Your search keyword '"Olivier Femenias"' showing total 21 results

1. Deformation-driven Differentiation during in situ Crystallization of the 2·7 Ga Iguilid Mafic Intrusion (West African Craton, Mauritania)

Author

Hervé Diot, Khalidou Lo, Julien Berger, Olivier Femenias, Gaëlle Plissart, and Antoine Triantafyllou

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, In situ crystallization, Geochemistry, Deformation (meteorology), 010502 geochemistry & geophysics, 01 natural sciences, West african, Craton, Intrusion, Geophysics, Geochemistry and Petrology, Mafic, Petrology, Geology, 0105 earth and related environmental sciences

Published

2017

2. Relationship between the fractal dimension of orthopyroxene distribution and the temperature in mantle xenoliths

Author

Collin Nkono, Fadimatou Yamgouot F.Y. Ngounouno, Jean-Claude C. Mercier, Annick Lesne, Daniel Demaiffe, and Olivier Femenias

Subjects

Basalt, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Mineralogy, Geology, 010502 geochemistry & geophysics, 01 natural sciences, Fractal dimension, Fractal analysis, Mantle (geology), Petrography, Volcano, Ultramafic rock, Xenolith, 0105 earth and related environmental sciences

Abstract

As rock textures reflect the physical conditions and the mechanisms of formation of the rocks, new approaches are used for improving texture analyses, both qualitatively and quantitatively. Pioneer work has recently boosted interest in fractal analysis for quantifying and correlating patterns. Fractal-like patterns relate to a degree of multiscale organization, and fractal dimensions (FD) and their potential variations can be used to infer the physical conditions of rock formation at various scales of observation. Here, we characterize quantitatively the shape and distribution of orthopyroxene grains in ultramafic xenoliths in terms of FD and their relation with temperature of equilibration. Fractal analysis has been applied to several populations of mantle xenoliths: 7 xenoliths collected in the vicinity of Pico Santa Isabel on Bioko Island, an alkaline basaltic volcano in oceanic domain (Gulf of Guinea, Equatorial Atlantic), 9 samples from Sangilen, in the Agardag alkaline lamprophyre dyke (Russia), and 11 samples form Śnieznik (Lutynia, Poland), in the continental domain. Fractal analysis has been conducted to characterize the degree of complexity of the petrographic textures: it is indeed known that large values of FD are associated to more complex textures. The correlation here observed between the orthopyroxene fractal dimension and the temperature of equilibration suggests that FD captures a significant textural feature directly related to the temperature (i.e. generated by a temperature-controlled process). The significant difference in the FD–T correlation observed for the continental and oceanic mantle domains suggests that the mechanical and rheological behaviour is distinct in the oceanic and continental lithospheres. These first promising results should be confirmed by analysing other mantle suites of rocks in different geodynamic settings. Copyright © 2015 John Wiley & Sons, Ltd.

Published

2015

3. Geodynamic model for the development of the Cameroon Hot Line (Equatorial Africa)

Author

Olivier Femenias, Daniel Demaiffe, and Collin Nkono

Subjects

geography, geography.geographical_feature_category, Lineament, Geology, Neogene, Paleontology, Sinistral and dextral, Volcano, Cenozoic, Paleogene, Seismology, Earth-Surface Processes, Line (formation)

Abstract

This work proposes a new geodynamic model for the development of the Cameroon Hot Line (CHL) in Equatorial Africa. It is based on the analysis of the distribution of lineaments and of magmatic bodies (Paleogene anorogenic ring-complexes and Neogene volcanic centres). Two successive geodynamic models are proposed to explain the distribution of the Cainozoic to recent magmatic activity. They are both sinistral. The first one, during the Paleogene, developed around the N ∼ 70°E direction while the second one (Neogene) is oriented around the N ∼ 130°E direction. The two periods are separated by a short transition. The emplacement follows the local reactivation of pre-existing (Pan-African) faults in relation to the collision between the Afro-Arabian and Eurasian plates, during the Alpine history.

Published

2014

4. Fractal Analysis of Lineaments in Equatorial Africa: Insights on Lithospheric Structure

Author

Annick Lesne, Jean-Claude C. Mercier, Daniel Demaiffe, Collin Nkono, and Olivier Femenias

Subjects

Lineament, Lithosphere, Remote sensing (archaeology), Planet, Multispectral image, Shuttle Radar Topography Mission, Geophysics, Spatial distribution, Geomorphology, Fractal analysis, Geology

Abstract

In this paper, the complexity in the spatial distribution of the lineaments was investigated from on remote sensing topographic (SRTM DEM) and multispectral (Landsat) data. Lineaments in equatorial Africa were chosen to apply the fractal analysis methodology. The good correlations of the obtained data with some geophysical data from the same area allow that the complexity in the spatial distribution of the lineaments can give qualitative information on the interior of the earth (or on other planets). This method can provide a bridge between classical geology and geophysics, and particularly powerful for studying large and inaccessible regions.

