Eocene migmatite formation and diachronous burial revealed by petrochronology in NW Himalaya,Zanskar     

Pavla Štípská  Prokop Závada  Stephen Collett  Andrew R. C. Kylander-Clark  Bradley R. Hacker  Anne-Sophie Tabaud  Martin Racek 《Journal of Metamorphic Geology》2020,38(6):655-691

In this contribution, we highlight the importance of in-situ monazite geochronology linked to P−T modelling for identification of timescales of metamorphic processes. Barrovian-type micaschists, migmatites and augengneiss from the Gumburanjun dome in the southeastern extremity of the Gianbul dome, NW Himalaya, have been studied in order to correlate the early stages of Himalayan metamorphism at different crustal levels and infer the timing of anatexis. P−T−t paths are constrained through combined pseudosection modelling and in-situ and in-mount monazite and xenotime laser ablation–split-stream inductively coupled plasma-mass spectrometry. Petrography and garnet zoning combined with pseudosection modelling show that garnet-staurolite schists record burial from ~530 to 560°C and 5.5 kbar to ~630 to 660°C and 7 kbar; staurolite-kyanite schists from ~530 to 560°C and 5 kbar to ~670 to 680°C and 7−9 kbar; and garnet-kyanite migmatites from 540−570°C and 5 kbar to ~680 to 750°C and 7−10 kbar, probably also to >750°C and >9 kbar above the muscovite stability field. The decompression paths of garnet-staurolite schists indicate cooling on decompression, while garnet rim chemistry and local sillimanite growth point to a stage of re-equilibration at ~600 to 670°C and 4−6 kbar in some of the staurolite-kyanite schists, and at ~670 to 700°C and 6 kbar in garnet-kyanite migmatites. Some of the staurolite-kyanite schists and garnet-kyanite migmatites also contain andalusite or andalusite-cordierite. Monazite and xenotime were analysed in thin sections in garnet, staurolite and kyanite, and in the matrix; and in mounts. BSE images and compositional maps of monazite (xenotime was too small) show variable internal structures from homogeneous through patchy zoning with embayed to sharp boundaries. Two groups of samples can be identified on the basis of the presence or absence of c. 44 − 37 Ma ages. The first group of samples—two garnet-staurolite schists—recorded only c. 31 − 27 Ma ages in porphyroblasts and no c. 40 Ma ages. The second group (samples of staurolite-kyanite schist, garnet-kyanite migmatites, augengneiss) have both the older, c. 44 − 37 Ma monazite ages in porphyroblasts and younger ages down to c. 22 Ma. These significantly different ranges of ages from porphyroblasts of 44−37 Ma, and 31−27 Ma, are interpreted as the duration of prograde P−T paths in Eocene and Oligocene, and indicate diachronous two-stage burial of rocks. Early migmatization occurred at 38 Ma. The c. 29 Ma is interpreted as the time when rocks from the lower and middle crustal levels were partially exhumed and came in to contact with rocks that were downgoing at this time. Localized monazite recrystallization is as young as 26−24 Ma. The youngest ages of 23−22 Ma are related to leucogranite emplacement.  相似文献   

Run‐off formation in a humid,temperate headwater catchment using a combined hydrological,hydrochemical and isotopic approach (Jizera Mountains,Czech Republic)          下载免费PDF全文

M. Šanda  T. Vitvar  A. Kulasová  J. Jankovec  M. Císlerová 《水文研究》2014,28(8):3217-3229

The formation of baseflow and stormflow was examined in the 1.18 km² part of the headwater catchment Uhlí?ská, Jizera Mountains, Czech Republic, over the period 2007–2011, by means of run‐off data and environmental tracers ¹⁸O and SiO₂. The baseflow, computed using the digital filter approach BFLOW, contributes 67% to total streamflow and has a mean residence time of 12.3 months. It is formed by groundwater discharge from the valley deluviofluvial granitic sediments, in combination with soil water in weathered layers on hillslopes during rainfall and snowmelt periods. The prevailing source of the groundwater is the infiltration of snowmelt water. Analysis of 20 run‐off events and their hysteretic patterns demonstrated that the stormflow water has a residence time of about 4 months and is generated by preferential flow on hillslopes combined by soil matrix drainage. Because of slower flow in the soil matrix, the enrichment of pore water in SiO₂ is more pronounced. The stormflow and snowmelt water flowing via preferential pathways of upslope minerals soils pushes the pre‐event groundwater through the pathways in wetlands to the stream, and the wetland can be therefore considered as groundwater supplied. This mechanism has been found to be typical for the groundwater‐supplied headwater catchments of the Jizera Mountains and can be also assumed in other mountainous headwaters of the granitic massif in Central Europe. The main methodological contribution of this study are the residence time calculations stratified by baseflow and event flow, identifying run‐off components of different travel times to streams and linking them with geochemical run‐off sources. This achievement was possible because of a comprehensive dataset on hydrology, stable isotopes and silica hydrochemistry in all relevant run‐off generation components. This concept indicates that a possible long‐term change in snowmelt may affect the run‐off regime of headwater catchments to climate or land‐use changes. Copyright © 2013 John Wiley & Sons, Ltd.  相似文献   

