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The Aqueous Alteration of CR Chondrites: Experiments and Geochemical Modeling (2007)

Kolb, V. M. ; Toplis, M. J. ; Zolensky, M. E. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: CR carbonaceous chondrites are of major interest since they contain some of the most primitive organic matter known. However, aqueous alteration has more or less overprinted their original features in a way that needs to be assessed. This study was initiated by comparing the mineralogy and modal abundances of the most altered CR1 chondrite, GRO 95577, to a less altered CR2. Calculated element distributions imply that GRO 95577 may result from aqueous alteration of Renazzo by an isochemical process on their parent asteroid, whose mineralogical composition was estimated ( Unaltered CR shown included table).

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science Conference; Mar 12, 2007 - Mar 16, 2007; League City, TX; United States

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An Achondritic Micrometeorite from Antarctica: Expanding the Solar System Inventory of Basaltic Asteroids (2005)

Maurette, M. ; Gounelle, M. ; Engrand, C. ; [et al.]

In: CASI

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Publication Date: 2017-10-02

Description: Micrometeorites with sizes below 1 mm are collected in a diversity of environments such as deep-sea sediments and polar caps. Chemical, mineralogical and isotopic studies indicate that micrometeorites are closely related to primitive carbonaceous chondrites that amount to only approximately 2% of meteorite falls. While thousands of micrometeorites have been studied in detail, no micrometeorite has been found so far with an unambiguous achondritic composition and texture. One melted cosmic spherule has a low Fe/Mn ratio similar to that of eucrites, the most common basaltic meteorite group. Here we report on the texture, mineralogy, Rare Earth Elements (REEs) abundance and oxygen isotopic composition of the unmelted Antarctic micrometeorite 99-21-40 that has an unambiguous basaltic origin.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXVI, Part 7; LPI-Contrib-1234-Pt-7

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Palmer Quest : a feasible and valuable vision mission to the Mars polar caps (2005)

Schreiner, T. M. ; Paige, D. A. ; Ivanov, A. B. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science Conference; Mar 14, 2005 - Mar 18, 2005; League City, TX; United States

Format: text

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Cassini Observations of Saturn's Magnetotail Region: Preliminary Results (2007)

Krupp, N. ; Arridge, C. ; Khurana, K. K. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-19

Description: Using Cassini thermal plasma, hot plasma and magnetic field observations for several intervals between the dawn meridian of Saturn's outer magnetosphere and Saturn's magnetotail region, we investigate the structure of the magnetotail, plasma and magnetic field properties within tail-like current sheet regions and ion flows within the magnetotail regions. We use Cassini Plasma Spectrometer (CAPS) Ion Mass Spectrometer (IMS), Electron Plasma Spectrometer (ELS) observations, MIMI LEMMS ion and electron observations and Cassini magnetometer data (MAG) to characterize the plasma environment. IMS observations are used to measure plasma flow velocities from which one can infer rotation versus convective flows. IMS composition measurements are used to trace the source of plasma from the inner magnetosphere (protons, H2+ and water group ions) versus an external solar wind source (protons and ~ e +i+on s). A critical parameter for both models is the strength of the convection electric field with respect to the rotational electric field for the large scale magnetosphere. For example, are there significant return flows (i.e., negative radial velocities, VR 〈 0) and/or plasmoids (V(sub R) 〉 0) within the magnetotail region? Initial preliminary evidence of such out flows and return flows was presented by Sittler et al. This talk complements the more global analysis by McAndrews et al.

Keywords: Lunar and Planetary Science and Exploration

Type: 2007 American Geophysical Union Fall Meeting; Dec 10, 2007 - Dec 14, 2007; San Francisco, CA; United States

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Temperatures, winds, and composition in the saturnian system (2005)

Mamoutkine, A. ; Bjoraker, G. L. ; Spilker, L. J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Stratospheric temperatures on Saturn imply a strong decay of the equatorial winds with altitude. If the decrease in winds reported from recent Hubble Space Telescope images is not a temporal change, then the features tracked must have been at least 130 kilometers higher than in earlier studies. Saturn's south polar stratosphere is warmer than predicted from simple radiative models. The C/H ratio on Saturn is seven times solar, twice Jupiter's. Saturn's ring temperatures have radial variations down to the smallest scale resolved (100 kilometers). Diurnal surface temperature variations on Phoebe suggest a more porous regolith than on the jovian satellites.

Keywords: Lunar and Planetary Science and Exploration

Type: Science (ISSN 0036-8075); Volume 307; 5713; 1247-51

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A New Modal Analysis Method to put Constraints on the Aqueous Alteration of CR Chondrites and Estimate the Unaltered CR Composition (2007)

Gounelle, M. ; Zolensky, M. E. ; Perronnet, M. ; [et al.]

In: CASI

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Publication Date: 2018-06-11

Description: CR carbonaceous chondrites are of the major interest since they contain one of the most primitive organic matters. However, aqueous alteration has more or less overprinted their original features in a way that needed to be assessed. That was done in the present study by comparing the mineralogy of the most altered CR1 chondrite, GRO 95577, to a less altered CR2, Renazzo. Their modal analyses were achieved thanks to a new method, based on X-ray elemental maps acquired on electron microprobe, and on IDL image treatment. It allowed the collection of new data on the composition of Renazzo and confirmed the classification of GRO 95577 as a CR1. New alteration products for CRs, vermiculite and clinochlore, were observed. The homogeneity of the Fe-poor clays in the CR1 and the distinctive matrix composition in the two chondrites suggest a wide-range of aqueous alteration on CRs. The preservation of the outlines of the chondrules in GRO 95577 and the elemental transfers of Al, Fe and Ca throughout the chondrule and of Fe and S from the matrix to the chondrule favor the idea of an asteroidal location of the aqueous alteration. From their mineralogical descriptions and modal abundances, the element repartitions in Renazzo and GRO 95577 were computed. It indicates a possible relationship between these two chondrites via an isochemical alteration process. Knowing the chemical reactions that occurred during the alteration, it was thus possible to decipher the mineralogical modal abundances in the unaltered CR body.