Published

2013

5. Metasomatic mantle origin for Mbuji-Mayi and Kundelungu garnet and clinopyroxene megacrysts (Democratic Republic of Congo)

Author

Olivier Femenias, Marjorie Pivin, and Daniel Demaiffe

Subjects

Craton, geography, geography.geographical_feature_category, Geochemistry and Petrology, Archean, Geochemistry, Geology, Metasomatism, Kimberlite, Megacryst, Mantle (geology)

Abstract

article i nfo Article history: Mbuji-Mayi (east Kasai province) and Kundelungu (Shaba province) are the two kimberlite fields known for a long time in the Democratic Republic of Congo (DRC). Mbuji-Mayi intrudes the Archean basement (Congo- Kasai Craton) and is diamond-rich, whereas Kundelungu cuts across Paleoproterozoic basement (Bangweulu block) and is diamond-poor. The megacryst suites (or discrete nodule suites) of both fields include garnet and clinopyroxene megacrysts. The pyrope-rich megacrysts can be subdivided in three groups on the basis of their Cr contents: low-Cr (0.00-1.79 wt.%Cr2O3 ;M g # : 72.8-84.0); medium-Cr (1.93-5.16 wt.%Cr2O3 ;M g #

Published

2009

6. Geodynamic framework of large volcanic fields highlighted by SRTM DEMs: Method evaluation and perspectives exampled on three areas from the Cameroon Volcanic Line

Author

Collin Nkono, Olivier Femenias, and Daniel Demaiffe

Subjects

Cinder cone, geography, geography.geographical_feature_category, Lineament, Shuttle Radar Topography Mission, Geodynamics, law.invention, Graben, Geophysics, Volcano, Geochemistry and Petrology, law, Radar, Digital elevation model, Geology, Seismology

Abstract

article i nfo This study is a part of a wider investigation to evaluate how much can be learnt by using low-cost methods such as systematic moderate-resolution remote sensing to map and quantify geological structures at the regional scale on very large volcanic provinces only partly studied in the field. Volcanic-centre and cinder- cone distribution, faults and structural lineaments are mapped combining Shuttle Radar Topography Mission (SRTM), Digital Elevation Models (DEMs) and Landsat satellite images. As an example of the method, we present the interpretation of structural data and morphological features of three contrasted areas from the Cameroon Volcanic Line (Tombel graben, Upper Benue valley, and Ngaoundere area) for which local field studies are available for comparison. At a local scale, this remote-sensing method of mapping displays good to excellent correlations with previously published data and, by itself, it allows one to constrain the structural setting of each area. Numerical treatment of vent and cinder-cone localisation can be related to tension fractures (T direction), whereas numerical treatment of the lineaments constrains the associated fault system to a single transtensional (strike-slip+extension) Riedel type fracture network. The first results on the Cameroon Volcanic Line are promising and could be used at a larger scale on numerous volcanic provinces for which field data are not yet available.

Published

2009

7. MINERALOGY AND GEOTHERMOMETRY OF GABBRO-DERIVED LISTVENITES IN THE TISOVITA-IUTI OPHIOLITE, SOUTHWESTERN ROMANIA

Author

Hervé Diot, Marcel Maruntiu, Daniel Demaiffe, Olivier Femenias, and Gaëlle Plissart

Subjects

Gabbro, Geochemistry, Mineralogy, Metamorphism, Ophiolite, Silicate, Petrography, chemistry.chemical_compound, chemistry, Geochemistry and Petrology, Metasomatism, Chlorite, Geology, Amphibole

Abstract

Gabbros from the Variscan Tisovita-Iuti ophiolite in Romania display the peculiar Cr-rich mica + calcite + quartz mineral association that is typical of listvenites. This metasomatic lithology appears as the end-product of a continuous petrographic series of transformed rocks from amphibolitized gabbros (resulting from an ocean-floor metamorphism) to listvenites. During these different degrees of modification, chromium is immobile and concentrated in the main silicate phases of each stage (amphibole, chlorite and white mica). This process could appear mineralogically and texturally continuous, but chlorite morphology and thermometry suggest two main processes. Listvenite formation characterizes a low-temperature (∼300°C) metasomatic stage overprinted on a previously warmer (

Published

2009

8. Nature and significance of a Cambro-Ordovician high-K, calc-alkaline sub-volcanic suite: the late- to post-orogenic Motru Dyke Swarm (Southern Carpathians, Romania)

