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From granulites to eclogites in the Sesia zone (Italian Western Alps): a record of the opening and closure of the Piedmont ocean (1991)

LARDEAUX, J. M. ; SPALLA, M. I.

Oxford, UK : Blackwell Publishing Ltd

Journal of metamorphic geology 9 (1991), S. 0

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ISSN: 1525-1314

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences

Notes: The Sesia zone (Italian Western Alps) offers one of the best preserved examples of pre-Alpine basement reactivated, under eclogite facies conditions, during the Alpine orogenesis. A detailed mineralogical study of eclogitized acid and basic granulites, and related amphibolites, is presented. In these rare weak to undeformed rocks microstructural investigations allow three main metamorphic stages to be distinguished.(a) A medium- to low-P granulite stage giving rise to the development of orthopyroxene + garnet + plagioclase + brown amphibole + ilmenite ± biotite in basic granulites and garnet + K-feldspar + plagioclase + cordierite + sillimanite + biotite + ilmenite in acid granulites.(b) A post-granulite re-equilibration, associated with the development of shear zones, producing discrete amphibolitization of the basic granulites and widespread development of biotite + sillimanite + cordierite + spinel in the acid rocks.(c) An eo-Alpine eclogite stage giving rise to the crystallization of high-P and low-T assemblages.In an effort to quantify this evolution, independent well-calibrated thermobarometers were applied to basic and acid rocks. For the granulite event, P-T estimates are 7–9 kbar and 700–800° C, and for subsequent retrograde evolution, P-T was 4–5 kbar and 600° C. For the eo-Alpine eclogite metamorphism, pressure and temperature conditions were 14–16 kbar and 550° C.The inferred P-T path is consistent with an uplift of continental crust produced by crustal thinning prior to the subduction of the continental rocks. In the light of the available geochronological constraints we propose to relate the pre-Alpine granulite and post-granulite retrograde evolution to the Permo-Jurassic extensional regime. The complex granulite-eclogite transition is thus regarded as a record of the opening and of the closure of the Piedmont ocean.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1525-1314.1991.tb00503.x

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Crust-mantle relationships in the French Variscan chain: the example of the Southern Monts du Lyonnais unit (eastern French Massif Central) (1990)

GARDIEN, V. ; TEGYEY, M. ; LARDEAUX, J. M. ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Journal of metamorphic geology 8 (1990), S. 0

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ISSN: 1525-1314

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences

Notes: Garnet lherzolite from the Lyonnais area (eastern French Massif Central) occurs as several lenses elongated within the regional foliation of garnet-biotite-sillimanite gneisses. Within the peridotites a mylonitic foliation can be observed which clearly is oblique to the regional foliation of the surrounding gneisses. Petrological and thermobarometric studies emphasize a tectonometamorphic re-equilibration for both crustal and mantle rocks characterized by a prograde metamorphic stage followed by retrograde evolution. During the burial stage, interpreted as lithospheric subduction, the peridotites underwent their mylonitic deformation, under high-pressure conditions (23–30 kbar). In contrast, the paragneisses have suffered their deformation during the retromorphic evolution under mesozonal conditions (6–8 kbar, 700°C). Our thermobarometric investigations allow us to interpret the granulitic/ultramafic association from the Monts du Lyonnais area as a lithospheric section buried into a Palaeozoic subduction zone, laminated during continental collision and uplifted by erosion processes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1525-1314.1990.tb00481.x

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Comparison of PTt paths in allochthonous high pressure metamorphic terrains from the Scandinavian Caledonides and the French Massif Central: Contrasted thermal structures during uplift (1991)

Mercier, L. ; Roermund, H. L. M. ; Lardeaux, J. M.

