentially habitable environments, prioritize target selections, and study correlations between habitability and biosignatures. Habitability models are the foundation of planetary habitability science and the synergy between ecologists and astrobiologists is necessary to expand our understanding of the habitability of Earth, the Solar System, and extrasolar planets., Comment: Published in Astrobiology, 21(8). arXiv admin note: substantial text overlap with arXiv:2007.05491

Published
2021
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7. Habitability Models for Planetary Sciences

Author

Méndez, Abel, Rivera-Valentín, Edgard G., Schulze-Makuch, Dirk, Filiberto, Justin, Ramírez, Ramses, Wood, Tana E., Dávila, Alfonso, McKay, Chris, Ceballos, Kevin Ortiz, Jusino-Maldonado, Marcos, Nery, Guillermo, Heller, René, Byrne, Paul, Malaska, Michael J., Nathan, Erica, Simões, Marta Filipa, Antunes, André, Martínez-Frías, Jesús, Carone, Ludmila, Izenberg, Noam R., Atri, Dimitra, Chitty, Humberto Itic Carvajal, Nowajewski-Barra, Priscilla, Rivera-Hernández, Frances, Brown, Corine, Lynch, Kennda, Catling, David, Zuluaga, Jorge I., Salazar, Juan F., Chen, Howard, González, Grizelle, Jagadeesh, Madhu Kashyap, Barnes, Rory, Cockell, Charles S., and Haqq-Misra, Jacob

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics
Abstract

Habitability has been generally defined as the capability of an environment to support life. Ecologists have been using Habitat Suitability Models (HSMs) for more than four decades to study the habitability of Earth from local to global scales. Astrobiologists have been proposing different habitability models for some time, with little integration and consistency between them and different in function to those used by ecologists. In this white paper, we suggest a mass-energy habitability model as an example of how to adapt and expand the models used by ecologists to the astrobiology field. We propose to implement these models into a NASA Habitability Standard (NHS) to standardize the habitability objectives of planetary missions. These standards will help to compare and characterize potentially habitable environments, prioritize target selections, and study correlations between habitability and biosignatures. Habitability models are the foundation of planetary habitability science. The synergy between the methods used by ecologists and astrobiologists will help to integrate and expand our understanding of the habitability of Earth, the Solar System, and exoplanets., Comment: White Paper for the Planetary Science and Astrobiology Decadal Survey 2023-2032

Published
2020

11. The power of paired proximity science observations: Co-located data from SHERLOC and PIXL on Mars

Author

Razzell Hollis, Joseph, Moore, Kelsey R., Sharma, Sunanda, Beegle, Luther, Grotzinger, John P., Allwood, Abigail, Abbey, William, Bhartia, Rohit, Brown, Adrian J., Clark, Benton, Cloutis, Edward, Corpolongo, Andrea, Henneke, Jesper, Hickman-Lewis, Keyron, Hurowitz, Joel A., Jones, Michael W.M., Liu, Yang, Martinez-Frías, Jesús, Murphy, Ashley, Pedersen, David A.K., Shkolyar, Svetlana, Siljeström, Sandra, Steele, Andrew, Tice, Mike, Treiman, Alan, Uckert, Kyle, VanBommel, Scott, and Yanchilina, Anastasia

Published
2022
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14. Volcanic Caves of Lanzarote: A Natural Laboratory for Understanding Volcano-Speleogenetic Processes and Planetary Caves

Author

Sauro, Francesco, Pozzobon, Riccardo, Santagata, Tommaso, Tomasi, Ilaria, Tonello, Matteo, Martínez-Frías, Jesús, Smets, Laurens M. Johannes, Santana Gómez, Gustavo David, Massironi, Matteo, Eder, Wolfgang, Series Editor, Bobrowsky, Peter T., Series Editor, Martínez-Frías, Jesús, Series Editor, Mateo, Elena, editor, and Vegas, Juana, editor

Published
2019
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15. Lanzarote: Mars on Earth

Author

Martínez-Frías, Jesús, Mateo, Elena, Eder, Wolfgang, Series Editor, Bobrowsky, Peter T., Series Editor, Martínez-Frías, Jesús, Series Editor, Mateo, Elena, editor, and Vegas, Juana, editor