Author

Hervé Diot, Daniel Demaiffe, Olivier Femenias, Mihai Tatu, and Tudor Berza

Subjects

biology, Trace element, Geochemistry, engineering.material, biology.organism_classification, Precambrian, Basaltic andesite, Rhyolite, engineering, Ordovician, General Earth and Planetary Sciences, Phenocryst, Plagioclase, Geology, Lile

Abstract

The Motru Dyke Swarm intrudes the Precambrian Danubian basement of the Southern Carpathians (Romania). It is a marker of a sub-volcanic event that occurred during the early Palaeozoic (Cambrian to Ordovician). The geographical distribution of dykes on a ∼2,000 km2 area is heterogeneous; several areas of high dyke density have been the subject of a detailed petrological and geochemical study. Taken altogether, the 150 samples define a single complete magmatic series, from basaltic andesite to rhyolite. Whole-rock major element variations show a medium- to high-K, calc-alkaline magmatic suite. The compositional variations and the general decrease of trace element contents (both compatible and incompatible, including REEs) from basaltic andesite to rhyolite are consistent with 1) the fractionation of the observed phenocryst assemblages, Ca-amphibole (Ti-pargasite to magnesiohornblende) followed by intermediate plagioclase, clinopyroxene and accessory biotite and quartz and 2) the absence of lower and/or upper crustal contamination. Trace elements diagrams display typical arc patterns (LILE, Pb and LREE enrichment and relative depletion in Nb-Ta, Zr-Hf and Ti). The Th/U, Nb/Ta and Zr/Hf ratios are constant and close to the mantle values throughout the whole series, which argues that the parental magma was generated from a single and homogeneous enriched lithospheric mantle source. The field regional evidence implies that melting occurred during a late- to post-orogenic period of lithospheric extension, and thus took place quite lately after the cessation of Pan-African subduction.

Published

2007

9. Cumulating processes at the crust-mantle transition zone inferred from Permian mafic-ultramafic xenoliths (Puy Beaunit, France)

Author

Jean-Claude C. Mercier, Julien Berger, Nicolas Coussaert, Daniel Demaiffe, and Olivier Femenias

Subjects

Basalt, Geophysics, Geochemistry and Petrology, Ultramafic rock, Transition zone, Geochemistry, Xenolith, Magma chamber, Mafic, Geology, Amphibole, Mantle (geology)

Abstract

Ultramafic and mafic xenoliths of magmatic origin, sampled in the Beaunit vent (northern French Massif Central), derive from the Permian (257 Ma) Beaunit layered complex (BLC) that was emplaced at the crust-mantle transition zone (∼1 GPa). These plutonic xenoliths are linked to a single fractional crystallisation process in four steps: peridotitic cumulates; websteritic cumulates; Al-rich mafic cumulates (plagioclase, pyroxenes, garnet, amphibole and spinel) and finally low-Al mafic cumulates. This sequence of cumulates can be related to the compositional evolution of hydrous Mg basaltic magma that evolved to high-Al basalt and finally to andesitic basalt. Sr and Nd isotopic compositions confirm the co-genetic character of the various magmatic xenoliths and argue for an enriched upper mantle source comparable to present mantle wedges above subduction zones. LILE, LREE and Pb enrichment are a common feature of all xenoliths and argue for an enriched sub-alkaline transitional parental magma. The existence of a Permian magma chamber at 30 km depth suggests that the low-velocity zone observed locally beneath the Moho probably does not represent an anomalous mantle but rather a sequence of mafic/ultramafic cumulates with densities close to those of mantle rocks.

Published

2006

10. Flowage differentiation in an andesitic dyke of the Motru Dyke Swarm (Southern Carpathians, Romania) inferred from AMS, CSD and geochemistry

Author

Hervé Diot, Collin Nkono, Daniel Demaiffe, Tudor Berza, and Olivier Femenias

Subjects

geography, Tschermakite, geography.geographical_feature_category, Andesite, Pargasite, Geochemistry, engineering.material, Volcanic rock, Geophysics, Basaltic andesite, Geochemistry and Petrology, engineering, Plagioclase, Biotite, Geology, Amphibole

