Non-coaxial experimental deformation of olivine     

Florence R. Kunze  Hans G. AvLallemant 《Tectonophysics》1981,74(3-4)

Dunite samples have been deformed non-coaxially at high temperatures and pressures. In samples which were deformed by translation glide on {Okl}[100], olivine [100] = Z-axes rotated toward the maximum extensile-strain axis. In samples which were partly or completely recrystallized syntectonically the new olivine grains attained preferred orientations with [010] = X and [100] = Z parallel to the maximum and least principal compressive stress axes, respectively. These results may be used for kinematic and dynamic analysis of naturally deformed dunites and peridotites.  相似文献   

Eo-alpine metamorphism in the uppermost unit of the Cretan nappe system — Petrology and geochronology     

Eberhard Seidel  Martin Okrusch  Hans Kreuzer  Helmut Raschka  Wilhelm Harre 《Contributions to Mineralogy and Petrology》1981,76(3):351-361

The uppermost unit of the Cretan nappe system consists of ophiolites on the top, and an ophiolitic mélange at the base.Among the various constituents of the mélange, there are slices of low-P/high-T metamorphics. They form a variegated series consisting of tholeiitic ortho-amphibolites, para-amphibolites, andalusite and sillimanite-cordierite-garnet bearing mica schists, calcsilicate rocks, and marbles. The metamorphic sequence is locally intruded by early tectonic magmatites of gabbroic, dioritic and granitic composition. Critical mineral assemblages lead to a maximum temperature of about 700° C reached during metamorphism, at a total pressure of 4–5 kilobars. K — Ar dating on 6 hornblendes, 7 biotites and 1 muscovite yielded cooling ages of 75–66 m.y. and confirmed earlier results according to which the metamorphism and related magmatism took place in Late Cretaceous times.In order to evaluate the age relationships between the hightemperature metamorphics within the ophiolitic mélange and the ophiolites, hornblendes from ultramafic and mafic rocks of the ophiolite complex were dated by the K — Ar method. Hornblende from one schistose hornblendite forming a constituent of the ophiolites proper yielded 156 m.y. and thus provides a middle Jurassic minimum age for the formation of this piece of oceanic lithosphere. Four hornblendes of calc-alkaline gabbrodiorite dikes within the ophiolite complex gave distinctly lower K — Ar dates of about 140 m.y.. The dikes probably intruded after the detachment of the ophiolites in an island-arc or continental-margin environment.As a consequence, the high-temperature metamorphics and related intrusives in the ophiolitic mélange of Crete are genetically unrelated to the overlying ophiolites. The paleogeographic position of the crystalline terrane, slices of which are now incorporated into the ophiolitic mélange is still open to discussion.  相似文献   

Collocation,dissipation and [overshoot] for time integration schemes in structural dynamics     

Hans M. Hilber  Thomas J. R. Hughes 《地震工程与结构动力学》1978,6(1):99-117

The concept of collocation, originally used by Wilson in the development of dissipative algorithms for structural dynamics, is systematically generalized and analysed. Optimal schemes within this class are developed and compared with a recently proposed family of dissipative algorithms, called a methods. The α methods are found to be superior on the basis of standard measures of dissipation and dispersion. It is pointed out that the tendency to overshoot is an important and independent factor which should be considered in an evaluation of an implicit scheme. The basis for studying overshoot is discussed and the optimal collocation and α methods are compared. It is found that pathological overshooting is an inherent property of collocation schemes, whereas the overshooting characteristics of the α methods are good.  相似文献   

Diskussionsbeitrag zu: „Inhalt und Bedeutung fossiler Bodenkomplexe in Perm und Trias von Mitteleuropa“ von D. Ortlam,Geol. Rdsch.,63, S. 850–884     

Landesgeologe Dr. Hans Jürgen Konrad 《International Journal of Earth Sciences》1975,64(1):993-998

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Quantum corrected (“true”) fluorescence emission spectra of filtered water from the Elbe mouth     

Dr. Hans Gienapp 《Ocean Dynamics》1979,32(5):204-210

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Danish marine oil pollution policy     

Hans Ulrik Riisgård 《Marine pollution bulletin》1979,10(9):250-253

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Geochronology of high-pressure rocks on Sifnos (Cyclades,Greece)     

Rainer Altherr  Manfred Schliestedt  Martin Okrusch  Eberhard Seidel  Hans Kreuzer  Wilhelm Harre  Heinz Lenz  Immo Wendt  Günther A. Wagner 《Contributions to Mineralogy and Petrology》1979,70(3):245-255

