Comparative crystal chemistry of spinels from some suites of ultramafic rocks

Princivallel, F.; Giusta, A. Della; Carbonin, S.

doi:10.1007/bf01164322

Cited by 47 publications

(47 citation statements)

References 16 publications

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“…The present study indicates that at P-T conditions ≤~3-4 GPa and 1500 • C, covering the P-T range of the top upper mantle of the Earth [98], the even smaller Si cations incorporated by the MgAl 2 O 4 -Sp structure appear on the T-site, rather than on the anticipated M-site (y = 1; Figure 8). This result is compatible with existing single-crystal XRD studies on terrestrial Sp, which locate Si on the T-site [73,[75][76][77]99]. The current study further shows that presenting as SiO 4 groups in the Sp, a small amount of SiO 2 like~1 wt % exhibits very intense Raman peaks at~823 and 856 cm −1 , and can completely alter the stereotypical overall appearance of the Raman spectra established with some SiO 2 -poor natural 2-3 Sp.…”

Section: Discussionsupporting

confidence: 78%

“…By the same token, Si in the MgAl2O4-Sp should occupy the M-site. However, existing single-crystal XRD studies on natural 2-3 Sp locate Si on the T-site [73,[75][76][77]. The coupled substitution of Si and Mg for 2Al as observed in our high-P synthetic MgAl2O4-Sp and the site-occupation knowledge to be revealed by our Raman spectroscopic data should shed light on the Si distribution.…”

Section: Synthetic Mgal2o4-sp and Its Sio2mentioning

confidence: 99%

“…Other than the weakest T2g(3) peak, all of the other four peaks were routinely observed on natural MgAl2O4-Sp with very low and insignificant amounts of impurities like SiO2, TiO2, Cr2O3, FeO and/or ZnO [49,57,78,86,87]. [73,[75][76][77]. The coupled substitution of Si and Mg for 2Al as observed in our high-P synthetic MgAl 2 O 4 -Sp and the site-occupation knowledge to be revealed by our Raman spectroscopic data should shed light on the Si distribution.…”

Section: Raman Features Of Nearly Normal Mgal2o4-spmentioning

confidence: 99%

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Si-Disordering in MgAl2O4-Spinel under High P-T Conditions, with Implications for Si-Mg Disorder in Mg2SiO4-Ringwoodite

Liu

Bao

et al. 2018

Minerals

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A series of Si-bearing MgAl 2 O 4 -spinels were synthesized at 1500-1650 • C and 3-6 GPa. These spinels had SiO 2 contents of up to~1.03 wt % and showed a substitution mechanism of Si 4+ + Mg 2+ = 2Al 3+ . Unpolarized Raman spectra were collected from polished single grains, and displayed a set of well-defined Raman peaks at~610, 823, 856 and 968 cm −1 that had not been observed before. Aided by the Raman features of natural Si-free MgAl 2 O 4 -spinel, synthetic Si-free MgAl 2 O 4 -spinel, natural low quartz, synthetic coesite, synthetic stishovite and synthetic forsterite, we infer that these Raman peaks should belong to the SiO 4 groups. The relations between the Raman intensities and SiO 2 contents of the Si-bearing MgAl 2 O 4 -spinels suggest that under some P-T conditions, some Si must adopt the M-site. Unlike the SiO 4 groups with very intense Raman signals, the SiO 6 groups are largely Raman-inactive. We further found that the Si cations primarily appear on the T-site at P-T conditions ≤~3-4 GPa and 1500 • C, but attain a random distribution between the T-site and M-site at P-T conditions ≥~5-6 GPa and 1630-1650 • C. This Si-disordering process observed for the Si-bearing MgAl 2 O 4 -spinels suggests that similar Si-disordering might happen to the (Mg,Fe) 2 SiO 4 -spinels (ringwoodite), the major phase in the lower part of the mantle transition zone of the Earth and the benchmark mineral for the very strong shock stage experienced by extraterrestrial materials. The likely consequences have been explored.

