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1.
In the northwestern part of nienik metamorphic unit the central position is occupied by metabasites of three textural types: gabbro-amphibolites, coarse-grained amphibolites, fine-grained laminated amphibolites. The last type is widespread in the area of 12 km2, forming a belt in the vicinity of Trzebieszowice south of Kodzko. Metabasites separate two zones in nienik metamorphic unit Structural directions in both these zones are quite different. Cloos (1922) used the term »virgation« to describe this phenomenon. Recently, structural analysis (Wojciechowska 1980) suggests the key position of metabasites for the origin of the virgation. Their chemical composition corresponds to calc-alcaline series of island arc volcanites (Ewart &Bryan 1972). Similar is the composition of amphibolites from Kodzko metamorphic unit north of Kodzko. Together with metabasite bodies of eastern and south-eastern crust of the Karkonosze granitoids massif (Narebski 1981), they form a spatial pattern which may be connected with dextral transform fault. Differentiated displacement of rock bodies along such a structural line may be responsible for the observed virgation in nienik metamorphic unit.Investigation of mesostructures enabled to construct temporal model of deformation successions for the NW part of the nienik metamorphic unit since Vendian (Lower Cambrian when the sedimentation started to Upper Carboniferous) Permian consolidation of Kodzko granitoids massif which was formed at the end of crystalline complex development.
Zusammenfassung Im nordwestlichen Teil der metamorphen Einheit von nienik liegen in zentraler Position Metabasite, die sich in drei Typen teilen lassen: Gabroamphibolite, grobkörnige Amphibolite und feinkörnig laminierte Amphibolite. Die letzteren sind auf ein Gebiet von 12 km2 erschlossen und formen eine Zone nahe bei Trzebieszowice südlich von Kodzko. Metabasite teilen die metamorphe Einheit von nienik in 2 Zonen, die unterschiedliche Strukturrichtungen aufweisen. H.Cloos (1922) bezeichnete dieses Phänomen als »Virgation«. Neuere Strukturanalysen (Wojciechowska 1980) weisen den Metabasiten für die Entstehung dieser Virgation eine Schlüsselposition zu. Der Chemismus dieser Metabasite entspricht Kalk-Alkali-Serien eines Inselbogentypes (Ewart &Bryan 1972). ähnlich ist die Zusammensetzung von Amphiboliten in der Kodzko-Einheit. Zusammen mit Metabasiten aus dem östlichen und südöstlichen Teil des Granitoid-Massives von Karkonosze (Narebski 1981) bilden sie ein Strukturmuster, das man mit einer dextralen Transform-Verschiebung in Verbindung bringen kann. Blattverschiebungen entlang einer derartigen tektonischen Struktur werden für die Virgation der metamorphen Einheit von nienik verantwortlich gemacht. Eine Strukturanalyse erlaubt ein zeitliches Modell der Deformationsabfolgen im nordwestlichen Teil der metamorphen Einheit von nienik vorzunehmen. Die Sedimentation beginnt im Wendium/Unterkambrium und reicht bis in das Oberkarbon/Perm, als das Granitoid-Massiv von Kodzko nach Beendigung der Deformation der Kristallinkomplexe konsolidiert wurde.
Résumé Dans l'unité métamorphique de Snieznik, la partie centrale est occupée par des métabasites de trois types texturaux: des gabbro-amphibolites, des amphibolites grenues et des amphibolites laminées à grain fin. Ce dernier type est confiné à une zone allongée de 12 km2 aux environs de Trzebieszowice, au Sud de Klodsko. Les métabasites séparent le cristallin de Snieznik en deux zones qui diffèrent par leurs direction structurales.CLOOS (1922) a utilisé le terme de »virgation« pour désigner ce phénomène. Des analyses structurales récentes (Wojciechowska 1980) conduisent à attribuer aux métabasites une position-clé à l'origine de cette virgation. Leur chimisme correspond aux séries calcoalcalines d'arcs insulaires (Ewart etBryan 1972). Les amphibolites de l'unité métamorphique de Klodzko ont des compositions similaires. Elles forment avec les métabasites de la bordure est et sud-est du massif granitoÏde de Karkonosze (Narebski 1981) un ensemble que l'on peut associer à une faille transformante dextre. Des déplacements relatifs le long d'une telle ligne structurale peuvent Être tenus pour responsables de la virgation observée dans l'unité de Snieznik.De l'étude des mésostructures on déduit un modèle de l'histoire des déformations successives qui ont affecté la partie nord-ouest de l'unité de Snieznik depuis le début de la sédementation, au Vendien / Eocambrien jusqu'à la consolidation du massif granitoÏde de Klodzko qui marque, au Carbonifère supérieur / Permien la fin de l'histoire du complexe cristallin.
- - , . 1922 . Q, S L. . , .