Keywords: Lunar and Planetary Science and Exploration

Type: Meteoritics and Planetary Science, projected release date Jan. 1, 2007

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Applicability of Electrical and Electroanalytical Techniques to Detect Water and Characterize the Geochemistry of Undisturbed Planetary Soils (2005)

Seshadri, S. ; Kuhlman, G. M. ; Schaap, M. G. ; [et al.]

In: CASI

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Publication Date: 2017-10-02

Description: The search for life is a primary goal of NASA s planetary exploration program. The search is, of necessity, tiered in both the detection approach (looking for evidence of microbial fossils or the presence of water in the geological history of a planetary body and/or looking for evidence of water, energy sources, precursors to life, signatures of life and/or life itself in the present day planetary environment) and in the survey method (scale, range, specificity) employed. Terrestrial investigations suggests that life as we know it requires water. Thus, the search for extant microbial life and habitats requires identifying water-bearing soils. Determining Reduction-Oxidation (REDOX) couples present in water, once it is found, provides information on soil geochemistry and identifies potential chemical energy sources for life. Mars offers a near-term target for conducting this search. The identification of gully formation [1], layered deposits [2] and elemental ratios of bromine and chlorine [3] present indirect evidence that water was abundant locally in the Martian past. Additionally, Viking images of polar ice and frost formation on the surface of Mars demonstrate that water can exist in at least some near-surface regions of present-day Mars. Atmospheric pressure data further suggest that liquid water may be stable for short periods of time in the mid-latitudes of the Martian surface. [4] Measurements of the global distribution of hydrogen in the Martian regolith offer tantalizing indirect evidence that water may at least exist in near-surface soils. [5] Evidently, any water to be found is likely to exist as soil mixtures at levels ranging between approx.0.5% and approx.5 %.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXVI, Part 18; LPI-Contrib-1234-Pt-18

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Space Rocks Tell Their Secrets: Space Science Applications of Physics and Chemistry for High School and College Classes. Update. (2005)

Allen, J. S. ; Tobola, K. W. ; McReynolds, Julie ; [et al.]

In: CASI

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Publication Date: 2017-10-02

Description: As the scientific community studies Mars remotely for signs of life and uses Martian meteorites as its only available samples, teachers, students, and the general public continue to ask, "How do we know these meteorites are from Mars?" This question sets the stage for a six-lesson instructional package Space Rocks Tell Their Secrets. Expanding on the short answer "It's the chemistry of the rock", students are introduced to the research that reveals the true identities of the rocks. Since few high school or beginning college students have the opportunity to participate in this level of research, a slide presentation introduces them to the labs, samples, and people involved with the research. As they work through the lessons and interpret authentic data, students realize that the research is an application of two basic science concepts taught in the classroom, the electromagnetic spectrum and isotopes. Additional information is included in the original extended abstract.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXVI, Part 12; LPI-Contrib-1234-Pt-12

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Dynamic Dust Accumulation and Dust Removal Observed on the Mars Exploration Rover Magnets (2005)

Gunnlaugsson, H. P. ; Herkenhoff, K. E. ; Madsen, M. B. ; [et al.]

In: CASI

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Publication Date: 2017-10-02

Description: The Mars Exploration Rovers each carry a set of Magnetic Properties Experiments designed to investigate the properties of the airborne dust in the Martian atmosphere. It is a preferred interpretation of previous experiments that the airborne dust in the Martian atmosphere is primarily composed by composite silicate particles containing one or more highly magnetic minerals as a minor constituent. The ultimate goal of the magnetic properties experiments on the Mars Exploration Rover mission is to provide some information/ constraints on whether the dust is formed by volcanic, meteoritic, aqueous, or other processes. The first problem is to identify the magnetic mineral(s) in the airborne dust on Mars. While the overall results of the magnetic properties experiments are presented in, this abstract will focus on dust deposition and dust removal on some of the magnets.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXVI, Part 2; LPI-Contrib-1234-Pt-2

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Cratering Soil by Impinging Jets of Gas, with Application to Landing Rockets on Planetary Surfaces (2007)

Fuchs, M. ; Kromann, M. J. ; Immer, Christopher D. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Several physical mechanisms are involved in excavating granular materials beneath a vertical jet of gas. These occur, for example, beneath the exhaust plume of a rocket landing on the soil of the Moon or Mars. A series of experiments and simulations have been performed to provide a detailed view of the complex gas/soil interactions. Measurements have also been taken from the Apollo lunar landing videos and from photographs of the resulting terrain, and these help to demonstrate how the interactions extrapolate into the lunar environment. It is important to understand these processes at a fundamental level to support the ongoing design of higher-fidelity numerical simulations and larger-scale experiments. These are needed to enable future lunar exploration wherein multiple hardware assets will be placed on the Moon within short distances of one another. The high-velocity spray of soil from landing spacecraft must be accurately predicted and controlled lest it erosively damage the surrounding hardware.

Keywords: Lunar and Planetary Science and Exploration

Type: KSC-2007-064 , 18th Engineering Mechanics Division Conference (EMD2007); Jun 03, 2007 - Jun 06, 2007; Blacksburg, VA; United States

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