Abstract

Two dykes of different thickness (5.5 m for TJ31 and 23 m for TJ34) from the late Pan-African calc-alkaline Motru Dyke Swarm (S. Carpathians, Romania) have been studied by electron microprobe (mineral chemistry), crystal size distribution (CSD), anisotropy of magnetic susceptibility (AMS) and whole-rock geochemistry. All the physical and chemical variations observed across the dyke's width point to concordant results and show that the variations of both modal abundance and size of the amphibole and biotite microphenocrysts inside the dykes (deduced from the classical CSD measurements) are the result of a mechanical segregation of suspended crystals during magmatic transport. Despite a pene-contemporaneous regional tectonic, the flow-induced differentiation in the thicker dyke is characterized by the concentration of pre-existing Ti-rich pargasite-tschermakite, clinopyroxene and plagioclase crystals in the core of the dyke and of the extracted differentiated liquid near the walls. This mechanical differentiation induces a chemical differentiation with a basaltic andesite composition for the core of the dyke whereas the margins are andesitic. Thus the chilled margins appear as a slightly more evolved liquid with a Newtonian behaviour when compared to the average composition of the dyke. The localization of the liquid on both sides of the dyke has certainly facilitated the ascent of the central part of the dyke that behaved as a Binghamian mush.

Published

2006

11. Calcic amphibole growth and compositions in calc-alkaline magmas: Evidence from the Motru Dike Swarm (Southern Carpathians, Romania)

Author

Mihai Tatu, Jean-Claude C. Mercier, Olivier Femenias, Hervé Diot, Collin Nkono, Daniel Demaiffe, and Tudor Berza

Subjects

Tschermakite, 010504 meteorology & atmospheric sciences, Pargasite, Geochemistry, 010502 geochemistry & geophysics, 01 natural sciences, Geophysics, Geochemistry and Petrology, Magnesiohastingsite, Phenocryst, Igneous differentiation, Kaersutite, Geology, Amphibole, 0105 earth and related environmental sciences, Edenite

Abstract

A Late Pan-African calc-alkaline dike swarm (basalt-andesite-dacite-rhyolite) has been investigated in a region of over 2000 km 2 in the Alpine Danubian window, South Carpathians (Romania). Amphibole phenocrysts and microphenocrysts have been investigated by wavelength-dispersive microprobe analysis and BSE imaging. The Ca-amphibole population, represented in all the lithologies, displays a large compositional range, interpreted as the result of two processes: (1) magmatic evolution (kaersutite → Ti-pargasite → pargasite → Ti-magnesiohastingsite → magnesiohastingsite → edenite → tschermakite → magnesiohornblende) linked to magmatic differentiation from andesitic basalt to rhyolite; and (2) deuteritic alteration of the primary amphibole related to late-emplacement hydrothermal activity (yielding numerous varieties comprising those cited above). In all rock types, amphibole phenocrysts equilibrated at a nearly constant pressure of about 0.6 ± 0.1 GPa, but their temperatures of crystallization ranged from 1000–900 °C for basaltic andesites to 700–600 °C for dacites. In rhyolites, edenite to magnesiohornblende crystals res ect a continuous range of P-T conditions from 700 °C/0.6 GPa to 600 °C/0.1 GPa, in agreement with their change of habit from euhedral to subhedral. Complex zonations in pargasite-magnesiohastingsite (including resorption) are interpreted in term of self-organization of

Published

2006

12. Magmatic garnet-bearing mafic xenoliths (Puy Beaunit, French Massif Central): P-T path from crystallisation to exhumation

Author

Nicolas Coussaert, Olivier Femenias, Julien Berger, and Daniel Demaiffe

Subjects

geography, geography.geographical_feature_category, Permian, Geochemistry, Crust, Massif, Layered intrusion, Geochemistry and Petrology, Xenolith, Mafic, Scoria, Petrology, Amphibole, Geology

Abstract

Mafic xenoliths, sometimes interlayered with magmatic peridotites, are abundant in the scoria cones of Puy Beaunit in the French Massif Central. These are mainly layered gabbronorites with some norites, pyroxenites and anorthosites; they probably derive from a Permian differentiated deep layered intrusion. Crystallisation conditions were estimated at about 1000°C and 1 GPa. The rocks underwent sub-solidus re-equilibration at about 770°C and 1 GPa (isobaric cooling) in the lowermost crust. Two distinct symplectitic textures (pyroxene-plagioclase-spinel intergrowths) have been observed; they result from the destabilization of magmatic garnet (750-800°C, 0.55-0.8 GPa) and amphibole (990°C

Published

2005

13. Origin of micro-layering in a deep magma chamber: Evidence from two ultramafic–mafic layered xenoliths from Puy Beaunit (French Massif Central)

Author

Olivier Femenias, Nicolas Coussaert, Julien Berger, Daniel Demaiffe, Daniel Ohnenstetter, and Negre Y Rossello, Cathi

Subjects

Underplating, geography, geography.geographical_feature_category, Geochemistry, Geology, Massif, Magma chamber, engineering.material, Layered intrusion, Geochemistry and Petrology, engineering, Plagioclase, Xenolith, Layering, Mafic