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2.
Mean and turbulent velocity measurements of supersonic mixing layers   总被引:1,自引:0,他引:1  
The behavior of supersonic mixing layers under three conditions has been examined by schlieren photography and laser Doppler velocimetry. In the schlieren photographs, some largescale, repetitive patterns were observed within the mixing layer; however, these structures do not appear to dominate the mixing layer character under the present flow conditions. It was found that higher levels of secondary freestream turbulence did not increase the peak turbulence intensity observed within the mixing layer, but slightly increased the growth rate. Higher levels of freestream turbulence also reduced the axial distance required for development of the mean velocity. At higher convective Mach numbers, the mixing layer growth rate was found to be smaller than that of an incompressible mixing layer at the same velocity and freestream density ratio. The increase in convective Mach number also caused a decrease in the turbulence intensity ( u /U).List of Symbols a speed of sound - b total mixing layer thickness betweenU 1 – 0.1U andU 2 + 0.1U - f normalized third moment ofu-velocity,f u 3/(U)3 - g normalized triple product ofu 2 v,g u 2 v/(U)3 - h normalized triple product ofu v 2, h uv' 2/(U)3 - l u axial distance for similarity in the mean velocity - l u axial distance for similarity in the turbulence intensity - M Mach number - M c convective Mach number (for 1=2),M c (U 1U 2)/(a 1+a 2) - P static pressure - r freestream velocity ratio,rU 2/U 1 - Re unit Reynolds number,Re U/ - s freestream density ratio,s 2/ 1 - T t total temperature - u instantaneous streamwise velocity - u deviation ofu-velocity,u u–U - U local mean streamwise velocity - U 1 primary freestream velocity - U 2 secondary freestream velocity - U average of freestream velocities, ¯U (U 1 +U 2)/2 - U freestream velocity difference,U U 1U 2 - v instantaneous transverse velocity - v deviation ofv-velocity,v v – V - V local mean transverse velocity - x streamwise coordinate - y transverse coordinate - y 0 transverse location of the mixing layer centerline - ensemble average - ratio of specific heats - boundary layer thickness (y-location at 99.5% of free-stream velocity) - similarity coordinate, (yy 0)/b - compressible boundary layer momentum thickness - viscosity - density - standard deviation - dimensionless velocity, (UU 2)/U - 1 primary stream - 2 secondary stream A version of this paper was presented at the 11th Symposium on Turbulence, October 17–19, 1988, University of Missouri-Rolla  相似文献   

3.
The junctions of cracks in mudcrack, patterned ground, and columnar joint patterns can be categorized into Y, T,and Xtypes. The mean number of sides, ,to the polygonal areas in such nets is = 2(2JT + 3JY + 4JX)/(JT + JY + 2JX)where JT, JY,and JX are the proportions of T, Y,and Xjunctions, respectively.  相似文献   

4.
Thermal treatments of anorthite carried out at up to 1,547° C show that the unit cell parameter changes as a function of the treatment temperature. The best fit curve found by non-linear least squares analysis is: =91.419-(0.327·10-6)T 2+(0.199·10-12)T 4-(0.391·10)T 6. The results obtained support significant Al,Si disorder (Al0.10, where Al=t 1(0)-1/3 [t 1(m)+t 2(0)+t 2(m)], Ribbe 1975), in anorthite equilibrated near the melting point and confirm a high temperature series differentiated from the low temperature series for calcic plagioclases in the An85–An100 range also. In the plot vs. An-content the high and low temperature curves intersect at An85 composition and progressively diverge in the An85–An100 range. The trends of the high and low temperature curves in this range are interpretable on the basis of the degree of Al, Si order in the average structures of calcic plagioclases.  相似文献   

5.
In closed magma systems SiO2 approximately measures differentiation progress and oxygen isotopes can seem to obey Rayleigh fractionation only as a consequence of the behaviour of SiO2. The main role of 18O is as a sensitive indicator of contamination, either at the start of differentiation ( 18Oinit) or as a proportion of fractionation in AFC. Plots of 18O vs SiO2-allow to determine initial 18O values for different sequences for source comparison. For NBS-28=9.60, the 18O at 48% SiO2-varies between a high 6.4 for Kiglapait (Kalamarides 1984), 5.9 for Transhimalaya, 5.8 for Hachijo-Jima (Matsuhisa 1979), 5.6 for Koloula (Chivas et al. 1982) and a low 5.3 for the Darran Complex, New Zealand. The Transhimalayan batholiths (Gangdese belt) were emplaced in the Ladakh-Lhasa terrane, between the present-day Banggong-Nujiang, and Indus-Yarlung Tsangbo suture zones, after its accretion to Eurasia. The gradient of the least contaminated continuous ( 18O vs SiO2-igneous trend line is similar to that of Koloula, and AFC calculations suggest a low secondary assimilation rate of less than 0.05 times the rate of crystallisation. Outliers enriched in 18O are frequent in the Lhasa, and apparently rare in the Ladakh transsect. Low- 18O (5.0–0) granitoids and andesites on the Lhasa-Yangbajain axis are the result of present day or recent near-surface geothermal activity; their quartzes still trace the granitoids to the Transhimalaya 18O trend line, but the distribution of low total rock or feldspar 18O values could be a guide to more recent heat flow and thermally marked tectonic lineaments. Two ignimbrites from Maqiang show hardly any 18O-contamination by crustal material.  相似文献   

6.
