Formation of feldspathic and metallic melts by shock in enstatite chondrite Reckling Peak A80259

Fagan, T. J.; Scott, E. R. D.; Keil, K.; Cooney, Thomas F.; Sharma, Shiv K.

doi:10.1111/j.1945-5100.2000.tb01777.x

Cited by 42 publications

(25 citation statements)

References 29 publications

(30 reference statements)

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“…The initial (nanosecond-scale) peak pressure in the shock front and the resulting shock temperature can have grain-to-grain variations of an order of magnitude (Sharp and DeCarli, 2006). Because many EH and EL chondrites have been altered by impacts (e.g., Kimura and Lin, 1999;Burbine et al, 2000;Fagan et al, 2000;Patzer et al, 2004;Keil, 2007) and because impact processes can produce changes in bulk composition (e.g., ) and mineralogy (e.g., ) on a scale of $10 mm (e.g., , the standard taxonomic parameters may yield different results for different samples. Caution must therefore be taken in weighting these parameters.…”

Section: Impact-melting In the Eh6 Chondritesmentioning

confidence: 97%

“…Many EH chondrites have been described as impactmelt breccias or impact-melt rocks (e.g., Rubin, 1997a;Lin and Kimura, 1998;Kimura and Lin, 1999;Burbine et al, 2000;Fagan et al, 2000;Keil, 2007). The heat generated by the associated impacts could potentially cause thermal metamorphism in these materials, a process involving recrystallization, mineral equilibration, and partial loss of highly volatile elements.…”

Section: Introductionmentioning

confidence: 97%

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Shock effects in “EH6” enstatite chondrites and implications for collisional heating of the EH and EL parent asteroids

Rubin

Wasson

2011

Geochimica et Cosmochimica Acta

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Section: Impact-melting In the Eh6 Chondritesmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 97%

Shock effects in “EH6” enstatite chondrites and implications for collisional heating of the EH and EL parent asteroids

Rubin

Wasson

2011

Geochimica et Cosmochimica Acta

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“…of production of the schreibersite microspherules together with their host sulfides. Shock-induced melt inclusions of metallic Fe-Ni and troilite were reported in RPKA80259 (Fagan et al, 2000), but they are usually enclosed in silicates and not in sulfides. Many immiscible sulfide melt inclusions have been found in oldhamite from the Pefia Blanca Springsaubrite.…”

Section: Nebular Processesmentioning

confidence: 99%

A comparative study of opaque phases in Qingzhen (EH3) and MacAlpine Hills 88136 (EL3): Representatives of EH and EL parent bodies

Lin

Goresy

2002

Meteorit & Planetary Scien

142

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Abstract-Opaque minerals in the Qingzhen (EH3) and MacAlpine Hills (MAC) 88136 (EU) enstatite chondrites were studied and compared with other EH and EL chondrites. All opaque minerals usually occur in multi-sulfide-metal clasts and nodules in the matrix between chondrules . The higher abundance of opaque minerals, the occurrence ofniningerite and various alkalisulfides (e.g., caswellsilverite, phases A and B, djerfisherite) are diagnostic criteria for EH chondrites, while alabandite is characteristic for EL chondrites. In addition, EH chondrites are characterized by enrichments of Si in both kamacite and perryite, and alkali elements in sphalerite and chalcopyrite. The Mn contents of daubreelite and sphalerite are lower in EH than in EL chondrites. These are consistent with lower oxygen fugacity and higher H2S fugacity ofEH than EL chondrites. In contrast, the discovery of sphalerite and Zn-rich daubreelite in MAC 88136 indicates that their absence in EL6 chondrites is probably related to thermal metamorphism in the parent body.Schreibersite micro spherules are commonly enclosed in most sulfides in Qingzhen, but are absent in MAC 88136. They were once molten, and probably predated all sulfide host phases. The petrographic setting and chemical compositions ofthe sulfide hosts ofthe schreibersite micro spherules in EH3 chondrites are consistent with formation by condensation. The earliest sulfide condensates oldhamite and niningerite occupy the interiors of the clasts and nodules, whereas the rims consist of troilite and djerfisherite. In addition, in Qingzhen, some other troilite, djerfisherite and sphalerite assemblages coexist with perryite. They were produced by sulfurization of metallic Fe-Ni in the nebula. In MAC 88136, sulfurization ofSi-bearing Fe-Ni metal is less pronounced, and it produced troilite, schreibersite and less abundant perryite. Two kinds of normal zoning and a reverse zoning trends of niningerite, and both normal and reverse zoning of sphalerite were found in clasts and nodules in Qingzhen. The coexistence ofnormal and reverse zoning profiles in niningerite grains in the same meteorite strongly suggests that they formed before accretion in the parent body, because an asteroidal metamorphic or an impact event in the parent body would have erased these contrasting profiles and destroyed the textural settings. In contrast, alabandite in MAC 88136 shows only normal zoning, with the FeS content decreasing to 9.3 mol% toward troilite, indicating very slow cooling at low temperature.

