Your search keyword '"spinel peridotites"' showing total 10 results

1. Mesoproterozoic depleted spinel peridotites metasomatized by high-K hydrous melt in the Patagonian back-arc.

Author

dos Santos, Aline Alves, Jalowitzki, Tiago, Gervasoni, Fernanda, Mazzucchelli, Maurizio, Giovanardi, Tommaso, Schilling, Manuel Enrique, Varas-Reus, Maria Isabel, Orihashi, Yuji, Rodrigues, Rodrigo Freitas, Carlson, Richard Walter, Lorenzoni, Georgina Marianela Rubiano, Hirata, Daiji, and Bertotto, Gustavo Walter

Subjects

*RARE earth metals, *ALUMINUM oxide, *ISLAND arcs, *OCEANIC crust, *HYDRAULIC fracturing, *METASOMATISM, *SIDEROPHILE elements

Abstract

Here we report the first investigation of spinel-bearing mantle xenoliths from Los Gemelos volcano, Canquel Plateau, Patagonia. They are highly-depleted Mesoproterozoic (Re Os model ages of 1.3–0.9 Ga) harzburgites and clinopyroxene-poor lherzolites characterized by typical indicators of partial melt extraction, such as low whole-rock Al 2 O 3 and CaO contents (<1.5 wt%), high Mg# of silicate phases (90–95), and Cr-rich spinel (Cr# 0.20–0.42). Depletion of incompatible highly siderophile elements (Re, Ru, Pd) relative to the primitive upper mantle supports high degrees of melt extraction. The occurrence of phlogopite and K-rich alkaline glass veins with high- and low-SiO 2 compositions is clear evidence of modal metasomatism. The light rare earth element (LREE) enrichment in clinopyroxene, as well as the whole-rock U-shaped REE pattern, confirms cryptic metasomatism. This melt-rock interaction is corroborated by major (i.e., Mg# vs. basaltic elements) and trace (i.e., La/Yb N vs. Sr/Y and Ti/Eu; and Sr vs. Ti/Eu) element contents of pyroxenes. The calculated compositions of melts in equilibrium with clinopyroxene coexisting with phlogopite suggest interaction with slab-derived materials. This metasomatism has been generated by a chromatographic fractionation-reaction process, from deep to shallow mantle domains. The percolation of a high-K hydrous magma probably is associated with the upwelling of asthenospheric material through a slab-window, which caused partial melting of oceanic crust and overlying sediments during the Paleocene. The varying intensities of metasomatic imprints recorded by mantle xenoliths from Los Gemelos provide valuable insights into the interaction of slab-derived materials near the lithosphere-asthenosphere boundary, at a distance of ∼600 km from the Andean volcanic arc. • Depleted SCLM beneath Patagonia formed during Rodinia consolidation (1.3–0.9 Ga). • Phlogopite crystallized through the percolation of a high-K hydrous melt. • This melt is probably derived from the partial melting of the oceanic crust. • High-K alkaline veins were produced shortly before the eruption of the host magma. • These veins filled hydraulic fractures without reacting with the peridotitic paragenesis. [ABSTRACT FROM AUTHOR]

Published

2024

2. Petrological study of spinel peridotites of Nidar ophiolite, Ladakh Himalaya, India.

Author

Nayak, Ranjit and Maibam, Bidyananda

Subjects

*PERIDOTITE, *ULTRABASIC rocks, *SPINEL group, *SUTURE zones (Structural geology), *SPINEL, *OLIVINE

Abstract

Petrological study of the ultramafic rocks from the Nidar Ophiolite Complex (NOC) of the Indus Suture Zone is carried out. The study of Cr-spinels along with olivine and pyroxenes emphasizes the genesis and tectonic setting of the ultramafites. Olivine from the harzburgite is Mg-rich, with the molar ratio Mg# [Mg/(Mg + Fe2+)] varying between 0.91 and 0.94 and olivine in dunite between 0.92 and 0.94. Clinopyroxene from the harzburgite is TiO2 and Na2O-poor diopside (Wo47–50En47–50Fs2–4). Spinel in harzburgite shows wide Cr#, molar ratio varied between 0.26 and 0.72, and significantly higher in dunites with Cr# ranges from 0.69–0.85. Cr# of the peridotite spinel follow a depletion trend. Calculated equilibrium conditions of the samples are 800–900°C temperature, 32 and 40 kbar pressure, oxygen fugacity −0.09 to 0.55 log units above the FMQ buffer. Residual nature of the harzburgites and the presence of high and low Cr# spinels may be due to the genetic artifact of the different ultramafic units. [ABSTRACT FROM AUTHOR]

Published

2020

3. Metasomatic Processes Revealed by Trace Element and Redox Signatures of the Lithospheric Mantle Beneath the Massif Central, France.