A thermodynamic analysis of the intermediate solid solution (Iss) of near-cubanite composition has been attempted by considering an Fe–Zn exchange equilibrium between Iss and sphalerite. The interchange free-energy parameter of Fe–Zn mixing in Iss (WIss) and the free energy of the exchange equilibrium (G1,T ) have been deduced at 500, 600, 700 and 723° C using the compositional data of sphalerite and Iss from phase equilibrium experiments and by the standard method of linear regression analysis. For sphalerite, two independent activity-composition models have been chosen. The extracted values of G1,T and WIss, using both models, are compared. Although the values match, the errors in the extracted parameters are relatively larger when Hutcheon's model is used. Both G1,T and WIss show linear variations with temperature, as given by the following relations: G1,T = –35.41 + 0.033 T in kcal (SE=0.229)WISS= 48.451 – 0.041 T in kcal (SE=0.565) Activity-composition relations and different mixing parameters have been calculated for the Iss phase. A large positive deviation from ideality is observed in Iss on the join CuFe2S3–CuZn2S3. No geothermometric application has been attempted in this study, even though Iss of cubanite composition (isocubanite) in association with sphalerite, pyrite and pyrrhotite is reported from seafloor hydrothermal deposits. This is due to the fact that: (a) the temperatures of formation of these deposits are significantly lower than 500° C, the lower limit of appropriate experimental data base; (b) microprobe data of the coexisting isocubanite and sphalerite in the relevant natural assemblages are not available.Symbols a J i activity of component i in phase J - G1, T standard free energy change of reaction (cal) - GIM free energy of ideal mixing (cal) - GEM free energy of excess mixing (cal) - G M ex free energy of mixing (cal) - G i excess free energy of mixing at infinite dilution (cal) - i J activity coefficient of component i in phase J - i J, 0 standard chemical potential of component i in phase J (cal) - ; i J chemical potential of component i in phase J (cal) - R universal gas constant (1.98717 cal/K·mol) - T temperature in degree (K) - WJ interchange free energy of phase J in (cal) - X J i mole fraction of component i in phase J  相似文献   

7.
Assuming that the partial molar volume of each chemical component in a magma is constant, the magma density, m , is expressed as 1/ m =C i / fi , whereC i is the weight fraction, and fi is the fractionation density of thei th component. Using this linear relationship between 1/ and weight fraction, the density change due to addition or subtraction of any component can be graphically estimated on 1/ vs oxide wt% diagrams. The compositional expansion coefficient of thei th component, fi , is expressed as i = m / fi –1. The compositional expansion coefficient of H2O has a much larger absolute value than those of any other oxide or mineral components, showing that addition of a small amount of H2O can significantly decrease magma density. These simple expressions facilitate the estimation of magma densities during fractionation.  相似文献   

8.
Sea water basalt interaction in spilites from the Iberian Pyrite Belt   总被引:2,自引:0,他引:2  
Low grade hydrothermally metamorphosed mafic rocks from the Iberian Pyrite Belt are enriched in 18O relative to the oxygen isotopic ratio of fresh basalt (+6.5±1). The observed 18O whole rock values range from +0.87 to +15.71 corresponding to positive isotopic shifts of +5 to +10, thus requiring isotopic exchange with fluids under conditions of high water:rock ratios at low temperatures. The lowest 18O observed corresponds to an albitized dolerite still and is compatible with independent geochemical data suggesting lower water: rock ratios for the alteration of these rocks.The isotope data are consistent with the hypothesis that the spilites from the Pyrite Belt were produced by interaction of basaltic material with sea water.Significant leaching of transition metals from the mafic rocks during alteration coupled with available sulphur isotopic data for the sulphide ores also suggest that sea water may have played an important role in the formation of ore deposits in the Iberian Pyrite Belt.  相似文献   

9.
