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Beagle 2 and NASA's Mars 2003 Orbiter: A Unique Exobiology Opportunity with an Orbiter (2000)

Gibson, Everett K., Jr. ; Thatcher, John ; Westall, Frances ; [et al.]

In: CASI

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Publication Date: 2004-12-03

Description: With the exploration strategy for Mars undergoing reexamination, the opportunity exists for the incorporation of the 60 kg Beagle 2 lander, developed in the United Kingdom for inclusion on ESA's 2003 Mars Express mission, with NASA's Mars 2003 orbiter derived from the Mars Global Orbiter. The combination of Beagle 2 with a Mars orbiter would result in a unique mission which could obtain information on Mars' life, climate and resources both from orbit as well as on the surface of the planet. Beagle 2 has been developed in the LJK for ESA as a low-cost opportunity to study the exobiology of Mars and the spacecraft is in its final stages of manufacture. Only limited modifications to the Beagle 2 package would be required for inclusion on NASA's Mars 2003 orbiter. With the ESA Mars Express mission launch in 2003 and a potential NASA Mars orbiter in 2003, both Beagle 2 landers on Mars would offer a low-cost, decreased risk and increased science return opportunity for the exploration of Mars at two distinct geologically interesting sites.

Keywords: Lunar and Planetary Science and Exploration

Type: Concepts and Approaches for Mars Exploration; Part 1; 124; LPI-Contrib-1062

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The Moon: Biogenic elements (1992)

Chang, Sherwood ; Gibson, Everett K., Jr.

In: CASI

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Publication Date: 2013-08-31

Description: The specific objectives of the organic chemical exploration of the Moon involve the search for molecules of possible biological or prebiological origin. Detailed knowledge of the amount, distribution, and exact structure of organic compounds present on the Moon is extremely important to our understanding of the origin and history of the Moon and to its relationship to the history of the Earth and solar system. Specifically, such knowledge is essential for determining whether life on the Moon exists, ever did exist, or could develop. In the absence of life or organic matter, it is still essential to determine the abundance, distribution, and origin of the biogenic elements (e.g., H, C, O, N, S, P) in order to understand how the planetary environment may have influenced the course of chemical evolution. The history and scope of this effort is presented.

Keywords: LIFE SCIENCES (GENERAL)

Type: NASA. Ames Research Center, Exobiology in Solar System Exploration; p 29-44

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Soil developments in polar deserts: Implications for exobiology and future Mars missions (1989)

Gibson, Everett K., Jr.

In: CASI

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Publication Date: 2013-08-31

Description: Chemical alterations, weathering, and diagenesis of soil profiles from the dry valleys of Antarctica were studied as analogs of regolith development for the Martian regolith. Chemical weathering processes play an important part in soil development within the dry valleys of Antarctica. A suite of core samples were studied which were taken within the valley floors in addition to samples taken in the vicinity of evaporite and brine ponds. Analysis of water soluable cations and anions from core samples were performed along with petrographic analysis of selected samples. It was shown that ionic transport processes operate primarily above the permafrost zone. Abundances of the water soluable ions reflect the nature of secondary minerals produced by evaporation and weathering. Chloride, calcium, and sodium abundances for soils from the cores within the North and South Forks of Wright Valley, reflect the secondary mineralogy of the soil columns. Calculations for Na, Ca, and Cl abundances reflect the appearance of halite and antarcticite. In areas where excess Ca is present, X-ray diffraction studies show the presence of gypsum. It is well known that the Martian surface conditions may be favorable for chemical weathering. Primary silicates would be expected to be reactive with any ground water. It seems likely that Martian subsurface water is available to assist in the weathering of the primary minerals. Such weathering could result in the formation of clays, sulfates, carbonates, hydrates, halides, and zeolites. The dry valley cores have shown that they maybe excellent analogs to weathering processes on the near-surface of Mars. Since movement of water within the near-surface region clearly results in chemical weathering, leaching, and salt formation in the dry valleys, similar processes are probably operating within the Martian regolith.

Keywords: LIFE SCIENCES (GENERAL)

Type: NASA, Ames Research Center, Exobiology and Future Mars Missions; p 25

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Availability of hydrogen for lunar base activities (1992)

Gibson, Everett K., Jr. ; Bustin, Roberta

In: CASI

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Publication Date: 2013-08-31

Description: Hydrogen will be needed on a lunar base to make water for consumables, to provide fuel, and to serve as a reducing agent in the extraction of oxygen from lunar minerals. This study was undertaken in order to learn more about the abundance and distribution of solar-wind-implanted hydrogen. Hydrogen was found in all samples studied, with concentrations, varying widely depending on soil maturity, grain size, and mineral composition. Seven cores returned from the Moon were studied. Although hydrogen was implanted in the upper surface layer of the regolith, it was found throughout the cores due to micrometeorite reworking of the soil.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: The Second Conference on Lunar Bases and Space Activities of the 21st Century, Volume 2; p 437-445

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Microbial Life in the Deep Subsurface: Deep, Hot and Radioactive (2000)

McNamara, Karen M. ; Miller, Judith ; Gibson, Everett K., Jr. ; [et al.]

