New Mars Water Map Will Prove Invaluable for Future Exploration Missions

New Mars Water Map Will Prove Invaluable for Future Exploration Missions

SciTechDaily·2022-08-23 18:00

ByEuropean Space Agency (ESA)August 23, 2022Data from ESAs Mars Express and NASAs Mars Reconnaissance Orbiter have been used to create the first detailed global map of hydrated mineral deposits on Mars. See below for an annotated version with mineral types and abundances. Credit: ESA/Mars Express (OMEGA) and NASA/Mars Reconnaissance Orbiter (CRISM)A new map of MarsMars is the second smallest planet in our solar system and the fourth planet from the sun. It is a dusty, cold, desert world with a very thin atmosphere. Iron oxide is prevalent in Mars' surface resulting in its reddish color and its nickname "The Red Planet." Mars' name comes from the Roman god of war." data-gt-translate-attributes='[{"attribute":"data-cmtooltip", "format":"html"}]'>Mars is altering our perception of the planets watery past, and indicating potential landing sites for future missions.The map shows mineral deposits across the red planet. It has been painstakingly created over the last decade using data from ESAs Mars Express Observatoire pour la Mineralogie, lEau, les Glaces et lActivité (OMEGA) instrument and NASAEstablished in 1958, the National Aeronautics and Space Administration (NASA) is an independent agency of the United States Federal Government that succeeded the National Advisory Committee for Aeronautics (NACA). It is responsible for the civilian space program, as well as aeronautics and aerospace research. Its vision is "To discover and expand knowledge for the benefit of humanity." Its core values are "safety, integrity, teamwork, excellence, and inclusion."" data-gt-translate-attributes='[{"attribute":"data-cmtooltip", "format":"html"}]'>NASAs Mars Reconnaissance Orbiter Compact Reconnaissance Imaging Spectrometer for Mars (CRISM) instrument.Specifically, the map displays the locations and abundances of aqueous minerals. These come from rocks that have been chemically transformed by the action of water in the past, and have typically been converted into clays and salts.Data from two Mars missions have been used to create the first detailed global map of hydrated mineral deposits on Mars. These minerals are predominately clays and salts, and can be used to tell the history of water in the planets various regions. For the most part, the clays were created on Mars during its early wet period, whereas many of the salts that are still visible today were produced as the water gradually dried up.Various landing sites and areas of interest are shown on the map. Mawrth Vallis is an ancient water outflow channel that is rich in clays. Oxia Planum is another clay-rich region and has been selected as the landing site for ESAs Rosalind Franklin rover. Meridiani Planum straddles the martian equator and was the landing spot for NASAs Mars Exploration Rover Opportunity in 2004. Valles Marineris is one of the largest canyons in the Solar System. Gale crater and Jezero crater were the landing sites of NASAs Curiosity and Perseverance rovers in 2012 and 2020 respectively.The clays shown on the map include iron and magnesium phyllosilicates, zeolites, and aluminosilicate clays. The salts shown are carbonates made of carbon and oxygen. Credit: ESA/Mars Express (OMEGA) and NASA/Mars Reconnaissance Orbiter (CRISM)On Earth, clays are created when water interacts with rocks, with different conditions giving rise to different types of clays. For instance, clay minerals such as smectite and vermiculite form when relatively small amounts of water interact with the rock. Therefore, they retain mostly the same chemical elements as the original volcanic rocks. In the case of smectite and vermiculite, those elements are iron and magnesium. The rocks can be altered more when the amount of water is relatively high. Soluble elements tend to be carried away leaving behind aluminum-rich clays such as kaolin.The big surprise for researchers is the prevalence of these minerals. Ten years ago, planetary scientists only knew of around 1000 outcrops on Mars. This made them interesting as geological oddities. However, the new map has reversed the situation, revealing hundreds of thousands of such areas in the oldest parts of the planet.This work has now established that when you are studying the ancient terrains in detail, not seeing these minerals is actually the oddity, says John Carter, Institut dAstrophysique Spatiale (IAS) and Laboratoire dAstrophysique de Marseille (LAM), Université Paris-Saclay and Aix Marseille Université, France.ESAs Mars Express and NASAs Mars Reconnaissance Orbiter have mapped water-rich rocks across Mars. The new global map is changing the way we think about the planets watery past, and shows where we could land future missions for further exploration. A big surprise is the prevalence of these minerals, with the map revealing hundreds of thousands of water-affected locations in the oldest parts of the planet. The new data will help answer exciting questions about Mars climate history, whether water was globally persistent or confined to short, intense episodes, and whether the conditions were ever suitable for life. Credit: ESA European Space AgencyThis is a paradigm shift in our understanding of the red planets history. It seemed plausible that water was limited in its extent and duration based on the smaller number of aqueous minerals that we previously knew were present. However, now there can be no doubt that water played a huge role in shaping the geology all around the planet.Now, the key issue at point is whether the water was persistent or confined to shorter, more intense episodes. While