Summary In saturated rocks and soils it is possible to define different coefficients of thermal expansion depending on the drainage conditions. This topic is first examined from the theoretical point of view with regard to an ideal isotropic thermo-elastic porous medium. Some special features of the behaviour of natural soils and rocks during thermal expansion tests are subsequently discussed. An experimental evaluation of some of these coefficients is presented in the second part of the paper. The material investigated is a pyroclastic rock, the so-called Neapolitan Yellow Tuff. Thermal expansion coefficient in drairend conditions has been evaluated, when this material is saturated with water. The e pressure increase induced by heating has been measured in undrained tes temperatures investigated range between room temperature up to 225°C.Different types of apparatus have been used and, when possible, a comparison between the results has been proposed. The results obtained in undrained thermal expansion tests are in agreement with theoretical predictions. This research is part of an on-going study of the complex phenomena known as Bradyseism, which is occurring in a volcanic area a few kilometers from Naples (Italy). Some considerations on this phenomenon are drawn in the last paragraph of the paper.List of Symbols l linear thermal expansion coefficient - s volumetric thermal expansion coefficient of the solid phase - ss volumetric drained thermal expansion coefficient of the solid skeleton - st volumetric drained thermal expansion coefficient that takes into account variations of porosity induced by heating - t volumetric drained thermal expansion coefficient of the whole system - u volumetric undrained thermal expansion coefficient of the whole system - v volumetric thermal expansion coefficient - w volumetric thermal expansion coefficient of the water - l * volumetric thermal expansion coefficient of the distilled water - Biot's coefficient - d dry specific gravity - s specific gravity of the solid phase - r ' uniaxial compressive strength - r ' yield stress in isotropic compression - B T parameter relating undrained thermally generated pore pressure with temperature change - d 0 maximum uplift during Bradyseismic crises - d f residual uplift during Bradyseismic crises - K s compressibility modulus of the solid phase - K ss compressibility modulus of the solid skeleton - K w compressibility modulus of the water - n porosity - T temperature - T 0 initial temperature in thermal expansion, tests performed in thermal expansion cell - T m temperature at which the volume of waterV Eexpelled from thermal expansion cell. is measured - V volume of the solid skeleton - V E volume expelled from thermal expansion cell - V 0 volume of the expansion cell at temperatureT 0 - V s volume of the solid phase  相似文献   

10.
Violent volcanism developed in the central part of the Caucasus during the last stage of the Alpine orogenic cycle. Three main epochs of volcanic development are here established: the first -late Miocene-early Pliocene; the second-late Pliocene; the third — Quaternary. These epochs of volcanic activity can be subdivided into a series of phases and subphases. The total volume of volcanic products is in the order of 2000 km3. The acidic volcanic rocks are mostly rhyolitic ignimbrites and have a volume larger than 800–820 km3.
Zusammenfassung Im Zentralteil des Großen Kaukasus tritt im Spätstadium des alpinen orogenen Zyklus ein starker Vulkanismus auf. Drei Hauptzeiten der vulkanischen Entwicklung werden verzeichnet: zunächst im späten Miozän bis frühen Pliozän; zweitens im späten Pliozän; drittens im Quartär. Die Zeiten der Vulkantätigkeit können in Phasen und Subphasen unterteilt werden. Das Gesamtvolumen der Vulkanprodukte beträgta etwa 2000 km3, wobei saure Gesteine, vorwiegend rhyolithische Ignimbrite, nicht weniger als 800–820 km3 umfassen.
Résumé Dans la partie centrale du Grand Caucase, au stade postérieur du cycle orogénique se manifeste un volcanisme très fort. On distingue trois époques principales d'activité volcanique: 1re - miocène postérieur-pliocène antérieur;2me -pliocene postérieur; 3 me - quaternaire. Les époques de l'activité volcanique sont subdivisées en phases et sous-phases. Le volume commun des produits volcaniques est environ 2000 km3; les roches acides généralement sont les brêches de nuées ardents à liparite, dont le volume est non moins 800–820 km3.
. 3 : ; , — . . 2000 3; , . ., .

Dedicated to Professor Dr. A.Rittmann on the occasion of his 75. birthday  相似文献   

11.
In-situ synchrotron X-ray diffraction experiments were conducted using the SPEED-1500 multi-anvil press of SPring-8 on stishovite SiO2 and pressure-volume-temperature data were collected at up to 22.5 GPa and 1,073 K, which corresponds to the pressure conditions of the base of the mantle transition zone. The analysis of room-temperature data yielded V0=46.56(1) Å3, KT 0=296(5) GPa and K T =4.2(4), and these properties were consistent with the subsequent thermal equation of state (EOS) analyses. A fit of the present data to high-temperature Birch-Murnaghan EOS yielded (KT /T) P =–0.046(5) GPa K–1 and = a + bT with values of a =1.26(11)×10–5 K–1 and b =1.29(17)×10–8 K–2. A fit to the thermal pressure EOS gives 0=1.62(9)×10–5 K–1, ( K T / T) V =–0.027(4) GPa K–1 and (2P /T 2) V =27(5)×10–7 GPa K–2. The lattice dynamical approach by Mie-Grüneisen-Debye EOS yielded 0=1.33(6), q =6.1(8) and 0=1160(120) K. The strong volume dependence of the thermal pressure of stishovite was revealed by the analysis of present data, which was not detectable by the previous high-temperature data at lower pressures, and this yields ( K T / T) V 0 and q 1. The analyses for the fictive volume for a and c axes show that relative stiffness of c axis to a axis is similar both on compression and thermal expansion. Present EOS enables the accurate estimate of density of SiO2 in the deep mantle conditions.  相似文献   

12.