Published
2019
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16. Corrigendum to “Connecting molecular biomarkers, mineralogical composition, and microbial diversity from Mars analog lava tubes” [Sci. Total Environ. 913 (2024) 169583]

Author

Palma, Vera, primary, González-Pimentel, José L., additional, Jimenez-Morillo, Nicasio T., additional, Sauro, Francesco, additional, Gutiérrez-Patricio, Sara, additional, De la Rosa, José M., additional, Tomasi, Ilaria, additional, Massironi, Matteo, additional, Onac, Bogdan P., additional, Tiago, Igor, additional, González-Pérez, José A., additional, Laiz, Leonila, additional, Caldeira, Ana T., additional, Martínez-Frías, Jesús, additional, Cubero, Beatriz, additional, and Miller, Ana Z., additional

Published
2024
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17. Astromineralogía y Mineralogía Espacial: Fundamentos, perspectivas científicas e importancia de los meteoritos

Author

Martínez Frías, Jesús, Lunar Hernández, María Del Rosario, Rull Pérez, Fernando, Martínez Frías, Jesús, Lunar Hernández, María Del Rosario, and Rull Pérez, Fernando

Abstract

Se realiza una revisión detallada de los conceptos de astromineralogía y mineralogía espacial, concretando sus ámbitos actuales de aplicación de acuerdo con su evolución histórica y científica. Se propone que los minerales constituyen los «ladrillos clave» de la materia en el universo; unidades básicas que nos ayudan a entender su funcionamiento a distintas escalas. Se describen los tipos principales de astrominerales y se evalúa la importancia de los minerales presentes en los meteoritos para entender los procesos desarrollados en el sistema solar. Por último, se plantea que la consolidación de la astromineralogía y mineralogía espacial se produce mediante la relación de la geología planetaria, la astrofísica y la astroquímica, sin olvidar el importantísimo papel que juegan las nuevas técnicas espectroscópicas, sobre todo para la realización de análisis de manera remota e «in situ»., Depto. de Mineralogía y Petrología, Fac. de Ciencias Geológicas, TRUE, pub

Published
2024

18. Astrobiocentrism: Reflections on challenges in the transition to a vision of life and humanity in space

Author

Chon-Torres, Octavio Alfonso, Chela-Flores, Julian, Dunér, David, Persson, Erik, Milligan, Tony, Martínez-Frías, Jesús, Losch, Andreas, Pryor, Adam, Murga-Moreno, César Andreé, Chon-Torres, Octavio Alfonso, Chela-Flores, Julian, Dunér, David, Persson, Erik, Milligan, Tony, Martínez-Frías, Jesús, Losch, Andreas, Pryor, Adam, and Murga-Moreno, César Andreé

Abstract

Astrobiocentrism is a vision that places us in a scenario of confirmation of life in the universe, either as a second genesis or as an expansion of humanity in space. It manages to raise consistent arguments in relation to questions such as what would happen to knowledge if life were confirmed in the universe, how would this change the way we understand our place in the cosmos? Astrobiocentrism raises a series of reflections in the context of confirmed discovery, and it develops concepts that work directly with what would happen after irrefutable evidence has been obtained that we are not alone in space. Unlike biocentrism or ecocentrism, the astrobiocentric view is not limited to the Earth-centric perspective, and for it incorporates a multi-, inter- and transdisciplinary understanding. Therefore, the aim of this paper is to make a reflection on the astrobiocentric issues related to the challenges and problems of the discovery of life in the universe and the expansion of mankind into space. Here we explore some aspects of the transition from biogeocentrism to astrobiocentrism, astrobiosemiotics, homo mensura, moral community, planetary sustainability and astrotheology.

Published
2024
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19. Lunar Surface Resource Exploration: Tracing Lithium, 7 Li and Black Ice Using Spectral Libraries and Apollo Mission Samples

Author

Química analítica, Kimika analitikoa, Fernández, Susana del Carmen, Alberquilla Martínez, Fernando, Fernández, Julia María, Díez, Enrique, Rodríguez, Javier, Muñiz, Rubén, Calleja, Javier F., de Cos, Francisco Javier, Martínez Frías, Jesús, Química analítica, Kimika analitikoa, Fernández, Susana del Carmen, Alberquilla Martínez, Fernando, Fernández, Julia María, Díez, Enrique, Rodríguez, Javier, Muñiz, Rubén, Calleja, Javier F., de Cos, Francisco Javier, and Martínez Frías, Jesús