not yet providing a definitive answer, the new results certainly give scientists a stronger tool for pursuing the answer.I think we have collectively oversimplified Mars, says Carter. He explains that planetary scientists have tended to think that only a few types of clay minerals on Mars were created during its wet period, then as the water gradually dried up, salts were produced across the planet.This new map shows that its more complicated than previously thought. While many of the Martian salts probably did form later than the clays, the map shows many exceptions where there is intimate mixing of salts and clays. There are even some salts that are presumed to be older than some clays.Jezero crater and its surroundings on Mars display a rich array of minerals that have been altered by water in the planets past. These minerals are predominately clays and carbonate salts. Of the minerals identified in this particular region, carbonate is a salt, Fe/Mg phyllosilicates are iron- and magnesium-rich clays, and hydrated silica is a form of silicon dioxide that forms the gemstone opal on Earth. The close-up data were obtained from a global map of minerals produced by ESAs Mars Express and NASAs Mars Reconnaissance Orbiter. NASAs Perseverance rover, which landed on Mars in 2020, is currently exploring Jezero crater and its surroundings. Credit: ESA/Mars Express (OMEGA and HRSC) and NASA/Mars Reconnaissance Orbiter (CRISM and HiRISE)The evolution from lots of water to no water is not as clear cut as we thought, the water didnt just stop overnight. We see a huge diversity of geological contexts, so that no one process or simple timeline can explain the evolution of the mineralogy of Mars. Thats the first result of our study. The second is that if you exclude life processes on Earth, Mars exhibits a diversity of mineralogy in geological settings just as Earth does, he says.In other words, the closer we look, the more complex Marss past becomes.The OMEGA and CRISM instruments are ideally suited to this survey. Their datasets are highly complementary, working over the same wavelength range, and sensitive to the same minerals. CRISM uniquely provides high-resolution spectral imaging of the surface (down to 15m/pixel) for highly localized patches of Mars, and makes it the most suitable for mapping small regions of interest, such as rover landing sites. For instance, the mapping shows that Jezero crater where NASAs 2020 Perseverance rover is currently exploring, displays a rich variety of hydrated minerals.On the other hand, OMEGA provides global coverage of Mars at higher spectral resolution and with a better signal-to-noise ratio. This makes it better suited for global and regional mapping, and discriminating between the different alteration minerals.As part of constructing a new global map of Mars minerals, the Oxia Planum region was discovered to be rich in clays. These clays included the iron- and magnesium-rich minerals of smectite and vermiculite, and locally kaolin, which is known on Earth as china clay. Hydrated silica is also mapped over an ancient delta in Oxia. The close-up data were obtained from a global map of minerals produced by ESAs Mars Express and NASAs Mars Reconnaissance Orbiter. Because clays are formed in water-rich environments it makes these site excellent locations to study for clues as to whether life once began on Mars. Oxia Planum was selected as the landing site for ESAs Rosalind Franklin rover. Credit: ESA/Mars Express (OMEGA and HRSC) and NASA/Mars Reconnaissance Orbiter (CRISM)The results are presented in a pair of scientific papers, written by Carter, Lucie Riu, and colleagues. Lucie was at the Institute of Space and Astronautical Science (ISAS), Japanese Aerospace eXploration Agency (JAXAWith the basic detections in hand, Lucie decided to take the next step and quantify the amounts of the minerals that were present. If we know where, and in which percentage each mineral is present, it gives us a better idea of how those minerals could have been formed, she says.Due to two factors, this work also provides mission planners with several excellent candidates for potential future landing sites. First off, water molecules are still present in the aqueous minerals. Together with known locations of buried water-ice, this offers potential areas for water extraction for In-situ Resource Utilization, which is essential to the building of human bases on Mars. Salts and clays are often used construction materials on Earth. Secondly, even before humans go to Mars, the aqueous minerals provide fantastic locations in which to perform science. As part of this mineral mapping campaign, the clay-rich site of Oxia Planum was discovered. These ancient clays include the iron and magnesium-rich minerals of smectite and vermiculite. Not only can they help unlock the planets past climate, but they are perfect sites to investigate whether there was once life on Mars. As such, Oxia Planum was proposed and finally selected as the landing site for ESAs Rosalind Franklin rover.This is what I am interested in, and I think this kind of mapping work will help open up those studies going forward, says Lucie.As ever when dealing with Mars, the more we learn about the planet, the more fascinating it becomes.A Mars Orbital Catalog of Aqueous Alteration Signatures (MOCAAS) by John Carter, Lucie Riu, François Poulet, Jean-Pierre Bibring, Yves Langevin and Brigitte Gondet, 20 August 2022, Icarus.DOI: 10.1016/j.icarus.2022.115164The M3 project: 3 Global abundance distribution of hydrated silicates at Mars by Lucie Riu, John Carter and François Poulet, 25 November 2021, Icarus.DOI: 10.1016/j.icarus.2021.114809

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