Tectonometamorphic evolution of an intracontinental orogeny inferred from P–T–t–d paths of the metapelites from the Rehamna massif (Morocco)          下载免费PDF全文

P. Wernert  K. Schulmann  F. Chopin  P. Štípská  D. Bosch  M. El Houicha 《Journal of Metamorphic Geology》2016,34(9):917-940

New petrographic and microstructural observations, mineral equilibria modelling and U/Pb (monazite) geochronological studies were carried out to investigate the relationships between deformation and metamorphism across the Rehamna massif (Moroccan Variscan belt). In this area, typical Barrovian (muscovite to staurolite) zones developed in Cambrian to Carboniferous metasedimentary rocks that are distributed around a dome‐like structure. First assemblages are characterized by the presence of locally preserved andalusite, followed by prograde evolution culminating at 6 kbar and 620 °C in the structurally deepest staurolite zone rocks. This Barrovian sequence was subsequently uplifted to supracrustal levels, heterogeneously reworked at greenschist facies conditions, which was followed locally by static growth of andalusite, indicating heating to 2.5–4 kbar and 530–570 °C. The ²⁰⁶Pb/²³⁸U monazite age of 298.3 ± 4.1 Ma is interpreted as minimum age of peak metamorphic conditions, whereas the ages of 275.8 ± 1.7 Ma and 277.0 ± 1.1 Ma date decompression and heating at low pressure, in agreement with previous dating of Permian granitoids intruding the Rehamna massif. The prograde metamorphism occurred during thickening and associated horizontal flow in the deeper crust (S1 horizontal schistosity). The horizontally disposed metamorphic zones were subsequently uplifted by a regional scale antiform during ongoing N–S compression. The re‐heating of the massif follows late massive E–W shortening, refolding and retrograde shearing of all previous fabrics coevally with regionally important intrusions of Permian granitoids. We argue that metamorphic evolution of the Rehamna massif occurred several hundred kilometres from the convergent plate boundaries in the interior of continental Gondwanan plate. The tectonometamorphic history of the Rehamna massif is put into Palaeozoic plate tectonic perspective and Late Carboniferous reactivation of (Devonian)–Early Carboniferous basins formed during stretching of the north Gondwana margin and formation of the Palaeotethys Ocean. The inherited heat budget of these magma‐rich basins plays a role in the preferential location of this intracontinental orogen. It is shown that rapid transition from lithospheric stretching to compression is characterized by specific HT type of Barrovian metamorphism, which markedly differs from similar Barrovian sequences along Palaeozoic plate boundaries reported from Variscan Europe.  相似文献   

Tectono‐metamorphic history recorded in garnet porphyroblasts: insights from thermodynamic modelling and electron backscatter diffraction analysis of inclusion trails     

E. SKRZYPEK  K. SCHULMANN  P. ŠTÍPSKÁ  F. CHOPIN  J. LEHMANN  O. LEXA  J. HALODA 《Journal of Metamorphic Geology》2011,29(4):473-496

In a Barrovian metamorphic sequence, garnetiferous mica schists document a heterogeneously developed superposition of sub‐orthogonal fabrics and multiple garnet growth episodes. In the variably deformed domains, four types of garnet porphyroblasts have been defined based on inclusion trail patterns. Modelled garnet zoning in the MnNCKFMASHTO system indicates a prograde evolution from 4–4.5 kbar and 490–510 °C to 5–6 kbar and 520–550 °C in the earliest subhorizontal fabric progressing towards 6.5–7.5 kbar and 560–590 °C in the subsequent subvertical foliation. This fabric is heterogeneously deformed into a shallow‐dipping retrograde foliation associated with garnet resorption. In situ electron backscatter diffraction measurements of ilmenite inclusions in individual garnet grains yield precise data on included planar and linear elements. Consistent orientations of internal foliations, lineations and foliation intersection axis sets indicate a superposition of three sub‐orthogonal foliation systems. Weak variations of internal records with increasing intensity of deformation suggest that a moderate buckling stage occurred, but apparent lack of porphyroblast rotation is interpreted as a result of dominant passive flow. Coupling the orientation of internal fabric sets with P–T estimates is used to complement the tectono‐metamorphic evolution of the thickened crust. We demonstrate that garnet porphyroblasts preserve features which reflect large‐scale tectonic processes in orogens.  相似文献   

Seismic Hazard of the Circum-Pannonian Region,Reprint from Pure and Applied Geophysics (PAGEOPH), Vol.l57(2000), No.1/2, 284 pages     

Šílený  J. 《Studia Geophysica et Geodaetica》2001,45(1):105-106

Studia Geophysica et Geodaetica -  相似文献   

book review     

Z. Švestka 《Solar physics》1999,184(1):219-220

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Neue Vorstellungen über den Tiefbau von Vorsenken     