Abstract

This is an exercise to explore the concentration of lithium, lithium-7 isotope and the possible presence of black dirty ice on the lunar surface using spectral data obtained from the Clementine mission. The main interest in tracing the lithium and presence of dark ice on the lunar surface is closely related to future human settlement missions on the moon. We investigate the distribution of lithium and 7 Li isotope on the lunar surface by employing spectral data from the Clementine images. We utilized visible (VIS–NIR) imagery at wavelengths of 450, 750, 900, 950 and 1000 nm, along with near-infrared (NIR–SWIR) at 1100, 1250, 1500, 2000, 2600 and 2780 nm, encompassing 11 bands in total. This dataset offers a comprehensive coverage of about 80% of the lunar surface, with resolutions ranging from 100 to 500 m, spanning latitudes from 80°S to 80°N. In order to extract quantitative abundance of lithium, ground-truth sites were used to calibrate the Clementine images. Samples (specifically, 12045, 15058, 15475, 15555, 62255, 70035, 74220 and 75075) returned from Apollo missions 12, 15, 16 and 17 have been correlated to the Clementine VIS–NIR bands and five spectral ratios. The five spectral ratios calculated synthesize the main spectral features of sample spectra that were grouped by their lithium and 7 Li content using Principal Component Analysis. The ratios spectrally characterize substrates of anorthosite, silica-rich basalts, olivine-rich basalts, high-Ti mare basalts and Orange and Glasses soils. Our findings reveal a strong linear correlation between the spectral parameters and the lithium content in the eight Apollo samples. With the values of the 11 Clementine bands and the 5 spectral ratios, we performed linear regression models to estimate the concentration of lithium and 7 Li. Also, we calculated Digital Terrain Models (Altitude, Slope, Aspect, DirectInsolation and WindExposition) from LOLA-DTM to discover relations between relief and spatial distribution of t

Published
2024

20. Evidence of Sulfate‐Rich Fluid Alteration in Jezero Crater Floor, Mars

Author

Siljeström, Sandra, primary, Czaja, Andrew D., additional, Corpolongo, Andrea, additional, Berger, Eve L., additional, Li, An Y., additional, Cardarelli, Emily, additional, Abbey, William, additional, Asher, Sanford A., additional, Beegle, Luther W., additional, Benison, Kathleen C., additional, Bhartia, Rohit, additional, Bleefeld, Benjamin L., additional, Burton, Aaron S., additional, Bykov, Sergei V., additional, Clark, Benton, additional, DeFlores, Lauren, additional, Ehlmann, Bethany L., additional, Fornaro, Teresa, additional, Fox, Allie, additional, Gómez, Felipe, additional, Hand, Kevin, additional, Haney, Nikole C., additional, Hickman‐Lewis, Keyron, additional, Hug, William F., additional, Imbeah, Samara, additional, Jakubek, Ryan S., additional, Kah, Linda C., additional, Kivrak, Lydia, additional, Lee, Carina, additional, Liu, Yang, additional, Martínez‐Frías, Jesús, additional, McCubbin, Francis M., additional, Minitti, Michelle, additional, Moore, Kelsey, additional, Morris, Richard V., additional, Núñez, Jorge I., additional, Osterhout, Jeffrey T., additional, Phua, Yu Yu, additional, Randazzo, Nicolas, additional, Hollis, Joseph Razzell, additional, Rodriguez, Carolina, additional, Roppel, Ryan, additional, Scheller, Eva L., additional, Sephton, Mark, additional, Sharma, Shiv K., additional, Sharma, Sunanda, additional, Steadman, Kim, additional, Steele, Andrew, additional, Tice, Michael, additional, Uckert, Kyle, additional, VanBommel, Scott, additional, Williams, Amy J., additional, Williford, Kenneth H., additional, Winchell, Katherine, additional, Wu, Megan Kennedy, additional, Yanchilina, Anastasia, additional, and Zorzano, Maria‐Paz, additional

Published
2024
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23. Lunar Surface Resource Exploration: Tracing Lithium, 7 Li and Black Ice Using Spectral Libraries and Apollo Mission Samples.