In: Other Sources

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Publication Date: 2017-10-02

Description: Recent studies, motivated in part by the search for extraterrestrial life, continue to expand the recognized limits of Earth's biosphere. This work explored evidence for life a high-temperature, radioactive environment in the deep subsurface.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXI; LPI-Contrib-1000

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Search for Past Life on Mars: Possible Relict Biogenic Activity in Martian Meteorite ALH84001 (1996)

Zare, Richard N. ; Vali, Hojatollah ; Chillier, Xavier D. F. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Fresh fracture surfaces of the martian meteorite ALH84001 contain abundant polycyclic aromatic hydrocarbons (PAHs). These fresh fracture surfaces also display carbonate globules. Contamination studies suggest the PAHs are indigenous to the meteorite. High resolution scanning and transmission electron microscopy study of surface textures and internal structures of selected carbonate globules show that the globules contain fine-grained, secondary phases of single-domain magnetite and Fe-monosulfides. The carbonate globules are similar in texture and size to some terrestrial bacterially induced carbonate precipitates. Although inorganic formation is possible, formation of the globules by biogenic processes could explain many of the observed features including the PAHs. The PAHs, the carbonate globules, and their associated secondary mineral phases and textures could thus be fossil remains of a past martian biota.

Keywords: Space Biology

Type: NASA-TM-111753 , NAS 1.15:111753 , Science

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Focused Ion Beam Microscopy of ALH84001 Carbonate Disks (2005)

Thomas-Keprta, Kathie L. ; McKay, David S. ; Bazylinski, Dennis A. ; [et al.]

In: CASI

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Publication Date: 2017-10-02

Description: Our aim is to understand the mechanism(s) of formation of carbonate assemblages in ALH84001. A prerequisite is that a detailed characterization of the chemical and physical properties of the carbonate be established. We present here analyses by transmission electron microscopy (TEM) of carbonate thin sections produced by both focused ion beam (FIB) sectioning and ultramicrotomy. Our results suggest that the formation of ALH84001 carbonate assemblages were produced by considerably more complex process(es) than simple aqueous precipitation followed by partial thermal decomposition as proposed by other investigators [e.g., 1-3].

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXVI, Part 19; LPI-Contrib-1234-Pt-19

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Contribution of Organic Material to the Stable Isotope Composition of Some Terrestrial Carbonates as Analogs for Martian Processes (2005)

Bissada, K. K. ; Socki, Richard A. ; Gibson, Everett K., Jr.

In: CASI

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Publication Date: 2017-10-02

Description: Understanding the isotopic geochemistry of terrestrial carbonate formation is essential to understanding the evolution of the Martian atmosphere, hydrosphere, and potential biosphere. Carbonate minerals, in particular, are important secondary minerals for interpreting past aqueous environments, as illustrated by the carbonates present in ALH84001 [1]. Models for the history of Mars suggest that the planet was warmer, wetter, and possessed a greater atmospheric pressure within the first billion years as compared to present conditions [2],[3],[4], and likely had an active hydrologic cycle. Morse and Marion [5] point out that associated with this hydrologic cycle would be the active chemical weathering of silicate minerals and thus consumption of atmospheric CO2 and deposition of carbonate and silica. It is during this warmer and wetter period of Martian history that surface and/or near-surface conditions would be most favorable for harboring possible microbiological life. Carbonates within ALH84001 offer evidence that fluids were present at 3.9 Gy on Mars [6]. A more through understanding of the effects of aqueous weathering and the potential contribution of organic compounds on the isotopic composition of Martian carbonate minerals can be gained by studying some terrestrial occurrences of carbonate rocks.

Keywords: Lunar and Planetary Science and Exploration

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

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Stable Isotope Composition of Carbonates Formed in Low-Temperature Terrestrial Environments as Martian Analogs (2004)

Ming, Douglas W. ; Perry, Eugene C., Jr. ; Socki, Richard A. ; [et al.]

In: CASI

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Publication Date: 2018-06-11

Description: We examine the carbon and oxygen isotope composition of carbonate minerals that formed in two low-temperature terrestrial environments. Field locations were chosen to represent environments where microcrystalline carbonates (caliches) form. Samples include caliche crusts collected from the tsekel zone of N. Yucatan, Mexico, as well as carbonate mud from the edge of a near-by salt pan, representing both ancient and modern-precipitated carbonates. Additional field samples of surface-coating caliche were collected from two volcanic fields in Arizona. Preliminary results indicate that there is an overall depletion of 18O and 13C as a function of the extent of meteoric diagenesis. These data are used as terrestrial analogs to gauge whether carbonates that have been found within Martian meteorites could possibly have formed under these or similar conditions on Mars.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXV: Weird Martian Minerals: Complex Mars Surface Processes; LPI-Contrib-1197

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Biogenic Magnetite in Martian Meteorite ALH84001 (1999)

Clemett, SImon J. ; Golden, D. C. ; Wentworth, Susan J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-17

Description: Fine-grained magnetite (Fe3O4) in martian meteorite ALH84001, generally less than 200 nm in size, is located primarily in the rims that surround the carbonate globules. There are two populations of ALH84001 magnetites, which are likely formed at low temperature by inorganic and biogenic processes. Nearly 27% of ALH84001 magnetite particles, also called elongated prisms, have characteristics which make them uniquely identifiable as biological precipitates. Additional information is contained in the original extended abstract.

Keywords: Astrophysics

Type: The Fifth International Conference on Mars; LPI-Contrib-972

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