Springer

International journal of earth sciences 80 (1991), S. 333-348

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ISSN: 1437-3262

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Description / Table of Contents: Abstract A regional comparison of retrograde PTt paths of high pressure metamorphic terrains in the Scandinavian Caledonides (Seve Nappe Complex (S.N.C.)) and the French Massif Central (F.M.C.) reveals the following similarities: physical conditions of eclogite formation are roughly identical (600–780°C / 13.5–16.5 Kb), dominantly isothermal decompression. However in detail two major differences have been recognized: 1- In the S.N.C., PT estimates of eclogite formation are constant within individual tectonic lenses but vary when different tectonic lenses are compared. During uplift these temperature differences are maintained and diminish only at the final stages of the uplift history; 2- In the F.M.C. the physical conditions of eclogite formation are relatively constant (700–750°C/15Kb) but discrepancies in temperature (〉 100°C) appear during the first stages of the uplift history if one compares eastern with western domains. A thermal analytical model allows to explain these facts. In the S.N.C. the initial temperature difference during eclogite formation is related to various depths of burial. In the F.M.C. diachronic nappe stacking occurs implying a more pronounced screen effect in western than in eastern domains of the F.M.C. This also accounts for the initial retrogression under low- to middle amphibolite facies conditions in the west and granulite facies conditions in the east. Moreover from radiometric and structural data, we can see that all the uplift history of the S.N.C. is assisted by tectonic processes, while in the F.M.C., after the nappe pile was constructed, the uplift history is essentially controlled by erosional and/or isostatic processes.

Abstract: Résumé La comparaison des évolutions rétromorphiques PTt des nappes de haute pression des Calédonides Scandinaves (Complexe des Nappes de Seve — S.N.C.) et du Massif Central français (F.M.C.) révèle les similarités suivantes: les conditions intensives du métamorphisme éclogitique sont très voisines (600–780°C/13.5–16.5 Kbar), suivi globalement d'une décompression isotherme. Cependant en détail, des différences majeures ont été reconnues: 1- Dans le S.N.C., les estimations PT de la formation des éclogites sont constantes au sein d'une même unité, mais varient quand cellesci sont comparées. Pendant la remontée, ces différences sont maintenues et ne diminuent que lors des stades terminaux; 2- Dans le F.M.C., les conditions intensives du métamorphisme de haute pression sont relativement homogènes (700–750°C/15 Kbar), mais des différences de température (〉 100°C) apparaissent pendant les premiers stades de la remontée entre les domaines occidentaux et orientaux. Une modélisation thermique de type analytique permet d'expliquer ces faits. Dans le S.N.C., la différence initiale de température pendant la formation des éclogites est liée à des profondeurs d'enfouissement variées. Dans le F.M.C., il existe un diachronisme lors de la mise en place des nappes, impliquant un effet d'écran plus prononcé à l'ouest qu'à l'est. Il rend également compte de la rétromorphose des assemblages de haute pression dans les conditions du faciès amphibolite à l'ouest et du faciès granulite à l'est du F.M.C. De plus, à partir des données radiométriques et structurales, on constate que l'ensemble de l'histoire de la remontée du S.N.C. est assistée par des processus tectoniques, alors que dans le F.M.C., une fois la pile tectonique constituée, sa remontée est essentiellement contrôlée par les mécanismes de l'érosion et ceux de l'isostasie.