The volume of fluid and amount of heat involved in a portion of a metamorphic event around three synmetamorphic granitic stocks has been quantitatively estimated using mineral composition and modal data from carbonate rocks. Values of volumetric fluid-rock ratios range, with respect to a reference zoisite isograd, from 0.001 to 0.434. Amounts of heat involved range from –25 to 134 cal/cm3 rock. Contours of constant fluid-rock ratio and of constant amount of heat are generally concentric about the granitic stocks indicating that the stocks are foci of high heat and fluid fluxes during metamorphism. In addition, contours of fluid-rock ratios and amount of heat outline NE-SW-trending channelways of high fluid and heat fluxes that alternate with regions of lower fluid and heat fluxes. The NE-SW-trending vertical bedding and schistosity in the area — of premetamorphic origin — probably constrained fluid and heat transfer to occur preferentially in NE-SW directions. Large values of heat involved in metamorphism are strongly correlated with large fluid-rock ratios, suggesting that fluids are an important carrier of heat during metamorphism. Configurations of mapped isograds in the area mimic the patterns of contours of constant fluid-rock ratio and of heat content, indicating that configurations of isograds may contain useful information about regional patterns of heat and fluid transfer during metamorphism.Notation T Last temperature recorded by metacarbonate rocks (°C) - P Lithostatic pressure (bars) - Pi Partial pressure of component i (bars) - of last fluid in equilibrium with carbonate rocks during metamorphism - R 1.987 cal/bar-degree - K s Activity constant for an assemblage of solid mineral phases - In Natural logarithm - c v Volumetric heat capacity (cal/cm3-degree) - Q Heat added to or subtracted from a rock during metamorphism in the zoisite zone (kcal/100 cm3 rock; cal/cm3 rock) - Q{ibrxn} Heat added to or subtracted from a rock due to mineral reactions during metamorphism in the zoisite zone (kcal/100 cm3 rock; cal/cm3 rock) - Std. Dev. Standard Deviation - Average of fluid in equilibrium with carbonate rocks during their metamorphism in the zoisite zone - of fluid in equilibrium with carbonate rocks at the zoisite isograd - T Temperature at the zoisite isograd (°C) - X i,j Mole fraction of component i in phase j - H i Molar enthalpy of reaction i at 0 bars pressure - ¯V i Change of molar volume due to reaction ii - i Measure of progress of reaction i - V Change in rock volume due to fluid-rock reactions - iV Initial rock volume before metamorphism within the zoisite zone - ¯V s,i Change in molar volume of solid minerals due to reaction i Component notation an CaAl2Si2O8 Phase notation Pl Plagioclase - Am Amphibole - Cc Calcite - Qz Quartz - Di Diopside - Zo Zoisite - Ga Garnet - Bi Biotite - Kf Microcline - Mu Muscovite  相似文献   

13.
The following main units have been recognized as Archaean basement rocks in central Brazil: a) High-grade granite-gneiss terrain composed predominantly by granodioritic and tonalitic gneisses; these rocks are cut by amphibolite dykes and present several nucleii locally surrounded by an array of Archaean greenstone belts, b) Greenstone belts presenting basal komatiitic ultramafic-mafic lavas with abundant spinifex textures, followed by basalts and chemical sediments such as cherts, limestones and graphitic pelites, that are often interbedded with acid and intermediate volcanics; metamorphism is within greenschist facies. Granulite mobile belt, including the granulitized mafic-ultramafic complexes of Barro Alto, Niquelândia and Brava. The Lower Proterozoic is represented by: a) metasedimentary sequences overlying the granite-greenstone terrains, with several tin bearing granite intrusions. b) Gabbro-anorthosite layered plutons and their associated mafic volcanics which are followed by acid and intermediate volcanics and ocean floor sediments. c) Mafic-ultramafic layered intrusions in the granulite terrain.