Abstract

The origin of magmatic layering is still hotly debated. To try to shed some light on this problem, two ultramafic–mafic layered xenoliths from Puy Beaunit (French Massif Central) were investigated in detail. The nodules belong to a stratiform intrusion emplaced in the deep crust during the Permian (257 ± 6 Ma; Femenias, O., Coussaert, N., Bingen, B., Whitehouse, M., Mercier, J.-C., Demaiffe, D., 2003. A Permian underplating event in late- to post-orogenic tectonic setting. Evidence from the mafic–ultramafic layered xenoliths from Beaunit (French Massif Central). Chem. Geol. 199 293–315. ). The 3 to 5 cm thick nodules have, in common, a central orthopyroxenite layer; the succession of layers is, respectively, norite–orthopyroxenite–norite (PBN 00-01) and norite–orthopyroxenite–harzburgite (PBN 00-03). The variations of both major (by electron microprobe) and trace, essentially the RE, elements (by LA-ICP-MS) were measured in major mineral phases (orthopyroxene, clinopyroxene, plagioclase, spinel) along cross-section perpendicular to the layering. Strong grain size, chemical and textural variations occur along these sections: they can be continuous or discontinuous, symmetrical or asymmetrical. Such complex variations cannot be solely related to a single magmatic history (fractional crystallisation, mineral sorting). Other processes such as element enrichment by residual liquid channelling along layer boundaries and/or sub-solidus recrystallisation and element redistribution must be invoked. It appears, in particular, that element distribution in the central orthopyroxenite layer could result from the injection of micro-sills of orthopyroxene-rich liquid between previously consolidated layers.

Published

2005

14. Emplacement processes and cooling history of layered cyclic unit II-7 from the Lovozero alkaline massif (Kola Peninsula, Russia)

Author

Nicolas Coussaert, Olivier Femenias, Stéphane Brassinnes, and Daniel Demaiffe

Subjects

geography, geography.geographical_feature_category, Geochemistry, Geology, Massif, Sequence (geology), chemistry.chemical_compound, Kola peninsula, chemistry, Sill, Geochemistry and Petrology, Nepheline, Magma, Layering, Alkali feldspar

Abstract

The Lovozero alkaline massif (Kola Peninsula, Russia) is composed of three major units. The central unit (80% of the volume) comprises numerous well developed layers composed, from bottom to roof, of an urtite–juvite–foyaite–lujavrite continuous lithological sequence (ijolite–foid-bearing alkali feldspar syenite in IUGS nomenclature). The mode of emplacement of the massif and the mechanism of formation of the layering are still under debate. Petrological, mineralogical (two stages of crystallisation) and structural evidence from the detailed analysis of one of these layers (unit II-7) is interpreted in terms of both mechanical (magmatic to sub-solidus, non-coaxial deformation) and thermal differentiation operating on a crystal-laden (alkali feldspar, high T nepheline, aegirine-augite) material of foyaitic composition. Textural and mineralogical data suggest that a sheet of foiditic magma intruded into solidified earlier units of the Lovozero layered sequence and acquired a sill-like structure on cooling. D 2005 Elsevier B.V. All rights reserved.

Published

2005

15. Asymmetrical to symmetrical magnetic fabric of dikes: Paleo-flow orientations and Paleo-stresses recorded on feeder-bodies from the Motru Dike Swarm (Romania)

Author

Hervé Diot, Daniel Demaiffe, Antoine Gauffriau, Tudor Berza, and Olivier Femenias

Subjects

Dike, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Geology, Imbrication, Flow direction, 010502 geochemistry & geophysics, 01 natural sciences, Stress field, Sinistral and dextral, Dike swarm, Newtonian fluid, Petrology, Anisotropy, Seismology, 0105 earth and related environmental sciences

Abstract

The fabric in a dike is representative of the magmatic flow, considered as Newtonian. The anisotropy of magnetic susceptibility of the rocks gives a good representation of the shape-preferred orientation which, in turn, is a marker of the magmatic flow. Generally, a symmetrical pattern of the fabric across the dike is in agreement with a flow of magma within a channel: the flow direction is then reliable with this imbrication. An asymmetrical fabric is dependent on the flow and displacement of the wall. We present the case of both symmetrical and asymmetrical dike fabrics recording different emplacements. From a Pan-African calc–alkaline dike swarm (of basaltic–andesitic–dacitic–rhyolitic composition) of the Alpine Danubian window from South Carpathians (Romania), two populations of dikes have been described: thick (1–30 m) N–S-trending dikes and thin (

Published

2004

16. Metasomatism and melting history of a Variscan lithospheric mantle domain: evidence from the Puy Beaunit xenoliths (French Massif Central)

