The Fe-Rich Clay Microsystems in Basalt-Komatiite Lavas: Importance of Fe-Smectites for Pre-Biotic Molecule Catalysis During the Hadean Eon

Meunier, Alain; Petit, Sabine; Cockell, Charles S.; Albani, Abderrazzak El; Beaufort, Daniel

doi:10.1007/s11084-010-9205-2

Cited by 48 publications

(28 citation statements)

References 92 publications

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“…In summary, nontronites may be regarded as strong candidates for the concentration of nucleotides in the origin of life context because on the one hand, they are abundant hydrothermal alteration products developing very high specific surface area (Meunier et al, 2010); and on the other hand, they exhibit the most diverse and favorable behaviors for adsorption of nucleotides among all the minerals we tested. Nontronites can concentrate nucleotides up to 1 M under neutral to low pH and are becoming even more efficient in adsorbing those molecules at very high equilibrium concentration.…”

Section: Concentration Of Nucleotides By Mineral Surfaces In the Contmentioning

confidence: 96%

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Adsorption of nucleotides onto ferromagnesian phyllosilicates: Significance for the origin of life

Pedreira-Segade

Feuillie

Pelletier

et al. 2016

Geochimica et Cosmochimica Acta

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Section: Concentration Of Nucleotides By Mineral Surfaces In the Contmentioning

confidence: 96%

“…chlorite. Geochemically relevant minerals would then include Fe-Mg-rich swelling and non-swelling clays and serpentines, as proposed by Meunier et al (2010). Therefore, the present study focuses on the abovementioned Fe-Mg phyllosilicates and assesses their potential as nucleotide adsorbents.…”

Section: Introductionmentioning

confidence: 98%

Adsorption of nucleotides onto ferromagnesian phyllosilicates: Significance for the origin of life

Pedreira-Segade

Feuillie

Pelletier

et al. 2016

Geochimica et Cosmochimica Acta

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“…The potential role of clay minerals in these processes was first recognized by Bernal (1949), who suggested that their surfaces are the likely location where organic molecules that occurred in warm tidal ponds or in the ocean (primordial ''soup'') could concentrate and polymerize more complex organic compounds such as amino acids. These ideas were further developed by Cairns-Smith (1965), Cairns-Smith and Hartman (1986), Balogh and Laszlo (1993), Ertem and Ferris (1996), Hanczyc et al (2003), and Meunier et al (2010). Hartman et al (1993) proposed, moreover, that the complex interaction between polar organic compounds and claymineral formation in carbonaceous chondrites, a class of meteorite, would be indicative of what may have occurred on early Earth.…”

Section: Introductionmentioning

confidence: 99%

Formation of Replicating Saponite from a Gel in the Presence of Oxalate: Implications for the Formation of Clay Minerals in Carbonaceous Chondrites and the Origin of Life

et al. 2012

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The potential role of clay minerals in the abiotic origin of life has been the subject of ongoing debate for the past several decades. At issue are the clay minerals found in a class of meteorites known as carbonaceous chondrites. These clay minerals are the product of aqueous alteration of anhydrous mineral phases, such as olivine and orthopyroxene, that are often present in the chondrules. Moreover, there is a strong correlation in the occurrence of clay minerals and the presence of polar organic molecules. It has been shown in laboratory experiments at low temperature and ambient pressure that polar organic molecules, such as the oxalate found in meteorites, can catalyze the crystallization of clay minerals. In this study, we show that oxalate is a robust catalyst in the crystallization of saponite, an Al- and Mg-rich, trioctahedral 2:1 layer silicate, from a silicate gel at 60°C and ambient pressure. High-resolution transmission electron microscopy analysis of the saponite treated with octadecylammonium (n(C)=18) cations revealed the presence of 2:1 layer structures that have variable interlayer charge. The crystallization of these differently charged 2:1 layer silicates most likely occurred independently. The fact that 2:1 layer silicates with variable charge formed in the same gel has implications for our understanding of the origin of life, as these 2:1 clay minerals most likely replicate by a mechanism of template-catalyzed polymerization and transmit the charge distribution from layer to layer. If polar organic molecules like oxalate can catalyze the formation of clay-mineral crystals, which in turn promote clay microenvironments and provide abundant adsorption sites for other organic molecules present in solution, the interaction among these adsorbed molecules could lead to the polymerization of more complex organic molecules like RNA from nucleotides on early Earth.

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“…The different alteration stages resulted in the formation of phyllosilicates, such as Fe-Mg smectites (saponite, nontronite) in the first period, and Al-rich smectites under the later, more acidic conditions. Although phyllosilicates can be formed by deuteric processes, in particular during fractionation within the magmatic chamber (Meunier al., 2010;, aqueous alteration of rocks is the most commonly proposed formation process to explain the presence of phyllosilicate occurrences on Mars (e.g. Poulet et al, 2005;Bibring et al, 2006;Ehlmann et al, 2009;Viles et al, 2010).…”

Section: Sedimentary Rocks and Mineralsmentioning

confidence: 99%

“…This laboratory-synthesised nontronite was chosen as an analogue of phyllosilicates formed by basalt alteration in neutral conditions on Mars (Bibring et al, 2006;Meunier et al, 2010).…”

Section: Ar01 Artificial Fe-nontronitementioning

confidence: 99%

Missions to Mars: Characterisation of Mars analogue rocks for the International Space Analogue Rockstore (ISAR)

Bost

Westall

Ramboz

et al. 2013

Planetary and Space Science

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Instruments for surface missions to extraterrestrial bodies should be cross-calibrated using a common suite of relevant materials. Such work is necessary to improve instrument performance and aids in the interpretation of in-situ measurements. At the CNRS campus in Orléans, the Observatoire des Sciences de l'Univers en région Centre (OSUC) has created a collection of well-characterised rocks and minerals for testing and calibrating instruments to be flown in space missions. The characteristics of the analogue materials are documented in an accompanying online database. In view of the recent and upcoming rover missions to Mars (NASA's 2011 Mars Science Laboratory (MSL) and ESA/Roscosmos' 2018 ExoMars), we are concentrating initially on materials of direct relevance to the red planet. The initial collection consists of 15 well-studied rock and mineral samples, including a variety of basalts (ultramafic, weathered, silicified, primitive), sediments (volcanic sands, chert, and a banded iron formation -BIF-), and the phyllosilicate nontronite (a clay). All the samples were characterised petrographically, petrologically, and geochemically using the types of analyses likely to be performed during in-situ missions, in particular ExoMars: hand specimen description; optical microscopy; mineralogical analysis by XRD, Raman and IR spectrometry; iron phase analysis by Mössbauer spectroscopy (MBS), elemental analysis by Energy-Dispersive X-ray spectroscopy (EDX), microprobe, Inductively Coupled Plasma Atomic Emission Spectrometry (ICP-AES) and Mass Spectrometry (ICP-MS); and reduced carbon analysis by Raman spectrometry.

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The Fe-Rich Clay Microsystems in Basalt-Komatiite Lavas: Importance of Fe-Smectites for Pre-Biotic Molecule Catalysis During the Hadean Eon

Cited by 48 publications

References 92 publications

Adsorption of nucleotides onto ferromagnesian phyllosilicates: Significance for the origin of life

Adsorption of nucleotides onto ferromagnesian phyllosilicates: Significance for the origin of life

Formation of Replicating Saponite from a Gel in the Presence of Oxalate: Implications for the Formation of Clay Minerals in Carbonaceous Chondrites and the Origin of Life

Missions to Mars: Characterisation of Mars analogue rocks for the International Space Analogue Rockstore (ISAR)

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