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“…The major and minor elemental (Na, K, Mg, Al, Cr, Si, P, K, Ca, Ti, Mn, and Fe) compositions of the melt inclusions and their hosts were measured on a Cameca SX-50 electron microprobe at Virginia Tech (Table 1). Previous work by Fagan et al (2000) on glass analyses showed that using an accelerating voltage of 15 kV, a current of 2 nA and a defocused beam (5 to 10 µm) minimizes loss of Na, and so these instrumental conditions were employed in this study. In addition, Na was always analyzed first to minimize its loss during exposure to the beam.…”

Section: Sample Preparation Experimental and Analytical Methodsmentioning

confidence: 99%

Melt inclusions in augite of the Nakhla martian meteorite: Evidence for basaltic parental melt

Stockstill

McSween

Bodnar

2005

Meteorit & Planetary Scien

109

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Melt inclusions in augite of the Nakhla martian meteorite:Evidence for basaltic parental melt Abstract-Nakhla contains crystallized melt inclusions that were trapped in augite and olivine when these phases originally formed on Mars. Our study involved rehomogenization (slow-heating and fast-heating) experiments on multiphase melt inclusions in Nakhla augite. We studied melt inclusions trapped in augite because this phase re-equilibrated with the external melt to a lesser extent than olivine and results could be directly compared with previous Nakhla melt inclusion studies. Following heating and homogenization of encapsulated melt inclusions, single mineral grains were mounted and polished to expose inclusions. Major element chemistry was determined by electron microprobe. The most primitive melt inclusion analyzed in Nakhla NA03 is basaltic and closely matches previously reported nakhlite parent melt compositions. MELTS equilibrium and fractional crystallization models calculated for NA03 and previous Nakhla parent melt estimates at QFM and QFM-1 produced phase assemblages and compositions that can be compared to Nakhla. Of these models, equilibrium crystallization of NA03 at QFM-1 produced the best match to mineral phases and compositions in Nakhla. In all models, olivine and augite co-crystallize, consistent with the hypothesis that olivine is not xenocrystic but has undergone subsolidus re-equilibration. In addition, measured melt inclusion compositions plot along the MELTS-calculated liquid line of descent and may represent pockets of melt trapped at various stages during crystallization. We attempt to resolve discrepancies between previous estimates of the Nakhla parental melt composition and to reinterpret the results of a previous study of rehomogenized melt inclusions in Nakhla. Melt inclusions demonstrate that Nakhla is an igneous rock whose parent melt composition and crystallization history reflect planetary igneous processes.

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Formation of feldspathic and metallic melts by shock in enstatite chondrite Reckling Peak A80259

Cited by 42 publications

References 29 publications

Shock effects in “EH6” enstatite chondrites and implications for collisional heating of the EH and EL parent asteroids

Shock effects in “EH6” enstatite chondrites and implications for collisional heating of the EH and EL parent asteroids

A comparative study of opaque phases in Qingzhen (EH3) and MacAlpine Hills 88136 (EL3): Representatives of EH and EL parent bodies

Melt inclusions in augite of the Nakhla martian meteorite: Evidence for basaltic parental melt

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