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Section: Discussionsupporting

confidence: 78%

Section: Synthetic Mgal2o4-sp and Its Sio2mentioning

confidence: 99%

Section: Raman Features Of Nearly Normal Mgal2o4-spmentioning

confidence: 99%

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Si-Disordering in MgAl2O4-Spinel under High P-T Conditions, with Implications for Si-Mg Disorder in Mg2SiO4-Ringwoodite

Liu

Bao

et al. 2018

Minerals

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“…The oxygen atom is surrounded by three M and one T cations, forming a triangular pyramid with 3m symmetry. Thus the structure is defined by only two cation-to-oxygen distances, T-O and M-O, which are related to the a cell parameter and to u by the following equations: In previous papers (Basso et al, 1984;Della Giusta et al, 1986Princivalle et al, 1989), we investigated several natural samples from various geological environments. One result was that a depends mainly on bulk chemistry, while u, being determined by cation distribution, is strongly affected by physical environment.…”

Section: Introductionmentioning

confidence: 99%

Temperature-dependent disorder in a natural Mg-Al-Fe²⁺-Fe³⁺-Spinel

1996

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A natural Mg-A1-Fe spinel from the Balmuccia peridotite (Italian Western Alps) was annealed at T between 650 and 1150~ under controlled oxygen activity, and quenched in H20. Twenty-three cation distributions were calculated from XRD structural refinements in tandem with microprobe analysis, and verified by Mrssbauer spectroscopy in the case of unheated samples.Unheated crystals showed essentially ordered distribution of Fe 3+ in octahedral and Fe 2+ in tetrahedral sites, the only intracrystalline disorder being represented by ~0.12 atoms per formula unit of [41AI and 161Mg. Thermal runs and quenching maintained substantially ordered distribution of Fe 2 § and Fe 3+ up to ~ 990~ and produced continuous [41Mg-[6IAI exchange. Between 990 and 1150~ the previous order of Fe2 § 3+ appeared to change slightly, t61Fe 2+ reaching ~0.04 afu and [6]Mg ---I41AI ~ 0.24 afu at the highest T. After quenching from this temperature, Fe 2+ still resided mainly in the T site. Some previously heated crystals underwent reordering on lowering of the temperature.Experimental data, integrated with existing literature, enabled cation-oxygen distance in this structure to be improved. Results from annealed samples allowed the formulation of an experimental thermometric function based on Mg-AI intracrystalline disorder.

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“…In particular, the crystal chemistry of Cr-spinels from different lithologies, including mantle xenoliths [8][9][10][11][12][13], ophiolites [14][15][16][17][18], Alpine peridotites [19,20], komatiites [21], layered complexes [22][23][24], inclusions in diamonds and kimberlites [25] as well as in meteorites [26,27], have previously been studied to better understand genesis and/or oxidation mechanisms.…”

Section: Introductionmentioning

confidence: 99%

Following the Amphibolite to Greenschist Metamorphic Path through the Structural Parameters of Spinels from Amsaga (Mauritania)

et al. 2018

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Abstract:We investigated the crystal and structural behavior of several Cr-bearing spinels from the Archean chromitites of Amsaga (Mauritania). The chemical and structural data testified a retrograde metamorphism from amphibolite to greenschist facies, witnessed by relative changes in the amount of all the major oxides (Cr, Al, Mg, Fe 2+ , Fe 3+ ), the relative proportion of Fe 3+ /Fe tot as well as the structural parameters, including the cell edge and the oxygen coordinate. The general agreement between electron microprobe and Mössbauer data indicates that the analyzed spinels are stoichiometric. The structural data revealed that the oxygen positional parameter of amphibole-bearing samples is the highest observed among Cr-bearing spinels with similar Cr# and Mg#. Consequently, it is suggested that a structural study of detrital Cr-spinels could be important in discriminating an amphibole-chromitite source from an ophiolite source.

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Comparative crystal chemistry of spinels from some suites of ultramafic rocks

Cited by 47 publications

References 16 publications

Si-Disordering in MgAl2O4-Spinel under High P-T Conditions, with Implications for Si-Mg Disorder in Mg2SiO4-Ringwoodite

Si-Disordering in MgAl2O4-Spinel under High P-T Conditions, with Implications for Si-Mg Disorder in Mg2SiO4-Ringwoodite

Temperature-dependent disorder in a natural Mg-Al-Fe²⁺-Fe³⁺-Spinel

Following the Amphibolite to Greenschist Metamorphic Path through the Structural Parameters of Spinels from Amsaga (Mauritania)

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Comparative crystal chemistry of spinels from some suites of ultramafic rocks

Cited by 47 publications

References 16 publications

Si-Disordering in MgAl2O4-Spinel under High P-T Conditions, with Implications for Si-Mg Disorder in Mg2SiO4-Ringwoodite

Si-Disordering in MgAl2O4-Spinel under High P-T Conditions, with Implications for Si-Mg Disorder in Mg2SiO4-Ringwoodite

Temperature-dependent disorder in a natural Mg-Al-Fe2+-Fe3+-Spinel

Following the Amphibolite to Greenschist Metamorphic Path through the Structural Parameters of Spinels from Amsaga (Mauritania)

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Temperature-dependent disorder in a natural Mg-Al-Fe²⁺-Fe³⁺-Spinel