Zusammenfassung Im zentralen Brasilien wurden folgende Haupteinheiten als Archaischer Sockel erkannt: a) hochmetamorphes Granit-Gneis-Gebiet mit vorwiegend granodioritischen und tonalitischen Gneisen; diese Gesteine werden von amphibolitischen Gängen durchschlagen. Sie bilden einzelne Kerne, die von Zonen Archaischer Grünsteingürtel umgeben werden. b) Grünsteingürtel, die basale komatiitische ultramafitische bis mafischen Laven representieren mit häufig auftretenden Spinifex-Gefügen. Diesen folgen Basalte und chemische Sedimente wie Kieselschiefer, Kalke und graphitische Pelite, in die häufig saure und intermediäre Vulkanite eingeschaltet sind. Die Metamorphose liegt in der Grünschiefer-Fazies. c) Mobiler Granulit-Gürtel, der die granulitisierten mafisch-ultramafischen Komplexe von Barro Alto, Niquelândia und Cana Brava einschließt.Das untere Proterozoikum wird durch folgende Einheiten vertreten: a) Metasedimentfolgen, die die Granit-Grünstein-Serien überlagern und die einige zinnführende GranitIntrusionen aufweisen. b) Lagige Gabbro-Anorthosit-Plutone mit dazugehörenden mafischen Vulkaniten, die von sauren und intermediären Vulkaniten und ozeanischen Sedimenten gefolgt werden. c) Mafisch-ultramafische Intrusionen innerhalb des Granulit-Gebietes.
Resumo As seguintes unidades geológicas principais foram reconhecidas no embasamento da região central do Brasil: a) Terrenos granito-gnáissicos constituídos dominantemente por gnaisses de composição granodiorítica e tonalítica cortados por diques de anfibolito e mostrando vários núcleos graníticos localmente envolvidos por seqüências vulcano-sedimentares do tipo greenstone belt. b) Cinturões arqueanos de rochas verdes apresentando na base lavas komatiíticas com abundantes texturas tipo spinifex, seguidas de basaltos almofadados e de sedimentos químicos tais como chert, calcário e pelitos grafitosos, frequentemente intercalados com vulcânicas intermediárias e ácidas; o metamorfismo é de facies xisto verde. c) Cinturão móvel granulítico incluindo os complexos granulitizados de Barro Alto, Niquelândia e Cana Brava. Proterozóico Inferior é representado por: a) Seqüências sedimentares sobrepostas aos terrenos granito-greenstone, localmente intrudidas por granitos estaniferos; b) Plutões gabro-anortosíticos acamadados; c) Intrusões máfico-ultramáficas alojadas nos terrenos granulíticos.-- : ) - ; , , ) , . , , , , , . ; ) , - Barro Alto, Niguelandia Brava. : ) , - , , ; ) -- , ; ) - .
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14.
The metamorphic evolution of the Western Gneiss Region of Norway (WGR) can be evaluated from examination of eclogites formed as an integral part of the gneiss terrain (ie. in situ). Petrologic data from one of the larger country-rock eclogites within the northwestern part of WGR have been used to construct a P, T, t-path for this crustal volume. Textural relations as well as mineral composition and zonation suggest an early period of amphibolite facies conditions, followed by movement along a very steep positive P/T-gradient towards very high pressure (P25 kb) and moderate temperature (T600° C). Orthopyroxene coexisting with garnet at such conditions was poor in Al (<0.5 wt% Al2O3) and is preserved in the cores of orthopyroxene grains in garnet websterites. The increasing Al-content of orthopyroxene towards garnet, and increasing edenite substitution rimwards in zoned amphiboles, suggest a period of decompression accompanied by heating, towards the metamorphic maximum at T 750° C, P20kb. Garnet zoning reflects a general prograde history, but the reactions that control the zoning are insensitive to pressure changes. Jadeitic pyroxenes may have formed in the gneisses at P-max, but would revert to plagioclase subsequent to the metamorphic maximum, giving rise to the observed mineralogy. Further decompression and cooling continued towards high-rank amphibolite facies conditions. This P, T, t-path reflects crustal thickening to 80–90 km during Caledonian time. The uplift path is qualitatively similar to theoretically derived paths in which uplift is assumed to be controlled by erosion. However, uplift following the metamorphic maximum may have been accelerated by a period of suture progradation.  相似文献   

15.
Résumé Après un inventaire des différents critères de structure qu'offrent les dÔmes phonolitiques, et une présentation de leur méthode d'étude, le problème du choix des critères les plus efficaces est discuté.Les relations entre fluidalité, croissance et orientation des minéraux, débit en lauzes et prismation sont présentées en fonction du processus de mise en place de ces extrusions visqueuses endogènes.L'étude de l'orientation des lauzes se montre la plus efficace pour connaÎtre les conditions d'extrusion des dÔmes phonolitiques.Un certain nombre de massifs phonolitiques du Cantal sont donnés en exemple, et une brève synthèse sur les différentes formes structurales présentes est tentée.