Notes: Zusammenfassung Ein regionaler Vergleich von PTt Pfaden von hochdruckbeanspruchten Gebieten in den skandinavischen Kaledoniden (Seve Nappe Complex (S.N.C.)) und dem französischen Zentralmassif (F.M.C.) zeigen folgende Ähnlichkeiten: Die physikalischen Bedingungen während der Eklogitbildung waren ungefähr identisch (600–780°C/ 13,5–16,5 kb), hauptsächlich isothermale Dekompression. Trotzdem werden zwei Hauptunterschiede beobachtet: 1- In den S.N.C. sind PT-Schätzungen der Eklogitbildung gleich in individuellen tektonischen Linsen; varriieren aber beim Vergleich verschiedener tektonischer Linsen. Während des Heraushebens wurden diese Temperaturunterschiede aufrechterhalten und verminderten sich nur in den letzten Stadien der Heraushebungsgeschichte. 2- In dem F.M.C. sind die physikalischen Bedingungen der Eklogitbildung relativ konstant (700–750°C/15 kb), aber es treten Temperaturdiskrepanzen (〉 100°C) während der ersten Heraushebungsstadien auf, wenn man die westlichen mit den östlichen Bereichen vergleicht. Ein thermales analytisches Modell erlaubt es diese Fakten zu erklären. In den S.N.C. ist die initiale Temperaturdifferenz während der Eklogitbildung mit verschiedenen Versenkungstiefen in Verbindung zu bringen. In dem F.M.C. erfolgte eine diachrone Deckenstapelung, dies bewirkte einen stärker betonten Abschirmeffekt in den westlichen Bereichen des F.M.C als in den östlichen. Der initiale Rückgang von niedriggradigen zu hochgradigen Amphibolitfaziesbedingungen im Westen und Granulitfaziesbedingungen im Osten legen hierüber Rechenschaft ab. Darüber hinaus können wir aus den radiometrischen und tektonischen Daten ersehen, daß die gesamte Hebungsgeschichte des S.N.C. von tektonischen Prozessen unterstützt wurde, während im F.M.C. die Hebungsgeschichte maßgeblich von erosiven und/oder isostatischen Prozessen kontrolliert wurde, nachdem die Dekkenstapelung beendet war.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01829370

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Evolution of nappes in the eastern margin of the Bohemian Massif: a kinematic interpretation (1991)

Schulmann, K. ; Ledru, P. ; Autran, A. ; [et al.]

Springer

International journal of earth sciences 80 (1991), S. 73-92

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ISSN: 1437-3262

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Description / Table of Contents: Abstract The entire pile of nappes in the eastern margin of the Bohemian massif is characterized by two stages of Variscan nappe emplacement each exhibiting a different kinematic and metamorphic evolution. The older emplacement (D1) probably occurred around 350-340 Ma ago and was synmetamorphic. The nappes show a typical systematic superposition of higher grade metamorphic units over lower grade ones. Thus, the crystalline complexes showing a HT-MP Barrovian imprint (Svratka allochthonous unit and Moldanubicum) were thrust over an intermediate unit affected by MTMP recrystallization (Bíteš orthogneiss and its country rock), and at the base of the D1 nappe pile the Inner Phyllite Nappe (Biý Potok Unit) is characterized by LT/LP metamorphism. The second stage of tectonic evolution (D2) is characterized by a thin-skinned northward-oriented nappe emplacement that occurred under LT-LP conditions dated at 320-310 Ma. The whole nappe sequence formed during the first tectonometamorphic period (D1) was transported northward over the autochthonous »Deblín polymetamorphic and granitic complex« of Upper Proterozoic age and its Devonian sedimentary cover with very low metamorphism. During this second tectonic event the Brno granite massif (580 Ma) was only marginally incorporated in the Variscan nappe tectonics which resulted in kilometer-scale cover and basement duplexes. The tectonic evolution of the nappe pile ended with stage D3, represented by large- to medium-scale east-vergent folds with limited displacement.

Abstract: Résumé L'empilement des nappes a la bordure orientale du Massif de Bohème est caractérisé par deux stades de mise en place présentant différentes évolutions cinématiques et métamorphiques. La tectonique majeure de mise en place des nappes crustales intervient lors d'un métamorphisme de type barrowien, calé autour de 350-340 Ma. L'empilement qui en résulte montre une superposition systématique d'unités à fort degré de métamorphisme sur des unités moins métamorphiques. Ainsi les complexes cristallins, montrant des reliques de métamorphisme de haute à moyenne pression-haute température (unités cristallines de Svratka et du Moldanubien), chevauchent une unité intermédiaire affectée par un métamorphisme de moyenne à basse pression-moyenne température (l'orthogneiss de Bíteš et son encaissant). A la base de cette pile édifiée durant la tectonique D1, l'unité des phyllites internes (unité de Bílý potok) est caractérisée par un métamorphisme de basse témperature-basse pression. Le second stade D2 de l'évolution tectonique est caractérisé par une tectonique pelliculaire à vergence nord datée à 320-310 Ma. L'empilement résultant de D1 est ainsi transporté vers le nord, au dessus du complexe autochtone d'âge protérozoïque supérieur (groupe de Deblín) et sa couverture sédimentaire dévonienne très faiblement métamorphisée. Le massif granitique de Brno (580 Ma) n'est que marginalement incorporé à cette tectonique de nappe varisque. Ceci se traduit par des duplex socle-couverture d'échelle plurikilométrique. L'évolution tectonique s'achève lors d'une troisième phase, marquée par de grands plis à vergence est. Le déplacement associé est alors d'amplitude limitée.