Author

Uenver-Thiele, Laura, Woodland, Alan B., Seitz, Hans-Michael, Downes, Hilary, and Altherr, Rainer

Subjects

*METASOMATISM, *TRACE element analysis, *OXIDATION states, *REGOLITH, *RARE earth metals, *LASER ablation inductively coupled plasma mass spectrometry

Abstract

Trace element compositions of clinopyroxene and oxidation state measurements are both useful parameters for constraining metasomatic interactions within the subcontinental lithospheric mantle (SCLM). Laser ablation inductively coupled plasma mass spectrometry analyses of trace elements in clinopyroxene in combination with oxidation state data from the same samples provide a fuller picture of the metasomatic processes that occurred within the SCLM below the French Massif Central (FMC). A total of 89 spinel peridotite xenoliths from 39 localities across the FMC document variable degrees of partial melting and metasomatism at both regional and local scales. According to the degree of enrichment in light rare earth elements (LREE) and middle rare earth elements (MREE) in clinopyroxene, four main groups (A, B, C and D) are identified. Variations in other trace element concentrations are consistent with these groups. LREE enrichment correlates with a tendency to higher oxygen fugacity (fO2). These characteristics, along with their Ti/Eu-Zr/Hf systematics, are useful in assessing the different metasomatic agents that have interacted with the FMC SCLM. The behaviour of Lu and Hf additionally provides a means for distinguishing secondary clinopyroxene grains from those that have been overprinted. Most samples have been affected by cryptic metasomatism and different signatures indicate interaction with different types of metasomatic agent. Modal metasomatism is apparent by the presence of amphibole or secondary clinopyroxene. The lack of any notable trace element or redox signature related to the occurrence of amphibole suggests that it formed from small amounts of dilute H2O-rich fluids. Most samples from the northern sector of the FMC are fairly refractory and clinopyroxene exhibits a 'tick-shaped' REE signature (group D), consistent with metasomatism by subduction-related fluids during Variscan times. Such fluids were oxidizing (Δlog fO2 values>FMQ+1, where FMQ is the fayalite-magnetite-quartz buffer) and responsible for LREE enrichment in clinopyroxene and low concentrations of the less mobile elements such as Ti, Eu, Zr and Hf. Clinopyroxene in several samples has very low Ti/Eu, elevated (La/Yb)N and suprachondritic Zr/Hf ratios, reflecting local carbonatite metasomatism. These samples also record oxidizing conditions, with Δlog fO2 values>FMQ+1. Many other samples have clinopyroxenes with higher Ti/Eu and approximately chondritic Zr/Hf ratios, consistent with having undergone silicate melt metasomatism. Their chondrite-normalized REE element patterns vary from LREE-depleted to relatively flat (group A), indicating small but variable metasomatic enrichments in the more mobile elements, which can be attributed to chromatographic effects during reactive flow. The oxidation states of these samples record Δlog fO2~FMQ+0.4±0.5. Some samples have clinopyroxene with negative Zr and Hf anomalies and distinctly low Ti/Eu (<2000), but not as low as expected for carbonatite metasomatism. These may have interacted with carbonated-silicate melts, which also imposed somewhat elevated oxidation states (Δlog fO2 values up to~FMQ+0.9). Some samples exhibit evidence for having been overprinted by more than one metasomatic event, in part indicated by two populations of geochemically distinct clinopyroxene. These samples, among others, also demonstrate that immobility of heavy REE (HREE) cannot be assumed when modeling the degree of melt extraction of strongly metasomatized peridotites. Addition of HREE by refertilization lowers the apparent degree of melting compared with calculations based upon Cr/(Cr+Al) in spinel. In other cases, a lowering of HREE concentrations via interaction with a low-HREE metasomatic agent produces higher apparent degrees of melting. [ABSTRACT FROM AUTHOR]

Published

2017

4. Empirical geothermometers and geothermobarometers for spinel peridotite phase assemblages.

Author

MacGregor, Ian D.

Subjects

*PERIDOTITE, *SPINEL, *CHEMICAL synthesis, *SOLUBILITY, *PYROXENE, *GEOTHERMOMETERS, *BAROMETERS, *MULTIPLE regression analysis

Abstract

Experimental synthesis of spinel peridotite phase assemblages for a range of compositions that mimic natural samples is used to derive a set of empirical geothermometers and geothermobarometers represented by multiple linear regression best-fit surfaces that link the variables of temperature, pressure, and composition. The calibrated geothermometers use reactions that govern the solubility of Al and Cr in both pyroxenes and the Mg–Fe exchange between silicates and spinel. Geothermobarometers map the Mg–Fe exchange between coexisting olivine and clinopyroxene and pyroxenes and Ca–Mg exchange between coexisting pyroxenes. Application of the geothermometers and geothermobarometers to suites of naturally occurring samples indicates that while reactions governing the Cr and Al solubility and solvus of orthopyroxene give useful estimates of ‘original’ mantle temperatures and pressures, respectively, comparable reactions for clinopyroxene yield estimates that are variably dependent on the transport phase of the sample suites. Temperature and pressure estimates from reactions governing Mg and Fe exchange between silicates and spinel and coexisting silicates are all sensitive to the later transport stage of the samples. [ABSTRACT FROM PUBLISHER]