The structure of phonolitic domes was studied using various criteria: orientation of phenocrysts, size and shape of crystals, texture of the groundmass determined by X-ray diffraction, flow-structure and jointing. The most efficient criteria are discussed.The relationship between flow-structure, growth and orientation of the minerals, sheeting and jointing are studied with respect to the emplacement process of the volcanological evolution of these viscous extrusions.The orientation of the lauzes (sheets) proves most indicative of conditions of extrusion of the phonolitic domes, whereas the jointing only indicates their cooling history.Some phonolitic domes of Cantal are shown, and a short synthesis of various structural types is made.
Zusammenfassung Die Struktur von Phonolith-Domen wurde anhand verschiedener Kriterien untersucht: Orientierung der Phenocrysten, Grö\e und Form der Kristalle, durch Röntgendiffraktion bestimmte Textur der Grundmasse, Flie\struktur und Klüftung.Die Beziehungen zwischen Flie\struktur, Wachstum und Orientierung der Minerale, bankiger Absonderung und Klüftung werden untersucht unter Berücksichtigung der vulkanischen Geschichte dieser viskosen Extrusionen, wobei sich die Untersuchung der Bankungsrichtung am aufschlu\reichsten für die Kenntnis der Extrusionsgeschichte der Phonolith-Dome erweist.Eine Reihe von Phonolith-Massiven des Cantal werden als Beispiel angeführt, und eine kurze Synthese der verschiedenen Strukturformen wird dargestellt.
Cantal, : , , , . , , , ; , . Cantal .
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16.
Zusammenfassung Die röntgenfluoreszenzanalytische Bestimmung von Kalium und Rubidium in 210 basaltoiden und granitoiden Gesteinen der Böhmischen Masse (Waldviertel), der Ost- und Westalpen und Dinariden zeigt, daß im Anschluß an neuere Arbeiten der Durchschnittswert an K/Rb für Basalte vermutlich höher, in Graniten tiefer anzusetzen ist, als allgemein angenommen wird.In der Abfolge von Effusiv- und Intrusivgesteinen ist in mehreren Fällen eine Abhängigkeit des K/Rb-Wertes von der zeitlichen Abfolge (z. B. varistische Granite des Waldviertels, oststeirisches Vulkangebiet) festzustellen, bei der der K/Rb-Wert von basischeren zu sauren Gliedern abnimmt.Oberflächennahe Intrusionen und autometasomatisch veränderte Granitoide zeigen besonders niedrige Werte, die in ein eigenes Konzentrationsfeld fallen. Konkordante Granitoide haben K/Rb-Werte > 150, diskordante < 150.
Summary X-ray fluorescence analyses of potassium and rubidium of 210 basaltic and granitic rocks of the Bohemian Mass (Waldviertel), of the Eastern and Western Alps, and Dinarides show higher average values of K/Rb-ratios for basalts, lower ones for granites, than generally supposed.The sequency of volcanic and plutonic rocks is controlled by the K/Rb-values, as shown in some cases (such as Hercynian granites of the Waldviertel, Tertiary volcanic rocks of the Alpes etc.). The K/Rb-ratio increases from basic to acid members.Intrusions near the surface and autometasomatically changed granitic rocks show particularly low values, which fall into a special field of concentration. Concordant granites tend to K/Rb-values > 150, discordant ones to < 150.
Résumé L'analyse par fluorescence X du potassium et du rubidium dans des roches basaltiques et granitiques du Massif Bohêmien (Waldviertel), des Alpes de l'Est et des Dinarides montre que la valeur moyenne de K/Rb est plus grande pour les basaltes que pour les granites, comme prévu normalement.A la suite de l'étude des roches effusives et intrusives on a pu constater dans plusieurs cas une dependance de la valeur K/Rb par la suite temporaire (p. e. les granites varisques du Waldviertel, les roches volcaniques tertiaires des Alpes), par laquelle le rapport K/Rb diminue des valeurs basiques à acides.Les intrusions près de la surface et les granitoïdes changés par autométasomatose présentent des valeurs particulièrement basses.Les granites concordants un rapport K/Rb > 150, les discordants < 150.
, , . , K/Rb , , .
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17.