Igor Alexandrovič Rezanov  Vladimir Ivanovič Ševčenko 《International Journal of Earth Sciences》1973,62(3):958-968

Zusammenfassung Der geologische Tiefenbau und die Entwicklungsgeschichte der Kopetdag-, Terek-Kaspi-, Indol-Kuban- und Karpaten-Vorsenke sind ähnlich. Es zeigt sich, daß die genannten Vorsenken keine Zonen kurzzeitiger Durchbiegungen sind, die sich in der orogenen Schlußentwicklungsetappe des alpidischen Faltengebietes gebildet haben, sondern daß sie langlebige negative Strukturen darstellen. Die Intensität ihrer Durchbiegung zu Beginn des alpidischen geotektonischen Zyklus (in der Jura und Kreidezeit) ist mit der Größe der Absenkung im Neogen-Quartär vergleichbar. Im Verlaufe des gesamten alpidischen Zyklus entwickelten sich die Senken posthum.Überall dort, wo notwendige geophysikalische Untersuchungen durchgeführt wurden, wurde unter diesen Senken unterhalb eines mächtigen alpidischen Gesteinskomplexes ein genauso mächtiger Sedimentkomplex variszischen Alters festgestellt. Territorial fallen die Zonen der maximalen Mächtigkeiten des variszischen und alpidischen Gesteinskomplexes zusammen.

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Structure and development of the Pre-Copetdag, Terek-Caspian, Indol-Kuban, and Pre-Carpathian fore deeps are similar. The fore deeps were not zones of short term subsidence during the final stage of orogenic development of the Alpine folded belt, but they were long term subsidence zones. The rates of subsidence at the beginning of the Alpine geotectonic cycle (during Jurassic and Cretaceous) and at the end of the cycle (during Neogene and Quaternary) are comparable.Wherever geophysical investigations were carried out in this zone, beneath the Alpine sediments a Hercynian sediment complex of equal thickness was found. The areas of maximum thickness in both complexes coincide.

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Résumé La structure géologique et le développement historique des avant-fosses de Copetdag, Terek-Caspienne, Indol-Kouban et des Carpates sont semblables. Il appert que ces dépressions ne sont pas des zones d'inflexion de courte durée qui se sont formées pendant l'étape finale du plissement alpin, mais qu'ils présentent des structures négatives de longue durée. L'intensité de leur affaissement au commencement du cycle géotectonique alpin (au Jurassique et au Crétacé) est comparable, en grandeur, avec celui de la période néogène-quaternaire. Au cours de l'ensemble du cycle alpin, les dépressions se sont développées de façon posthume.Partout où ont eu lieu des explorations géophysiques, nous avons découvert sous ces avant-fosses, un épais complexe de roches alpines, et sous elles un complexe aussi puissant de sédiments varisques. Spatialement les zones des puissances maximum des complexes alpins et varisques coïncident.

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Order-disorder relations in natural and heated rhomb porphyry plagioclases     

A. B. Harnik  Gorica Šoptrajanova 《Contributions to Mineralogy and Petrology》1973,40(1):75-78

Several plagioclase samples from core and rim of rhomb porphyry phenocrysts of the Oslo region were heated under dry conditions at 1050° C for 1, 10, 97, and 811 hours. X-ray powder photographs show that the structurally disordered to intermediate core and rim plagioclases crystallized under similar conditions. Between the slope of the [(2 ₁₃₁–2 _1¯31) vs. heating time]-curve and the potassium content in solid solution of these plagioclases exists the relation: the lower the K content, the steeper is the slope.Dr. Gorica Harnik-optrajanova, EMPA, Swiss Federal Laboratory for Testing Materials and Research, Überlandstraße 129, CH-8600 Dübendori, Switzerland.  相似文献   

Cs137 gamma-ray absorption in eclogites     

Věra Vaňková  Vladislav BabuŠka 《Studia Geophysica et Geodaetica》1973,17(1):67-67

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Beitrag Zur Ökonomie Der Ausnützung Von Luftaufnahmen     

Karel Tomsa  Rezensent J. Šmidrkal 《Studia Geophysica et Geodaetica》1973,17(2):179-186

Résumé L'auteur décrit une combinaison de l'aérotriangulation en bloc — le bloc étant obtenu par raccordement de bandes — et de l'orthophotoplan. Ce procédé topographique largement automatisé est convenable pour un terrain montagneux et mal accessible (Fig. 1; Tab. 1, 2). L'auteur prouve par une analyse théorique de même que par des travaux expérimentaux et de routine qu'il est possible de contrôler le gauchissement des blocs à base de leurs écarts, constatés sur le recouvrement des bandes de clichés et que le nombre des points de repère est réduit au minimum (Fig. 2, 3; Tab. 1).

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Herrn Prof. Dr. Frantiek Fiala zum 90-sten Geburtstag gewidmet  相似文献