Published

2015

5. An early Palaeozoic supra-subduction lithosphere in the Variscides: new evidence from the Maures massif.

Author

Bellot, Jean-Philippe, Laverne, Christine, and Bronner, Georges

Subjects

*ANALYTICAL geochemistry, *REGOLITH, *TEMPERATURE, *SUBDUCTION zones, *ROCK-forming minerals, *OLIVINE, *AMPHIBOLES, *METAMORPHISM (Geology)

Abstract

Petrographic and geochemical studies of peridotites and melagabbros from the Maures massif (SE France) provide new constraints on the Early Palaeozoic evolution of the continental lithosphere in Western Europe. Peridotites occur as lenses along a unit rooted in the main Variscan suture zone. They are dominantly spinel peridotites and minor garnet–spinel peridotites. Spinel peridotites represent both residual mantle and ultramafic cumulates. Mantle-related dunites and harzburgites display high temperature textures, with olivine (Mg#0.90), orthopyroxene (Mg#0.90) and spinel (TiO2 < 0.2%; Cr#0.64–0.83) compositions typical of fore-arc upper mantle. Ultramafic cumulates are dunite adcumulates, harzburgite heteradcumulates and mesocumulates, melagabbro heteradcumulates and amphibole peridotites, with olivine (Mg#0.85–0.89), orthopyroxene (Mg#0.86–0.89) and Cr-spinel (TiO2 = 0.5–3.3%; Cr#0.7–0.98) compositions typical of ultramafic cumulates. Cr-spinel compositions of both spinel peridotite types suggest their genesis in a supra-subduction zone lithosphere. Core to rim zoning in spinel is related to the incomplete influence of regional metamorphism and serpentinisation. The covariation of major and minor elements with Al2O3 for cumulates is consistent with igneous processes involving crystal accumulation. Both mantle and cumulate dunites and harzburgites have U-shaped REE patterns and extremely low trace element contents, similar to peridotites from modern fore-arc peridotites (South Atlantic) and from ophiolites related to supra-subduction zones (Semail, Cyclops, Pindos, Troodos). Melagabbros also have U-shaped REE patterns similar to xenoliths from the Philippine island arc, but also similar to intrusive ultramafic cumulates from the Semail nappe of Oman related to a proto-subduction setting. A wehrlite has a REE pattern similar to that of amphibole peridotites reflecting metasomatism of clinopyroxene-bearing peridotites due to subduction-related fluids. The Maures spinel peridotites and melagabbros are therefore interpreted as the lowermost parts of a crustal sequence and minor residual mantle of lithosphere generated in a supra-subduction zone during Early Palaeozoic time. Garnet–spinel peridotites are chemically close to melagabbros, but have recorded high pressure metamorphism before their retrogression similar to spinel peridotites into amphibolites to greenschists facies metamorphism. They indicate burial to mantle depths of the margin of the supra-subduction lithosphere during the Early Palaeozoic continental subduction. Both peridotite types were exhumed during the Upper Palaeozoic continental collision. Comparable observations from other Variscan-related peridotites, in particular of the Speik complex of the Autroalpine basement, and a common age for the subduction stage allow extension of these regional conclusions to a broad area sharing the Cambrian suture zone, extending from the Ossa-Morena to the Bohemian massif. [ABSTRACT FROM AUTHOR]

Published

2010

6. The Spinel Peridotite Mantle xenoliths of Waw-En Namus volcano, southern Libia

Author

NARDUZZI, FRANCESCO, DE MIN, ANGELO, GRILLO, BARBARA, Zanetti A., '-', Narduzzi, Francesco, DE MIN, Angelo, Zanetti, A., and Grillo, Barbara

Subjects

mantle xenoliths, Spinel peridotites, waw en namus volcano, Libia, mantle xenolith, Spinel peridotite