Author

Julien Berger, Daniel Demaiffe, Olivier Femenias, Nicolas Coussaert, and Jean-Claude C. Mercier

Subjects

Basalt, Underplating, geography, geography.geographical_feature_category, Subduction, Partial melting, Geochemistry, Massif, Geophysics, Geochemistry and Petrology, Delamination (geology), Xenolith, Metasomatism, Geology

Abstract

Mantle xenoliths from Puy Beaunit (French Massif Central) are compositionally varied, ranging from relatively fertile spinel lherzolites to refractory spinel dunites. Fertile peridotites have registered a modal (amphibole-bearing lherzolites) and cryptic metasomatic event that took place before the last Permian (257 Ma) melting episode. Depletion processes have been constrained by chemical modelling: the depletion is related to different degrees of partial melting, but two major melt extraction episodes are needed to explain the range of major element composition. The second event was responsible for the local large-scale dunitification of former residues. The first melting event (F≈25%) and metasomatic enrichment are attributed to an ancient fluid and/or liquid infiltration that could be related to a pre-Variscan regional subduction (located to the north of the Beaunit area). Texture acquisition and major deformation of the mantle xenoliths were sub-contemporaneous of the subduction and would result from lithospheric delamination. The second melting event (F≈17%) produced high-Mg basalts with calc-alkaline trace element signature that gave rise to the Permian underplating episode recognised in western Europe.

Published

2004

17. A Permian underplating event in late- to post-orogenic tectonic setting. Evidence from the mafic–ultramafic layered xenoliths from Beaunit (French Massif Central)

Author

Nicolas Coussaert, Jean-Claude C. Mercier, Martin J. Whitehouse, Olivier Femenias, Bernard Bingen, and Daniel Demaiffe

Subjects

Underplating, Olivine, Geochemistry, Geology, engineering.material, Layered intrusion, Geochemistry and Petrology, Ultramafic rock, Websterite, engineering, Plagioclase, Mafic, Zircon

Abstract

The Puy Beaunit volcano vent, French Massif Central, displays a population of plutonic mafic to ultramafic xenoliths, commonly showing asymmetric, millimetre to centimetre thick, layering. Layers are pyroxenitic to gabbroic, and less commonly peridotitic (lherzolite, dunite, websterite) and anorthositic. These xenoliths are interpreted as samples of a layered intrusion, located at the crust-mantle boundary. Primary cumulate phases are olivine and orthopyroxene, followed by clinopyroxene and plagioclase; rare intercumulus accessory phases (apatite, rutile and zircon) are observed in the most differentiated layers. Homogeneous xenoliths, interpreted as single cumulate layers, have a calc-alkaline geochemistry with LREE and large ion lithophile elements (LILE) enrichments relative to Nb, Ta and Ti. The negative Eu anomaly of pyroxenite can be related to earlier plagioclase fractionation, as observed in the gabbroic layers. Trace element laser ablation inductively coupled plasma emission mass spectrometry (LA-ICP-MS) and secondary ion mass spectrometry (SIMS) analyses of plagioclase, orthopyroxene and zircon from layered rocks suggest equilibrium and cogenetic relations between the silicate phases. U-Pb SIMS dating of a 1.5 mm zircon crystal gives a magmatic or sub-solidus equilibration age of 257 ± 6 Ma. The Beaunit layered intrusion belongs to the large Permian within-plate magmatic episode commonly of calc-alkaline geochemical signature observed over Europe and North Africa. It probably corresponds to a mafic underplating event spatially controlled by post-Variscan trans-tensional to trans-pressional basin tectonics in an intracontinental setting. The subduction-related geochemical signature of the magmatic suite is interpreted as resulting from the passive remobilisation of a mantle source, which was previously metasomatised during the Variscan subduction. © 2003 Elsevier Science B.V. All rights reserved.

Published

2003

18. Pétrologie des xénolites ultramafiques du puy Beaunit (Massif central français) : un gisement atypique du manteau sous-continental

Author

Daniel Demaiffe, Jean-Claude C. Mercier, and Olivier Femenias

Subjects

Peridotite, geography, geography.geographical_feature_category, Fractional crystallization (geology), Partial melting, Geochemistry, Metamorphism, Ocean Engineering, Massif, Igneous rock, Ultramafic rock, Metasomatism, Ecology, Evolution, Behavior and Systematics, Geology

Abstract

The Puy Beaunit maar presents a large variety of mantle xenoliths (spinel peridotites, pyroxenites and layered rocks). A detailed study of the textures and mineral equilibria shows the unusual character of this occurrence and the local complexity of the upper mantle beneath the French Massif Central. Ultramafic nodules have a metamorphic, magmatic or pyrometamorphic origin; they display different stages of deformation, metasomatism, partial melting and fractional crystallisation. The upper mantle appears stratified (as in other regional occurrences of the area); it has been intruded by a differentiated magmatic complex.

