57 Fe Mössbauer spectroscopy studies of chondritic meteorites from the Atacama Desert, Chile: Implications for weathering processes

Munayco, P.; Munayco, J.; Valenzuela, M.; Rochette, P.; Gattacceca, J.; Scorzelli, R. B.

doi:10.1007/s10751-012-0755-8

Cited by 8 publications

(6 citation statements)

References 4 publications

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“…Drilled powder of samples MET-1 and MET-2 containing weathering material was analyzed using M€ ossbauer spectroscopy. This technique is extensively used to study the alteration of meteorites as it allows determining the degree of ferric oxidation of primary ironbearing phases resulting for terrestrial weathering (Bland et al, 1998(Bland et al, , 2006Munayco et al, 2013Munayco et al, , 2014. The aim of these analyses was to determine whether the relative amounts of Fe 0 , Fe 2+ , and Fe 3+ in MET-2 were different from the control sample, MET-1.…”

Section: M€ Ossbauer Spectroscopymentioning

confidence: 99%

Artificial weathering of an ordinary chondrite: Recommendations for the curation of Antarctic meteorites

Ginneken

Debaille

Decrée

et al. 2022

Meteorit & Planetary Scien

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Meteorites are prone to errestrial weathering not only after their fall on the Earth's surface but also during storage in museum collections. To study the susceptibility of this material to weathering, weathering experiments were carried out on polished sections of the H5 chondrite Asuka 10177. The experiments consisted of four 100-days cycles during which temperature and humidity varied on a twelve hours basis. The first alteration cycle consisted of changing the temperature from 15 to 25 °C; the second cycle consisted of modifying both humidity and temperature from 35 to 45% and 15 to 25 °C, respectively; the third cycle consisted of varying the humidity level from 40 to 60%; and the fourth cycle maintained a fixed high humidity of 80%. Weathering products resulting from the experiments were identified and characterized using scanning electron microscopy-energy dispersive spectroscopy and Raman spectroscopy. Such products were not observed at the microscopic scale after the first cycle of alteration. Conversely, products typical of the corrosion of meteoritic FeNi metal were observed during scanning electron microscope surveys after all subsequent cycles. Important increases in the distribution of weathering products on the samples were observed after cycles 2 and 4 but not after cycle 3, suggesting that the combination of temperature and humidity fluctuations or high humidity (>60%) alone is most detrimental to chondritic samples. Chemistry of the weathering products revealed a high degree of FeNi metal corrosion with a limited contribution of troilite corrosion. No clear evidence of mafic silicate alteration was observed after all cycles, suggesting that postretrieval alteration remains limited to FeNi metal and to a lesser extent to troilite.

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Section: M€ Ossbauer Spectroscopymentioning

confidence: 99%

Artificial weathering of an ordinary chondrite: Recommendations for the curation of Antarctic meteorites

Ginneken

Debaille

Decrée

et al. 2022

Meteorit & Planetary Scien

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“…(ii) δ = 0.62 mm/s, H eff = 285 kOe, A = 16% (goethite), δ = 0.33 mm/s, H eff = 498 kOe, A = 8% (maghemite) and δ = 0.27 mm/s, H eff = 478 kOe, A = 9% (maghemite) for Gunnadorah 002 L5; and (iii) δ = 0.311 mm/s, H eff =~501 kOe, A =~7% (hematite), δ = 0.239 mm/s, H eff =~491 kOe, A =~13% (magnetite, (A) sites), δ = 0.671 mm/s, H eff = 460 kOe, A =~4% (magnetite, [B] sites), δ = 0.174 mm/s, H eff =~477 kOe, A =~3% (unknown Fe 3+ compound 1) and δ = 0.288 mm/s, H eff =~421 kOe, A =~4% (unknown Fe 3+ compound 2) for Gandom Beryan 008 H5. However, to determine ferric compounds exactly, the low temperature measurements are required because paramagnetic compounds undergone magnetic phase transitions as well as distinguishing of the different ferric compounds in the magnetic states is better due to different behavior (see, e.g., [64,118,[126][127][128][129]). [118,123,124].…”

Section: Ordinary Chondrites Terrestrial Weathering and Agementioning

confidence: 99%

“…In this case, for instant, the weathering of different meteorites recovered at the same desert may be considered as occurred within the same conditions. For example, the Mössbauer spectra of two ordinary chondrites San Juan 013 L3 and San Juan 025 H5 with different weathering grade recovered in the San Juan area of the Atacama Desert, Chile, are shown in Figure 48 for comparison (see [127]). These spectra show the presence of (i) one paramagnetic ferric component in San Juan 013 L3 with A = 13% and (ii) one paramagnetic and two magnetic ferric components in San Juan 025 H5 with A =~58%.…”