Author

Fernández, Susana del Carmen, Alberquilla, Fernando, Fernández, Julia María, Díez, Enrique, Rodríguez, Javier, Muñiz, Rubén, Calleja, Javier F., de Cos, Francisco Javier, and Martínez-Frías, Jesús

Subjects
LUNAR surface, SOLAR wind, LUNAR craters, DIGITAL elevation models, ICE, PRINCIPAL components analysis, REGOLITH, HUMAN settlements
Abstract

This is an exercise to explore the concentration of lithium, lithium-7 isotope and the possible presence of black dirty ice on the lunar surface using spectral data obtained from the Clementine mission. The main interest in tracing the lithium and presence of dark ice on the lunar surface is closely related to future human settlement missions on the moon. We investigate the distribution of lithium and 7 Li isotope on the lunar surface by employing spectral data from the Clementine images. We utilized visible (VIS–NIR) imagery at wavelengths of 450, 750, 900, 950 and 1000 nm, along with near-infrared (NIR–SWIR) at 1100, 1250, 1500, 2000, 2600 and 2780 nm, encompassing 11 bands in total. This dataset offers a comprehensive coverage of about 80% of the lunar surface, with resolutions ranging from 100 to 500 m, spanning latitudes from 80°S to 80°N. In order to extract quantitative abundance of lithium, ground-truth sites were used to calibrate the Clementine images. Samples (specifically, 12045, 15058, 15475, 15555, 62255, 70035, 74220 and 75075) returned from Apollo missions 12, 15, 16 and 17 have been correlated to the Clementine VIS–NIR bands and five spectral ratios. The five spectral ratios calculated synthesize the main spectral features of sample spectra that were grouped by their lithium and 7 Li content using Principal Component Analysis. The ratios spectrally characterize substrates of anorthosite, silica-rich basalts, olivine-rich basalts, high-Ti mare basalts and Orange and Glasses soils. Our findings reveal a strong linear correlation between the spectral parameters and the lithium content in the eight Apollo samples. With the values of the 11 Clementine bands and the 5 spectral ratios, we performed linear regression models to estimate the concentration of lithium and 7 Li. Also, we calculated Digital Terrain Models (Altitude, Slope, Aspect, DirectInsolation and WindExposition) from LOLA-DTM to discover relations between relief and spatial distribution of the extended models of lithium and 7 Li. The analysis was conducted in a mask polygon around the Apollo 15 landing site. This analysis seeks to uncover potential 7 Li enrichment through spallation processes, influenced by varying exposure to solar wind. To explore the possibility of finding ice mixed with regolith (often referred to as 'black ice'), we extended results to the entire Clementine coverage spectral indices, calculated with a library (350–2500 nm) of ice samples contaminated with various concentrations of volcanic particles. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Astrobiological significance of minerals on Mars surface environment: UV-shielding properties of Fe (jarosite) vs. Ca (gypsum) sulphates

Author

Amaral, Gabriel, Martinez-Frias, Jesus, and Vazquez, Luis

Subjects
Physics - Instrumentation and Detectors
Abstract

The recent discovery of liquid water-related sulphates on Mars is of great astrobiological interest. UV radiation experiments, using natural Ca and Fe sulphates (gypsum, jarosite), coming from two selected areas of SE Spain (Jaroso Hydrothermal System and the Sorbas evaporitic basin), were performed using a Xe Lamp with an integrated output from 220 nm to 500 nm of 1.2 Wm-2. The results obtained demonstrate a large difference in the UV protection capabilities of both minerals and also confirm that the mineralogical composition of the Martian regolith is a crucial shielding factor. Whereas gypsum showed a much higher transmission percentage, jarosite samples, with a thickness of only 500 microns, prevented transmission. This result is extremely important for the search for life on Mars as: a) jarosite typically occurs on Earth as alteration crusts and patinas, and b) a very thin crust of jarosite on the surface of Mars would be sufficient to shield microorganisms from UV radiation., Comment: 18 pages, 2 figures, submitted to Reviews in Environmental Science and Bio/Technology (invited paper), special issue "Extreme Life"