Notes: Zusammenfassung Der Deckenbau am Ostrand der Böhmischen Masse erfolgte in zwei aufeinanderfolgenden Stadien, die sich sowohl in ihrer Kinematik als auch in ihrer Metamorphoseentwicklung deutlich voneinander unterschieden. Die ältere Phase (D1 ca. 350-340 Ma) ist durch synmetamorphe Überschiebungen charakterisiert. Sie führt zu einer metamorphen Inversion der überschobenen Deckeneinheiten, so daß generell hohe metamorphe Einheiten schwach metamorphe tektonisch überlagern. Der Svratka Komplex und das Moldanubikum als hangendste Decken sind durch MP/HT Paragenesen vom Barrow-Typ gekennzeichnet. Beide Einheiten sind auf den MP/MT-metamorphen Biteš-Gneis und seine Rahmengesteine überschoben. Die Bílý potok Einheit als liegende Decke zeigt nur noch eine LP/ LT Regionalmetamorphose. Das jüngere Stadium (D2 ca. 320-310 Ma) ist durch eine Thin-skinned Tektonik mit nordvergentem Deckentransport unter LP/LT Bedingungen charakterisiert. Der gesamte, invers metamorphe D1-Deckenstapel wird dabei nach N über den autochtonen Deblín Komplex bzw. seine devonische Sedimenthülle überschoben. Das Brno Granit Massiv (580 Ma) wird nur randlich in diesen variszischen Deckenbau einbezogen. Die tektonische Entwicklung endet mit einem mittel bis großräumigen E-vergenten Faltenbau (D3 phase).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01828768

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Crust-mantle relationships in the French Variscan chain: the example of the Southern Monts du Lyonnais unit (eastern French Massif Central) (1990)

GARDIEN, V. ; TEGYEY, M. ; LARDEAUX, J. M. ; [et al.]

Wiley

In: Journal of Metamorphic Geology. 1990; 8(5): 477-492. Published 1990 Sep 01. doi: 10.1111/j.1525-1314.1990.tb00481.x.

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Publication Date: 1990-09-01

Print ISSN: 0263-4929

Electronic ISSN: 1525-1314

Topics: Geosciences

Published by Wiley

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Modification of antiphase domain sizes in omphacite by dislocation glide and creep mechanisms and its petrological consequences (1991)

van Roermund, H. L. M. ; Lardeaux, J. M.

Mineralogical Society of Great Britain and Ireland

In: Mineralogical Magazine. 1991; 55(380): 397-407. Published 1991 Sep 01. doi: 10.1180/minmag.1991.055.380.09.

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Publication Date: 1991-09-01

Description: A T.E.M. study of omphacites from the western Italian Alps (Sesia Lanzo Zone and Monviso eclogites) has revealed a bimodal size distribution of antiphase domains: (a) 250–350 Å, (b) ≥ 2500 Å. In addition observed dislocation substructures and ‘large-scale’ antiphase domains are intimately interconnected.A model is presented that can explain modification of the antiphase domain sizes by the interplay of cooling/growth and dislocation glide and/or creep mechanisms. Subsequent coarsening of the modified antiphase domains is inferred to be the result of surface free-energy processes. The model clearly illustrates that only the ‘relatively undeformed’ areas containing the small-scale antiphase domains can be used for thermometric methods.

Print ISSN: 0026-461X

Electronic ISSN: 1471-8022

Topics: Geosciences