Polymetamorphic rocks of Sifnos (Greece) have been investigated by Rb-Sr, K-Ar, and fission track methods. Critical mineral assemblages from the northern and southernmost parts of Sifnos include jadeite+quartz+3T phengite, and omphacite+garnet +3T phengite, whereas the central part is characterized by the assemblage albite+chlorite+epidote+2M ₁ phengite.K-Ar and Rb-Sr dates on phengites (predominantly 3T) of the best preserved high P/itTmetamorphic rocks from northern Sifnos gave concordant ages around 42 m.y., indicating a Late Lutetian age for the high P/T metamorphism. Phengites (2M ₁+3T) of less preserved high P/T assemblages yielded K-Ar dates between 48 and 41 m.y. but generally lower Rb-Sr dates. The higher K-Ar dates are interpreted as being elevated by excess argon.K-Ar and Rb-Sr ages on 2M ₁ phengites from central Sifnos vary between 24 and 21 m.y. These ages date a second, greenschist-facies metamorphism which overprinted the earlier high-pressure metamorphic rocks.  相似文献   

Experimental investigation of the metamorphism of siliceous dolomites     

Hans -Rolf Käse  Paul Metz 《Contributions to Mineralogy and Petrology》1980,73(2):151-159

For the reaction: 1 diopside+3 dolomite ?2 forsterite+4 calcite+2 CO₂ (14) the following P _total?T-brackets have been determined experimentally in the presence of a gasphase consisting of 90 mole%CO₂ and 10 mole%H₂O∶1 kb, 544°±20° C; 3kb, 638°±15° C; 5kb, 708°±10° C; 10kb, 861°±10° C. The determination was carried out with well defined synthetic minerals in the starting mixture. The MgCO₃-contents of the magnesian calcites formed by the reaction in equilibrium with dolomite agree very well with the calcite-dolomite miscibility gap, which can be recalculated from the activities and the activity coefficients of MgCO₃ as given by Gordon and Greenwood (1970). The equilibrium constant K _14b was calculated with respect to the reference pressure P ₀=1 bar using the experimentally determined \(P_{total} TX_{CO_2 }\) brackets, the activities of MgCO₃ and CaCO₃ (Gordon and Greenwood 1970; Skippen 1974) and the fugacities of CO₂ Holloway (1977) considering the correction of Flowers (1979). Results are plotted as function of the absolute reciprocal temperature in Fig. 1. For the temperature range of 530° to 750° C the following linear expression can be given for the natural logarithm of K_14b: (g) $$[ln K_{14b} ]_T^P = - \frac{{18064.43}}{{T\left( {^\circ K} \right)}} + 38.58 + \frac{{0.308(P - 1 bar)}}{{T\left( {^\circ K} \right)}}$$ where P is the total pressure in bars and T the temperature in degrees Kelvin. Combining Equation (g) with the activities of MgCO₃ and CaCO₃ gives the equilibrium fugacity \(f_{CO_2 }\) : (i) $$[ln f_{CO_2 } ]_T^P = - \frac{{11635.44}}{{T\left( {^\circ K} \right)}} + 21.09 + \frac{{0.154(P - 1 bar)}}{{T\left( {^\circ K} \right)}}$$ Equation (i) and the fugacities of CO₂ permit to calculate the equilibrium data in terms of \(P_{CO_2 }\) and T (see Fig. 3) or P _total, T and \(X_{CO_2 }\) (see Fig. 5). Combining the \(P_{total} TX_{CO_2 }\) equilibrium data of the above reaction with those of the previously investigated reaction (Metz 1976): 1 tremolite+11 dolomite ?8 forsterite+13 calcite+9 CO₂+1 H₂O yields the stability conditions of the four-mineral assemblage: diopside+calcian dolomite+forsterite +magnesian calcite and the stability conditions of the five-mineral assemblage: tremolite+calcian dolomite+forsterite +magnesian calcite+diopside both shown in Fig. 6. Since these assemblages are by no means rare in metamorphic siliceous dolomites (Trommsdorff 1972; Suzuki 1977; Puhan 1979) the data of Fig. 6 can be used to determine the pressure of metamorphism and to estimate the composition of the CO₂-H₂O fluid provided the temperature of the metamorphic event was determined using the calcite-dolomite geothermometer.  相似文献   

Der deutsche Beitrag zur Neuherstellung der General Bathymetric Chart of the Oceans (GEBCO)     

Hans Ermel 《Ocean Dynamics》1966,19(2):49-57

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Die rshythmischen Bewegungen der Kreidegeosynklinale der Ostkordillere Kolumbiens     