Published
2005

26. Komatiites: From Earth's Geological Settings to Planetary and Astrobiological Contexts

Author

Nna-Mvondo, Delphine and Martinez-Frias, Jesus

Subjects
Physics - Geophysics
Abstract

Komatiites are fascinating volcanic rocks. They are among the most ancient lavas of the Earth following the 3.8 Ga pillow basalts at Isua and they represent some of the oldest ultramafic magmatic rocks preserved in the Earth's crust at 3.5 Ga. This fact, linked to their particular features (high magnesium content, high melting temperatures, low dynamic viscosities, etc.), has attracted the community of geoscientists since their discovery in the early sixties, who have tried to determine their origin and understand their meaning in the context of the terrestrial mantle evolution. In addition, it has been proposed that komatiites are not restricted to our planet, but they could be found in other extraterrestrial setting in our Solar System (particularly in Mars and Io). It is important to note that komatiites may be extremely significant in the study of the origins and evolution of Life on Earth. They not only preserve essential geochemical clues of the interaction between the pristine Earth rocks and atmosphere, but also may have been potential suitable sites for biological processes to develop. Thus, besides reviewing the main geodynamic, petrological and geochemical characteristics of komatiites, this paper also aims to widen their investigation beyond the classical geological prospect, calling attention to them as attracting rocks for research in planetology and astrobiology., Comment: 53 pages, submitted (Nov 22th, 2005) to Earth, Moon and Planets and accepted for publication on Jan 18th, 2007. The new version is the corrected paper after acceptance for publication

Published
2005

27. Contributions of Albert Einstein to Earth Sciences: A review in Commemoration of the World Year of Physics

Author

Martinez-Frias, Jesus, Hochberg, David, and Rull, Fernando

Subjects
Physics - History and Philosophy of Physics, Physics - Geophysics, Physics - Popular Physics
Abstract

The World Year of Physics (2005) is an international celebration to commemorate the one hundredth anniversary of Einstein's "Annus Mirabilis". The United Nations has officially declared 2005 the International Year of Physics. However, the impact of Einstein's ideas was not restricted to physics. Among numerous other disciplines, Einstein also made significant and specific contributions to Earth Sciences. His geosciences-related letters, comments, and scientific articles, are dispersed, not easily accesible and are poorly known. The present review attempts to integrate them, as a tribute to Einstein in commemoration of this centenary. These contributions can be classified into three basic areas: geodynamics, geological (planetary) catastrophism and fluvial geomorphology., Comment: 17 pages, no figures, to be published in Naturwissenschaften

Published
2005
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32. FOCARIS project, inhabit the Moon

Author

0000-0002-8496-2834, 0000-0002-7858-8479, 0000-0002-2609-4485, 0000-0003-3738-6085, Eid-Macheh-Sánchez, Yasmina, García-Valverde, Juanjo, Martínez-Frías, Jesús, Blanca-Giménez, Vicente, 0000-0002-8496-2834, 0000-0002-7858-8479, 0000-0002-2609-4485, 0000-0003-3738-6085, Eid-Macheh-Sánchez, Yasmina, García-Valverde, Juanjo, Martínez-Frías, Jesús, and Blanca-Giménez, Vicente

Abstract

New habitats in the face of the colonization of other planets arise from the innate motivation of human beings to “cross borders”, implicitly leading to the pursuit of scientific, technological and sociocultural advancement through the study and implementation of our capabilities along with the pursuit of development. Thus, Stephen Hawking found it necessary to “go where no one has ever gone before”, in order to be able to survive in the face of multiple “dangers and disasters”, so that designing and building on the basis of the needs of maximum safety, comfort and minimum energy consumption becomes necessary to meet, as Alvar Aalto (pioneer of modern architecture) said, “the full demands of a positive society”, these reflections helped us to design one of the ten finalist habitats in an international competition for the design of a future extraterrestrial habitat specifically designed to house human life on the Moon, named FOCARIS

Published
2023

34. Proyecto FOCARIS, habitar la Luna

Author

Eid-Macheh-Sánchez, Yasmina, García-Valverde, Juanjo, Martínez-Frías, Jesús, and Blanca-Giménez, Vicente

Subjects
habitar la luna, arquitectura espacial, planetary architecture, hábitats extraterrestres, space architecture, inhabit the moon, arquitectura planetaria, extraterrestrial habitats
Abstract