Published

2001

19. Petrogenesis of Archean PGM-bearing chromitites and associated ultramafic–mafic–anorthositic rocks from the Guelb el Azib layered complex (West African craton, Mauritania)

Author

Julien Berger, Hervé Diot, Bernard Charlier, Olivier Femenias, Marjorie Pivin, Khalidou Lo, Alain Bernard, Daniel Ohnenstetter, Daniel Demaiffe, Fonds National de la Recherche Scientifique [Bruxelles] (FNRS), Université libre de Bruxelles (ULB), Laboratoire de Planétologie et Géodynamique [UMR 6112] (LPG), Université d'Angers (UA)-Université de Nantes - UFR des Sciences et des Techniques (UN UFR ST), Université de Nantes (UN)-Université de Nantes (UN)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), Université de Nouakchott, université de Nouakchott, Centre de Recherches Pétrographiques et Géochimiques (CRPG), Institut national des sciences de l'Univers (INSU - CNRS)-Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS), IAMGOLD Corporation-West Africa, Department of Earth, Atmospheric and Planetary Sciences [MIT, Cambridge] (EAPS), and Massachusetts Institute of Technology (MIT)

Subjects

Mafic–ultramafic rocks, 010504 meteorology & atmospheric sciences, Greenschist, Laurite, Archean, Geochemistry, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, Geology, 010502 geochemistry & geophysics, Granulite, Anorthosite, Layered complex, Granulites, 01 natural sciences, Archean tholeiite, Geochemistry and Petrology, Ultramafic rock, Chromite, Petrology, 0105 earth and related environmental sciences, Petrogenesis

Abstract

International audience; The Archean Guelb el Azib layered complex (GAC) in the West African craton of Mauritania is composed of an association of serpentinites, chromitites, amphibolites and anorthosites with few fine-grained amphibolite dykes. The complex forms tectonic slices in 2.9–3.5 Ga TTG gneiss terrains in close association with supracrustal rocks (BIFs, impure marbles, amphibolites). It was affected by a main granulite-facies grade metamorphism (up to 900 °C at 5–6 kbar) with subsequent retrogression in amphibolite and greenschist facies conditions.The preserved igneous macrostructures, the mineral compositions and the nature of relic magmatic assemblages have been used to constrain the composition of the parental melts and the conditions of crystallization. According to petrological observations and to comparison with experimental data, the formation of the complex can be explained by fractionation of a slightly hydrous high-alumina basaltic melt at low pressure. The early fractionation of olivine and the absence of massive clinopyroxene fractionation before plagioclase saturation led to crystallization of highly calcic plagioclase with Fe-, Al-rich but Cr-poor chromite from a hydrous tholeiitic parental magma, similar to worldwide Archean tholeiites.The complex shares many similarities with Archean anorthosite layered complexes, possibly formed in a supra-subduction zone environment according to results obtained on similar 2.9–3.0 Ga complexes from Greenland and India (namely Fiskenaesset and Sittampundi). Three phases of PGE mineralization affected the GAC chromitites: (i) igneous crystallization of laurite; (ii) formation of late magmatic IPGE sulpho-arsenides (irarsite–hollingworthite) and (iii) hydrothermal Pt–Pd mineralization represented by sperrylite and rustenburgite.

Published

2013

20. New occurrence of UHP eclogites in Limousin (French Massif Central): Age, tectonic setting and fluid-rock interactions

Author

Julien Berger, Gaëlle Plissart, Daniel Demaiffe, Jean-Claude C. Mercier, Olivier Femenias, Daniel Ohnenstetter, Olivier Bruguier, Département d'Informatique [Bruxelles] (ULB), Faculté des Sciences [Bruxelles] (ULB), Université libre de Bruxelles (ULB)-Université libre de Bruxelles (ULB), Centre de Recherches Pétrographiques et Géochimiques (CRPG), Institut national des sciences de l'Univers (INSU - CNRS)-Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS), Géosciences Montpellier, Université des Antilles et de la Guyane (UAG)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), LIttoral ENvironnement et Sociétés - UMRi 7266 (LIENSs), and Université de La Rochelle (ULR)-Centre National de la Recherche Scientifique (CNRS)

