SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4287307788> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W4287307788 abstract "It is well established that the major and minor element contents of chromites are subject to change during greenschist to amphibolite facies metamorphism. During upper amphibolite facies metamorphism, chromite can be completely converted to chrome magnetite. However, not all elements are affected to the same degree, the concentrations of +2 ions (e.g. Zn, Co, Mn) being particularly vulnerable to modification. The degree to which trace elements, particularly the platinum-group elements (PGE), are affected has not been closely examined. The compositions and textures of chromites from komatiites of the Gorumahishani greenstone belt of the Singhbhum Craton (India) have experienced a range of metamorphic conditions from greenschist to amphibolite facies, providing the opportunity to study the changes of trace and platinum-group element composition with metamorphic grade. Five types of altered chromites are identified from the komatiitic suite of rocks in the ~120-km-long greenstone belt. The type-I chromites are non-porous and characterized by the least modified cores. These chromites are mostly present in the northern Maharajgunj-Tua Dungri section where rocks show metamorphism from greenschist to greenschist-amphibolite transition facies. The type-II and type-III chromites are porous and mostly found in the southern Kapili section of the greenstone belt where rocks show metamorphism up to the mid-amphibolite facies. Type-IV and type-V chromites are completely modified to ferritchromit and chrome magnetite, respectively, and are present in the komatiitic rocks from the entire greenstone belt. The central cores of the type-I and type-II grains have relatively higher concentrations of mobile trace elements (e.g. Zn, Co, and Mn) with higher Mg# [Mg/(Mg + Fe2+)], lower Cr# [Cr/(Cr + Al)], and lower Fe3+/R3+ (R3+ = Fe3+ + Cr3+ + Al3+) ratios than their respective rims. Significantly higher concentrations of the immobile trace elements (e.g. Ti and V) in the cores of the type-II grains relative to their chrome magnetite rims from the Kapili section and to the type-I varieties from other sections might be due to the metamorphism of the komatiitic rocks under higher-grade conditions (amphibolite facies). In situ LA-ICPMS analysis for PGE reveals a relatively higher concentration of Ru and Rh in the rims of the type-I chromites than in the cores which is due to the diffusion of these elements from the normal spinel structure of the cores towards the bivalent octahedral sites of the inverse spinel structure of the chrome magnetite rims during metamorphic processes. The lower concentrations of Os, Ir, Ru, and Rh in the cores of the type-II chromites from the Kapili section might be related to the metamorphism of the rocks under higher-grade conditions that facilitated the diffusion of these elements to associated sulphide or platinum-group mineral or alloy phases. The calculated partition coefficients of Sc, Ti, V, Mn, Ni, Ga, Os, Ir, Ru, and Rh from the least altered chromite cores assuming equilibrium with the parental komatiitic melt also suggest the variable effects of metamorphism when compared with global experimental and empirical values of the natural samples." @default.
W4287307788 created "2022-07-25" @default.
W4287307788 creator A5005510368 @default.
W4287307788 creator A5005650192 @default.
W4287307788 creator A5054132428 @default.
W4287307788 creator A5066484590 @default.
W4287307788 date "2022-07-25" @default.
W4287307788 modified "2023-10-10" @default.
W4287307788 title "Fractionation of trace and platinum-group elements during metamorphism of komatiitic chromites from the early Archean Gorumahishani greenstone belt, Singhbhum Craton (eastern India)" @default.
W4287307788 cites W1549487579 @default.
W4287307788 cites W1650216759 @default.
W4287307788 cites W1914417439 @default.
W4287307788 cites W1970187449 @default.
W4287307788 cites W1973919559 @default.
W4287307788 cites W1974703669 @default.
W4287307788 cites W1975670150 @default.
W4287307788 cites W1976096966 @default.
W4287307788 cites W1978592939 @default.
W4287307788 cites W1981061781 @default.
W4287307788 cites W1983846946 @default.
W4287307788 cites W1987768108 @default.
W4287307788 cites W1992356046 @default.
W4287307788 cites W1992907521 @default.
W4287307788 cites W1995085999 @default.
W4287307788 cites W1997659134 @default.
W4287307788 cites W2001657812 @default.
W4287307788 cites W2012411784 @default.
W4287307788 cites W2018393202 @default.
W4287307788 cites W2019738508 @default.
W4287307788 cites W2020466674 @default.
W4287307788 cites W2025299901 @default.
W4287307788 cites W2026704415 @default.
W4287307788 cites W2030005623 @default.
W4287307788 cites W2032996712 @default.
W4287307788 cites W2044839593 @default.
W4287307788 cites W2045837211 @default.
W4287307788 cites W2046934317 @default.
W4287307788 cites W2047269331 @default.
W4287307788 cites W2056670083 @default.
W4287307788 cites W2057929958 @default.
W4287307788 cites W2059651184 @default.
W4287307788 cites W2079396235 @default.
W4287307788 cites W2086341988 @default.
W4287307788 cites W2088335156 @default.
W4287307788 cites W2089505133 @default.
W4287307788 cites W2094528960 @default.
W4287307788 cites W2098991783 @default.
W4287307788 cites W2100411277 @default.
W4287307788 cites W2104613621 @default.
W4287307788 cites W2106057954 @default.
W4287307788 cites W2115090098 @default.
W4287307788 cites W2122467685 @default.
W4287307788 cites W2126480893 @default.
W4287307788 cites W2127931472 @default.
W4287307788 cites W2129863732 @default.
W4287307788 cites W2131644969 @default.
W4287307788 cites W2141890535 @default.
W4287307788 cites W2156675368 @default.
W4287307788 cites W2158324131 @default.
W4287307788 cites W2161866809 @default.
W4287307788 cites W2162859581 @default.
W4287307788 cites W2168801553 @default.
W4287307788 cites W2169923598 @default.
W4287307788 cites W2279867500 @default.
W4287307788 cites W2338710794 @default.
W4287307788 cites W2463021019 @default.
W4287307788 cites W2593196373 @default.
W4287307788 cites W2596849795 @default.
W4287307788 cites W2621014626 @default.
W4287307788 cites W2626216950 @default.
W4287307788 cites W2730707238 @default.
W4287307788 cites W2794070456 @default.
W4287307788 cites W2801097489 @default.
W4287307788 cites W2901276998 @default.
W4287307788 cites W2903442274 @default.
W4287307788 cites W2909447294 @default.
W4287307788 cites W2911278150 @default.
W4287307788 cites W3016047771 @default.
W4287307788 cites W3106908803 @default.
W4287307788 cites W3174771604 @default.
W4287307788 cites W3213717507 @default.
W4287307788 cites W4252931051 @default.
W4287307788 cites W59394388 @default.
W4287307788 cites W835266965 @default.
W4287307788 cites W934454749 @default.
W4287307788 doi "https://doi.org/10.1007/s00410-022-01943-4" @default.
W4287307788 hasPublicationYear "2022" @default.
W4287307788 type Work @default.
W4287307788 citedByCount "2" @default.
W4287307788 countsByYear W42873077882023 @default.
W4287307788 crossrefType "journal-article" @default.
W4287307788 hasAuthorship W4287307788A5005510368 @default.
W4287307788 hasAuthorship W4287307788A5005650192 @default.
W4287307788 hasAuthorship W4287307788A5054132428 @default.
W4287307788 hasAuthorship W4287307788A5066484590 @default.
W4287307788 hasBestOaLocation W42873077882 @default.
W4287307788 hasConcept C109007969 @default.
W4287307788 hasConcept C112764850 @default.
W4287307788 hasConcept C114793014 @default.
W4287307788 hasConcept C127313418 @default.