New habitats in the face of the colonization of other planets arise from the innate motivation of human beings to “cross borders”, implicitly leading to the pursuit of scientific, technological and sociocultural advancement through the study and implementation of our capabilities along with the pursuit of development. Thus, Stephen Hawking found it necessary to “go where no one has ever gone before”, in order to be able to survive in the face of multiple “dangers and disasters”, so that designing and building on the basis of the needs of maximum safety, comfort and minimum energy consumption becomes necessary to meet, as Alvar Aalto (pioneer of modern architecture) said, “the full demands of a positive society”, these reflections helped us to design one of the ten finalist habitats in an international competition for the design of a future extraterrestrial habitat specifically designed to house human life on the Moon, named FOCARIS., Contar con nuevos hábitats frente a la colonización de otros planetas surge de la motivación innata en los seres humanos de “traspasar fronteras”, llevando implícita la persecución del avance científico, tecnológico y sociocultural por medio del estudio y puesta en marcha de nuestras capacidades junto a la búsqueda de desarrollo. Así, Stephen Hawking encontraba necesario “ir donde nadie ha ido nunca aún”, con el fin de poder sobrevivir frente a “peligros y desastres” múltiples. En este sentido, proyectar y construir en base a las necesidades de máxima seguridad, confort, y mínimo consumo energético se hace necesario para cumplir, como decía Alvar Aalto (pionero en la arquitectura moderna), con “las plenas exigencias de una sociedad positiva”. Reflexiones estas, que ayudaron a plantear uno de los diez hábitats finalistas de un concurso internacional para el diseño de un futuro hábitat extraterrestre pensado con el fin de albergar vida humana en nuestro satélite, la Luna, denominada FOCARIS.

Published
2023
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35. Computational Models and Simulations of Meteor Impacts as Tools for Analysing and Evaluating Management of Crisis Scenarios

Author

Martínez-Frías, Jesús, Malvite, Alain Leppinette, Blondel, Philippe, Series editor, Reitner, Joachim, Series editor, Stüwe, Kurt, Series editor, Trauth, Martin H., Series editor, Yuen, David A., Series editor, Pardo-Igúzquiza, Eulogio, editor, Guardiola-Albert, Carolina, editor, Heredia, Javier, editor, Moreno-Merino, Luis, editor, Durán, Juan José, editor, and Vargas-Guzmán, Jose Antonio, editor

Published
2014
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36. Mathematical Modelling of Geochemical Processes Applied to Cenozoic Iberian Volcanics: A Review

Author

Benito, Raúl, Martínez-Frías, Jesús, Blondel, Philippe, Series editor, Reitner, Joachim, Series editor, Stüwe, Kurt, Series editor, Trauth, Martin H., Series editor, Yuen, David A., Series editor, Pardo-Igúzquiza, Eulogio, editor, Guardiola-Albert, Carolina, editor, Heredia, Javier, editor, Moreno-Merino, Luis, editor, Durán, Juan José, editor, and Vargas-Guzmán, Jose Antonio, editor

Published
2014
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37. In-situ Raman Analysis of the Precipitation Sequence of Sulphate Minerals Using Small Droplets: Application to Rio Tinto (Spain)

Author

Rull, Fernando, Sobrón, Francisco, Guerrero, Julia, Medina, Jesús, Venegas, Gloria, Gázquez, Fernando, Martínez-Frías, Jesús, Blondel, Philippe, Series editor, Reitner, Joachim, Series editor, Stüwe, Kurt, Series editor, Trauth, Martin H., Series editor, Yuen, David A., Series editor, Pardo-Igúzquiza, Eulogio, editor, Guardiola-Albert, Carolina, editor, Heredia, Javier, editor, Moreno-Merino, Luis, editor, Durán, Juan José, editor, and Vargas-Guzmán, Jose Antonio, editor

Published
2014
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38. A Mathematical Algorithm to Simulate the Growth and Transformation of Framboidal Pyrite: Characterization of the Biogenic Influence in Their Size Distributions

Author

Palomares, Raúl Merinero, Hernández, Rosario Lunar, González-Sanz, Francisco-Javier, Losada, Luis Somoza, Martínez-Frías, Jesús, Blondel, Philippe, Series editor, Reitner, Joachim, Series editor, Stüwe, Kurt, Series editor, Trauth, Martin H., Series editor, Yuen, David A., Series editor, Pardo-Igúzquiza, Eulogio, editor, Guardiola-Albert, Carolina, editor, Heredia, Javier, editor, Moreno-Merino, Luis, editor, Durán, Juan José, editor, and Vargas-Guzmán, Jose Antonio, editor