Subjects

010504 meteorology & atmospheric sciences, [SDE.MCG]Environmental Sciences/Global Changes, Geochemistry, engineering.material, 010502 geochemistry & geophysics, 01 natural sciences, Kyanite, Geochemistry and Petrology, Ultramafic rock, [SDU.STU.GC]Sciences of the Universe [physics]/Earth Sciences/Geochemistry, Plagioclase, Suture (geology), Zircon U-Pb dating, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Variscan subduction, Geology, Zoisite, Massif, visual_art, engineering, visual_art.visual_art_medium, Island arc, UHP eclogite, Eclogite, French Massif Central, Fluid-rock interaction

Abstract

Kyanite and zoisite eclogites from the Limousin area in the Variscan French Massif Central (FMC) have been formed by deep subduction to 100 km depth at peak pressure-temperature conditions around 660 degrees C and 2.9 GPa. They belong to a thin tectonic unit comprising ophiolitic bodies devoid of HP-UHP markers and forming a transported suture zone now separating the two main lithotectonic units of the FMC with contrasted tectono-metamorphic features (namely the lower and upper allochthons). Composition of kyanite-eclogites is similar to supra-subduction-zone basalts found in back-arc basins or island arcs (LREE depleted, negative Nb-Ta anomalies, epsilon Nd: +6 to + 9). Zoisite eclogites have the major-element fingerprint of ultrabasic iron-rich plagioclase cumulates common in continental intrusions or forming Fe-Ti oceanic gabbros. The distribution of immobile trace-elements is however more comparable to alkaline Si-undersaturated rocks, but the Sr-Nd isotopic composition (Sr-87/Sr-86: 0.706; epsilon Nd: -3 to -5) suggests the intervention of an old radiogenic crustal component during their petrogenesis. The chemical composition of hydrous zoisite eclogites does not correspond closely to a common magmatic precursor. It is thus suggested that, by analogy with well exposed worldwide HP-UHP terranes, at least a part of the trace-element signature and the isotopic compositions are controlled by channelled fluid-rock interaction at UHP conditions, leading to localised segregation of zoisite that hosts nearly all Sr and LREE budgets of the bulk eclogite. Sr-Nd isotopic composition of these samples is thus controlled by zoisite and probably represents the isotopic composition of the fluid phase present during UHP recrystallisation. Zircons extracted from a zoisite eclogite were dated in-situ by LA-ICP-MS. Crystallisation of the magmatic precursor is bracketed between 489 and 475 Ma and the UHP event is dated at 412 +/- 10 Ma, in agreement with published ages for the Eo-Variscan HP stage in the FMC. A late resetting of the U-Pb isotopic system at 382 +/- 7 Ma is related to an anatectic high pressure-medium pressure event, well known in the Limousin area. The oceanic eclogites dated in this study are tentatively linked to the Galicia-South Brittany Lower Paleozoic Ocean; they show evidence of the existence of an intra-oceanic subduction zone at the Lower Ordovician and of partial closure of this oceanic domain by ocean-continent subduction during Early Devonian.

Published

2010

21. Ocean-floor hydrothermal metamorphism in the Limousin ophiolites (western French Massif Central): evidence of a rare preserved Variscan oceanic marker

Author

Julien Berger, Jean-Claude C. Mercier, Olivier Femenias, and Daniel Demaiffe

Subjects

geography, geography.geographical_feature_category, Metamorphic rock, Geochemistry, Metamorphism, Geology, Massif, Ophiolite, Geochemistry and Petrology, Oceanic crust, Metasomatism, Petrology, Amphibole, Metamorphic facies

Abstract

The Limousin ophiolite is located at the suture zone between two major thrust sheets in the western French Massif Central. This ophiolitic section comprises mantle-harzburgite, mantle-dunite, wehrlites, troctolites and layered gabbros. It has recorded a static metamorphic event transforming the gabbros into undeformed amphibolites and the magmatic ultramafites into serpentinites and/or pargasite-bearing chloritites. With various thermobarometric methods, it is possible to show that the different varieties of amphibole have registered low-P (c. 0.2 GPa) conditions with temperature ranging from high-T, late- magmatic conditions to greenschist-zeolite metamorphic facies. The abundance of undeformed metamorphic rocks (which is typical of the lower oceanic crust), the occurrence of Ca-Al (-Mg) metasomatism illustrated by the growth of Ca-Al silicates in veins or replacing the primary magmatic minerals, the P-T conditions of the metamorphism and the numerous similarities with oceanic crustal rocks from Ocean Drilling Program and worldwide ophiolites are the main arguments for an ocean-floor hydrothermal metamorphism in the vicinity of a palaeo-ridge. Among the West-European Variscan ophiolites, the Limousin ophiolites constitute an extremely rare occurrence that has not been involved in any HP (subduction-related) or MP (orogenic) metamorphism as observed in other ophiolite occurrences (i.e. France, Spain and Germany).

Published

2005