Section: Ordinary Chondrites Terrestrial Weathering and Agementioning

confidence: 99%

“…Mössbauer received a Nobel Prize in physics for this discovery. Then, the Mössbauer effect was observed on a number of isotopes, so-called Mössbauer isotopes, such as 57 Fe, 119m Sn, 121 Sb, 125 Te, 127 I, 197 Au, 151 Eu, etc. This phenomenon results from the nuclear resonant transitions between the ground and excited states of the Mössbauer nuclei.…”

Section: Introductionmentioning

confidence: 99%

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Applications of Mössbauer Spectroscopy in Meteoritical and Planetary Science, Part I: Undifferentiated Meteorites

Maksimova

Оштрах

2021

Minerals

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Mössbauer (nuclear γ-resonance) spectroscopy is a powerful technique which is actively used in various fields from physics and chemistry to biology and medicine. Rudolf L. Mössbauer, who observed nuclear γ-resonance and published his results in 1958, got a Nobel Prize in physics in 1961 for this discovery. 57Fe is the most widely used nucleus in Mössbauer spectroscopy. Therefore, a large variety of compounds containing iron can be studied by Mössbauer spectroscopy. It is well known that planetary matter contains various iron-bearing phases and minerals. Therefore, the extraterrestrial material from different meteorites, asteroids, and planets can be studied using 57Fe Mössbauer spectroscopy as an additional powerful technique. Two parts of this review consider the results of more than 50 years of experience of Mössbauer spectroscopy applied for the studies of various meteorites, soils, and rocks from the Moon and a recent investigation of the Martian surface using two rovers equipped with miniaturized Mössbauer spectrometers. Part I considered the results of Mössbauer spectroscopy of undifferentiated meteorites. Part II discusses the results of Mössbauer spectroscopy of differentiated meteorites formed in asteroids and protoplanets due to matter differentiation, as well as Lunar and Martian matter.

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“…Other Fe-bearing phases, like kamacite, can be present and masked in the maghemite envelope, but most probably Fe-containing minerals within this meteorite are affected by weathering, which is observed to be very strong. This kind of weathering is common in chondrites found in hot deserts [46,47]. The presence of troilite, together with a fusion crust, is evidence that this may indeed be a meteorite.…”

Section: Stony Meteoritementioning

confidence: 83%

57Fe Mössbauer Analysis of Meteorites and Tektites

et al. 2021

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This review presents studies on iron meteorites (Campo del Cielo fall and an unregistered iron meteorite), an unregistered stony meteorite from Northwest Africa, and 13 tektites from the American, European, and Australasian strewn fields. The main experimental technique used in the studies was Mössbauer spectroscopy, both in transmission and backscattering geometries. For the latter, a MIMOS II spectrometer was used. Additionally, optical and scanning electron microscopies and X-ray diffraction were used. In the studied iron meteorites, kamacite is found as the main mineral. Campo del Cielo meteorite exhibits Widmanstätten patterns and schreibersite inclusions. The unregistered iron meteorite has Neumann lines and schreibersite inclusions. We have assigned Campo del Cielo as an octahedrite and the unregistered iron meteorite as a hexahedrite. The unregistered stony meteorite is composed mainly of iron-free silicates; at 4.2 K, the spectrum indicates maghemite and 1% troilite. The Cambodian tektite appeared individualized from other australasites, unlike the moldavite, which tends to cluster with them. Our analyses do not allow dismissing doubts on the provenance of tibetanites. The Fe3+/Fe2+ ratio was found to be higher for Muong Nong-type tektites than for splash-form tektites, as expected from their morphology and solidification from melt at lower temperature.

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57 Fe Mössbauer spectroscopy studies of chondritic meteorites from the Atacama Desert, Chile: Implications for weathering processes

Cited by 8 publications

References 4 publications

Artificial weathering of an ordinary chondrite: Recommendations for the curation of Antarctic meteorites

Artificial weathering of an ordinary chondrite: Recommendations for the curation of Antarctic meteorites

Applications of Mössbauer Spectroscopy in Meteoritical and Planetary Science, Part I: Undifferentiated Meteorites

57Fe Mössbauer Analysis of Meteorites and Tektites

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