Dr. Hans Bürgl 《International Journal of Earth Sciences》1964,53(2):706-731

Zusammenfassung Die Schichten, die die 1400 km lange und bis 250 km breite, SSW-NNE streichende Ostkordillere Kolumbiens aufbauen, reichen altersmäßig vom Präkambrium bis ins Quartär. Unter ihnen nehmen die Ablagerungen der Kreide den größten Raum ein. Die größte Mächtigkeit zeigt diese in der Umgebung von Bogotá (Becken von Cundinamarca) mit 16.000 m, nach N sinkt sie allmählich auf 2600 m und gegen das Südende der Kordillere auf wenige hundert Meter ab.Im Becken von Cundinamarca besteht die Kreide zum überwiegenden Teil aus dunklen, bathyalen Schiefertonen, in die sich in mehr oder minder regelmäßigen Abständen Sandsteine, Kalke und andere litorale bis epineritische Schichten einschalten. Bei Berücksichtigung des Fossilinhaltes, vor allem der Ammoniten, ergibt sich, daß die Seichtwasserschichten stets an der Grenze von Stufen oder Unterstufen liegen. Die Absenkung der Kreidegeosynklinale der Ostkordillere erfolgte also zyklisch. Am Beginn jeder Stufe (und Unterstufe) sank sie rasch ab und es bildeten sich bathyale Schiefertone. Dann kam die Absenkung allmählich zum Stillstand, litorale Sedimente rückten ins Beckeninnere vor und vielfach wurde die Sedimentation unterbrochen. Mit Beginn jeder neuen Stufe oder Unterstufe wanderten neue pelagische Faunen in die Geosynklinale ein, während sich die litoralen Faunen mehrere Stufen hindurch erhielten.Aus der gleichartigen lithologischen Beschaffenheit und der nahezu gleichen Mächtigkeit der Stufen läßt sich schließen, daß sie im gleichen Zeitraum von 6 Millionen Jahren (die Unterstufen in 2 Millionen Jahren) abgelagert wurden.Neben den Stufenzyklen lassen sich größere (Großzyklen) von 18–20 Millionen Jahren Dauer erkennen. Sie werden durch tektonische Bewegungen und nachfolgende weiträumige Transgressionen eingeleitet. Diese Großzyklen beginnen mit dem Tithon, Hauterive, Alb und Senon. Die Stufenzyklen setzen in weiten Teilen der Erde gleichzeitig ein, die Großzyklen hingegen gehen wellenförmig über die Erdoberfläche. Es wird deshalb angenommen, daß die Stufenzyklen ihre Ursache in größeren Erdtiefen haben als die Großzyklen.

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Within the 1400 kms. long and up to 250 kms. wide SSW-striking Eastern Cordillera of Columbia Precambrian to Recent members are met with. Cretaceous sediments are thickest (Cundinamarca-Basin near Bogota: 16 000 metres). This Cretaceous consists mainly of dark shales with litoral to epineritic sandstones etc.Cyclic subsidence of this geosyncline took place 3-times within about 2 Million years. Megacycles amount to 18–20 Million years. They begin with transgression in Tithonian, Hauterive, Albian and Senonian times.

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Résumé Les couches qui forment la cordillère orientale de la Colombie de direction SSW-NNE, sur une longueur de 1400 km et avec une largeur atteignant 250 km, ont un âge qui va du Précambrien au Quaternaire. Les dépots du Crétacé en occupent la plus grande partie; leur épaisseur la plus forte (16.000 mètres) a lieu dans les environs de Bogotá (Bassin de Cundinamarca); elle diminue progressivement vers le Nord jusqu'à 2.600 m, et à l'extrémité sud de la cordillère elle se réduit à quelques centaines de mètres.Dans le bassin de Cundinamarca le Crétacé est formé essentiellement de schistes bathyaux, foncés, entre lesquels s'intercalent à des distances plus ou moins régulières des grès, des calcaires et d'autres strates littorales ou épinéritiques. L'examen des fossiles, en premier lieu les ammonites, montre que les couches de faible profondeur d'eau se trouvent toujours à la limite d'étages ou de sous-étages. La subsidence du géosynclinal crétacé de la cordillère occidentale s'est faite de façon cyclique. Au début de chaque étage (ou sous-étage) la subsidence était rapide et il se formait des schistes bathyaux. Puis la subsidence s'arrêtait peu à peu; des sédiments littoraux envahissaient l'intérieur du bassin et souvent la sédimentation était interrompue. Au début de chaque nouvel étage ou sousétage, des nouvelles faunes pélagiques envahissaient le géosynclinal, tandis que les faunes littorales se maintenaient durant plusieurs étages. De la similitude des propriétés lithologiques et de la puissance sensiblement égale des étages, on peut déduire que ceux-ci se sont déposés au cours d'une période égale à 6 millions d'années (2 millions pour les sous-étages). En plus des cycles d'étages, on peut distinguer des cycles majeurs d'une durée de 18–20 millions d'années. Ils sont amenés par des mouvements tectoniques et les transgressions de grande ampleur qui les suivent. Ces cycles majeurs débutent au Tithonique, é l'Hauterivien, à l'Albien et au Sénonien. Les cycles d'étages débutent en même temps dans de grandes parties du monde; les cycles majeurs par contre se déplacent comme des ondes sur la surface terrestre. C'est pourquoi nous admettons que les cycles d'étages ont leur cause dans des parties plus profondes de la terre que les cycles majeurs.

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, SSW NNE. . .

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