Abstract

alkaline) since Jurassic times (Guiraud et al. 2005). Moreover, paleomagnetic data, suggest that the drifting of the African plate during the last 100 Ma has been very limited, thus allowing for the keeping the contact with the deeper mantle. Starting from these premises, the peridotite xenoliths, hosted in nephelinitic basalts from the Waw En-Namus volcano and investigated in comparison with those from Gharyan area (Beccaluva et al., 2007), could shed a light on the evolution of the Libyan sub-continental lithospheric mantle and on the geodynamic events that affected it over time. The mineral phases of such xenoliths, as well as few glassy veins, were studied in order to determine major and trace elements compositions. Three types of olivines, orthopyroxenes, clinopyroxenes, and spinels were recognized (magmatic, peridotitic and related to melt-peridotite reactions), as well as the presence of Na, K and ultra-potassic (UK) glasses. The investigated glasses, selected among those which apparently have been not (or scarcely) modified in their composition by peridotite-melt reactions, show higher La/Yb and Zr/Hf ratios with respect to Waw En-Namus lavas implying the involvements of slightly different mantle sources. Moreover, the presence of UK glasses (characterized by a strong Pb positive anomaly) suggest the involvement, as source, of a lithospheric or sub-lithospheric component. The mantle phases indicate a moment of basaltic extraction starting from a depleted (DMM-like) condition followed by a recent metasomatism. In the apparently not metasomatized ones, Th/Yb and Ta/Yb ratios suggest that ancient metasomatic events, which probably occurred during the Pan-African cycle, played a role in their history. In comparison, the metasomatized mineral phases, according with the recent geophysical data (Begg et al., 2009), mainly suggest relationships with the continuous asthenospheric upwelling. Beccaluva, L., Bianchini G., Ellam, R.M., Marzola, M., Oun, K.M., Siena, F., Stuart, F.M. (2008). 253– 277 in: Coltorti, M., & Grégoire, M., (eds.). Geol. Soc. Lond. Spec. Publ. 293. Begg, G.C., Griffin,W.L., Natapov, L.M., O’Reilly S.Y., Grand, S.P., Hronsky, J.M.A., Djomani, Y.P., Swain, C.J., Deen, T., Bowden, P. (2009). Geosphere, 5, 23-50. Guiraud, R., Bosworth, W., Thierry, J., Delplanque, A. (2005). Journal of African Earth Sciences, 43, 83-143

Published

2012

7. The trace element variations in clinopyroxenes from spinel peridotite xenoliths from Western Victoria (Australia)

Author

VANNUCCI R., BOTTAZZI P., OTTOLINI L., DAL NEGRO A., and PICCIRILLO E.M.

Subjects

clinopyroxenes, trace elements, Western Victoria, SIMS, spinel peridotites

Published

1994

8. Effects of Ca-Mg Substitution in C2/c pyroxene structure on natural clinopyroxenes from spinel peridotite nodules (Pico Cabugi, Brazil)

Author

C. Fabro, Francesco Princivalle, G. Demarchi, Gabriella Salviulo, G., Salviulo, Princivalle, Francesco, Demarchi, Gabriella, and C., Fabro

Subjects

Nodule (geology), Microprobe, C2/c Pyroxene, C2/c Pyroxenes, Mineralogy, Pyroxene, Crystal structure, engineering.material, Geochemistry and Petrology, CRYSTAL-STRUCTURE REFINEMENT, General Materials Science, Ca-Mg substitution, Mg-Ca substitution, spinel peridotites, Brazil, Peridotite, clinopyroxenes, Materials processing, Chemistry, Spinel, spinel peridotite, Crystallography, engineering

Abstract

X-ray crystal structure refinements and microprobe analyses of clinopyroxenes from two suites of spinel-peridotite nodules are compared for an understanding of the structural response to a decrease in Ca content. The kinking of the tetrahedral chain (O3-O3-O3 angle) of the C2/c structure associated with decreased Ca content shows behavior similar to that observed for the A-tetrahedral chain of the P21/c structure. Contemporaneously the occupancy of the M2′ split site increases. In addition, as a consequence of the low Ca content, the M2 polyhedron dominates the structural rearrangement of the clinopyroxenes considered here.

Published

1992

9. The mineralogy and chemical composition of the accessory minerals of the Panyam nodular inclusions.

Author

Majankuola A.A., International symposium on metallogeny of mafic and ultramafic complexes Athens 09-Oct-8011-Oct-80, Majankuola A.A., and International symposium on metallogeny of mafic and ultramafic complexes Athens 09-Oct-8011-Oct-80

Published

1981

10. Some aspects of ore formation in ultramafics.

Author

Marakusheu A.A. and Marakusheu A.A.

Abstract

The relationship between petrogenesis and ore formation during the development of ultrabasics is discussed. It is emphasised that it is different for deep-seated pyrope peridotite and shallower spinel-enstatite peridotite facies. The influence of depth (pressure) on the composition of fluids which accompany ultrabasic magmatism is considered., The relationship between petrogenesis and ore formation during the development of ultrabasics is discussed. It is emphasised that it is different for deep-seated pyrope peridotite and shallower spinel-enstatite peridotite facies. The influence of depth (pressure) on the composition of fluids which accompany ultrabasic magmatism is considered.