A pink-colored (HUE 5R-7/4), predominantly calcium saturated, clay mineral from Tirebolu, NE-Turkey, is shown to be a dioctahedral, high-charge manganiferous smectite. It is probably an alteration product of volcanic tuffs of rhyodactitic composition. Ionic formula: (Si7.71Al0.29)IV(Al3.04Fe 0.12 3+ Fe 0.02 2+ Mg0.92Mn 0.07 2+ )VI O20 (OH)4 0.79 M+ Cation exchange capacity: 92 me/100 g (air dry sample). Unit cell parameters (ca. 20 ° C; ca. 40% RH): a09.02 Å b05.21 Å Mg++... Mn-smectite: c014.65 Å Ca++... Mn-smectite: c014.83 Å K+... Mn-smectite: c012.10 Å
Zusammenfassung Ein rosa (HUE 5R-7/4), weitgehend Calcium-gesättigtes Tonmineral von Tirebolu (NO-Türkei) wurde als ein dioktaedrischer, hochgeladener manganhaltiger Smektit identifiziert. Er ist wahrscheinlich ein Umwandlungsprodukt eines rhyodazitischen Tuffs. Strukturformel: (Si7.71Al0.29)IV(Al3.04Fe 0.12 3+ Fe 0.02 2+ Mg0.92Mn 0.07 2+ )VI O20 (OH)4 0.79 M+ Kationaustauschkapazität: 92 me/100 g (luftgetrocknet). Gitterkonstanten (ca. 20° C; ca. 40% RF): a09.02 Å b05.21 Å Mg++... Mn-Smektit: c014.65 Å Ca++... Mn-Smektit: c014.83 Å K+... Mn-Smektit: c012.10 Å
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18.
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.
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.
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.
(Seve Nappe Complex = S.N.C.) (..), , : (600–780°/13,5–16,5 kb), . . . : 1) S.N.C. , . . 2) .. , , (700–750°/15 ), , , . . S.N.C. . .. , , , . . , , S.N.C. , .. . . / , .
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19.
Zusammenfassung Aus Anschliffbildern von Kohleproben und analogen Erscheinungsformen bei Gesteinsklüften wird zur Frage des mechanischen Charakters der bankrechten Schlechten Stellung genommen.Weiterhin werden verschiedene Entstehungsursachen bankschräger, streichender Trennflächen in Kohle und Nebengestein diskutiert und der Zeitpunkt ihres Aufreißens im Ablauf des Faltungsvorganges festgelegt.
Vertical jointing within the Carboniferous of the Subvariscean Foredeep are analyzed mechanically and, in relation to the general deformation of the belt.
Resumé D'après des sections polies d'échantillons de houille et des formes analogues dans les fissures de roches, les auteurs déterminent le caractère mécanique des cassures orthogonales.Ensuite ils discutend plusieurs causes de formation des plans de séparations obliques dans la houille et les roches encaissantes et fixent le moment de leur formation dans le cours du plissement.
. , .
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20.
Nd, Sr and O isotopic data were obtained from silicic ash-flow tuffs and lavas at the Tertiary age (16–9 Ma) Timber (Mountain/Oasis Valley volcanic center (TMOV) in southern Nevada, to assess models for the origin and evolution of the large-volume silicic magma bodies generated in this region. The large-volume (>900 km3), chemically-zoned, Topopah Spring (TS) and Tiva Canyon (TC) members of the Paintbrush Tuff, and the Rainier Mesa (RM) and Ammonia Tanks (AT) members of the younger Timber Mountain Tuff all have internal Nd and Sr isotopic zonations. In each tuff, high-silica rhyolites have lower initial Nd values (1 Nd unit), higher87Sr/86Sr, and lower Nd and Sr contents, than cocrupted trachytes. The TS, TC, and RM members have similar Nd values for high-silica rhyolites (-11.7 to -11.2) and trachytes (-10.5 to -10.7), but the younger AT member has a higher Nd for both compositional types (-10.3 and -9.4). Oxygen isotope data confirm that the TC and AT members were derived from low Nd magmas. The internal Sr and Nd isotopic variations in each tuff are interpreted to be the result of the incorporation of 20–40% (by mass) wall-rock into magmas that were injected into the upper crust. The low Nd magmas most likely formed via the incorporation of low 18O, hydrothermally-altered, wall-rock. Small-volume rhyolite lavas and ash-flow tuffs have similar isotopic characteristics to the large-volume ash-flow tuffs, but lavas erupted from extracaldera vents may have interacted with higher 18O crustal rocks peripheral to the main magma chamber(s). Andesitic lavas from the 13–14 Ma Wahmonie/Salyer volcanic center southeast of the TMOV have low Nd (-13.2 to -13.8) and are considered on the basis of textural evidence to be mixtures of basaltic composition magmas and large proportions (70–80%) of anatectic crustal melts. A similar process may have occurred early in the magmatic history of the TMOV. The large-volume rhyolites may represent a mature stage of magmatism after repeated injection of basaltic magmas, crustal melting, and volcanism cleared sufficient space in the upper crust for large magma bodies to accumulate and differentiate. The TMOV rhyolites and 0–10 Ma old basalts that erupted in southern Nevada all have similar Nd and Sr isotopic compositions, which suggests that silicic and mafic magmatism at the TMOV were genetically related. The distinctive isotopic compositions of the AT member may reflect temporal changes in the isotopic compositions of basaltic magmas entering the upper crust, possibly as a result of increasing basification of a lower crustal magma source by repeated injection of mantle-derived mafic magmas.  相似文献   

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