Published
2014
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39. Spectral Analysis for Anomaly Detection in the Central Volcanic Range, Costa Rica. Implications for Planetary Geology

Author

Rejas, Juan Gregorio, Martínez, Ruben, Marchamalo, Miguel, Bonatti, Javier, Martínez-Frías, Jesús, Blondel, Philippe, Series editor, Reitner, Joachim, Series editor, Stüwe, Kurt, Series editor, Trauth, Martin H., Series editor, Yuen, David A., Series editor, Pardo-Igúzquiza, Eulogio, editor, Guardiola-Albert, Carolina, editor, Heredia, Javier, editor, Moreno-Merino, Luis, editor, Durán, Juan José, editor, and Vargas-Guzmán, Jose Antonio, editor

Published
2014
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40. FRISER-IRMIX Database: A Web-Based Support System with Implications in Planetary Mineralogical Studies, Ground Temperature Measurements and Astrobiology

Author

Martínez-Frias, Jesús, Rubio, María Serrano, Martín-Torres, F. Javier, Zorzano, María Paz, Rodríguez-Manfredi, José A., Gómez-Elvira, Javier, team, REMS, Blondel, Philippe, Series editor, Reitner, Joachim, Series editor, Stüwe, Kurt, Series editor, Trauth, Martin H., Series editor, Yuen, David A., Series editor, Pardo-Igúzquiza, Eulogio, editor, Guardiola-Albert, Carolina, editor, Heredia, Javier, editor, Moreno-Merino, Luis, editor, Durán, Juan José, editor, and Vargas-Guzmán, Jose Antonio, editor

Published
2014
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42. Raman spectroscopy, assisted by X‐ray fluorescence and laser‐induced breakdown spectroscopy, to characterise original and altered mineral phases in the NWA 2975 Martian shergottite.

Author

Población, Iratxe, Torre‐Fdez, Imanol, Aramendia, Julene, López‐Reyes, Guillermo, Cabalín, Luisa M., Madariaga, Juan Manuel, Rull, Fernando, Laserna, Javier J., Carrizo, Daniel, Martínez‐Frías, Jesús, Belenguer, Tomás, Taravillo, Mercedes, Dell'Aglio, Marcella, De Giacomo, Alessandro, Huidobro, Jennifer, Manrique, Jose Antonio, Delgado, Tomás, Arana, Gorka, Castro, Kepa, and Veneranda, Marco

Subjects
LASER-induced breakdown spectroscopy, LASER-induced fluorescence, MARTIAN meteorites, X-ray fluorescence, MINERALS, PYRRHOTITE, RAMAN spectroscopy
Abstract

A fragment of the NWA 2975 Martian meteorite, an enriched basaltic shergottite, was analysed to complete its geochemical characterisation performed 10 years ago. By this means, the feasibility of the employed techniques in a combined way for present and future space exploration missions can be tested. For this aim, Raman spectroscopy was used supported by micro energy dispersive X‐ray fluorescence (μ‐EDXRF) and laser‐induced breakdown spectroscopy (LIBS) for an accurate interpretation of molecular and elemental results. Raman spectroscopy results from two setups, InVia from Renishaw and RLS Simulator, were compared. The major minerals detected by Raman spectroscopy were pyroxenes (mainly augite, pigeonite and enstatite) and plagioclases (mainly shocked maskelynite). Raman spectroscopy allowed defining different metal compositions for these main minerals based on the secondary Raman spectroscopy bands in the 200–500 cm−1 region. In addition, other minerals were found such as merrillite, as well as pyrrhotite and apatite, in several veins and cracks of the meteorite, in agreement with the initial report by the Meteoritical Bulletin. Moreover, it should be highlighted that coesite was found for the very first time in this meteorite. [ABSTRACT FROM AUTHOR]

Published
2023
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43. Geochemical Characterization of the Martian Analogues Enekuri and Fruiz, Located in the Basque-Cantabrian Basin, by Spectroscopic Techniques

Author

Huidobro, Jennifer, primary, Ruiz-Galende, Patricia, additional, Torre-Fdez, Imanol, additional, Aramendia, Julene, additional, Martínez-Frías, Jesús, additional, García-Florentino, Cristina, additional, Gómez-Nubla, Leticia, additional, Castro, Kepa, additional, Arana, Gorka, additional, and Madariaga, Juan Manuel, additional

Published
2023
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