A major sulphur isotope event at c. 510 Ma: a possible anoxia–extinction–volcanism connection during the Early–Middle Cambrian transition?     

M.L. Hough  G.A. Shields  L.Z. Evins  H. Strauss  R.A. Henderson  S. Mackenzie 《地学学报》2006,18(4):257-263

A new approach to constraining seawater δ³⁴S and sulphate concentration using francolite‐bound sulphate reveals an abrupt increase in δ³⁴S to +50‰ around the Early–Middle Cambrian boundary. Such high δ³⁴S values are best explained by increased rates of pyrite burial due to ocean anoxia coupled with an increased sensitivity of the ocean sulphate reservoir to perturbations due to low sulphate concentrations of 500–700 μgL^?1. We argue that the spread of anoxic waters at this time was partly the result of greenhouse warming related to the eruption of the Kalkarindji Large Igneous Province of northern Australia and that it triggered the collapse of early metazoan reef ecosystems during the latest Early Cambrian. Mass extinctions of the last 260 Myr have all coincided with enhanced volcanic activity, while several are also associated with positive shifts in seawater δ³⁴S. Extending this correlation back in time further implicates volcanically induced climate change as a major determining factor in biosphere evolution. Terra Nova, 18, 257–263, 2006  相似文献   

Current convection in solar active regions     

V. P. Meytlis  H. R. Strauss 《Solar physics》1993,145(1):111-118

Current carrying magnetic fields which penetrate sunspots can be unstable to current convective modes caused by the large gradient of electrical conductivity. The linear growth rates and wavelengths of the unstable modes are found. The unstable modes produce fine-scale vortices perpendicular to the magnetic field, which overshoot well into the solar corona. The modes provide a turbulent vorticity source at the photospheric footpoints of the field. This can cause braiding and reconnection of the coronal magnetic field. The modes twist the coronal magnetic field into loops with a typical radius of 200 km, consistent with recent X-ray observations.  相似文献   

Microwave and hard X-Ray observations of a solar flare with a time resolution better than 100 ms     

P. Kaufmann  F. M. Strauss  J. E. R. Costa  B. R. Dennis  A. Kiplinger  K. J. Frost  L. E. Orwig 《Solar physics》1983,84(1-2):311-319

Simultaneous microwave and X-ray observations are presented for a solar flare detected on May 8, 1980 starting at 19:37 UT. The X-ray observations were made with the Hard X-Ray Burst Spectrometer on the Solar Maximum Mission and covered the energy range from 28–490 keV with a time resolution of 10 ms. The microwave observations were made with the 5 and 45 foot antennas at the Itapetinga Radio Observatory at frequencies of 7 and 22 GHz, with time resolutions of 100 ms and 1 ms, respectively. Detailed correlation analysis of the different time profiles of the event show that the major impulsive peaks in the X-ray flux preceded the corresponding microwave peaks at 22 GHz by about 240 ms. For this particular burst the 22 GHz peaks preceded the 7 GHz by about 1.5 s. Observed delays of the microwave peaks are too large for a simple electron beam model but they can be reconciled with the speeds of shock waves in a thermal model.  相似文献   

Circular polarization of solar bursts at 22 GHz     

P. Kaufmann  F. M. Strauss  J. E. R. Costa  E. Correia 《Solar physics》1993,148(2):341-358

The circular polarization of complex solar bursts was measured at short microwaves (22 GHz, × 1.35 cm) with high sensitivity (0.03 s.f.u. r.m.s.) and high time resolution (5 ms). The polarization shows up as soon as an excess burst emission is measured. Two components are found in the time development of the degree of circular polarization: (1) a steady level, sometime changing smoothly with time; (2) superimposed faster polarization time structures, small compared to the basic steady degree of polarization, and often not clearly related to the burst flux time structures. The observed degrees may range from 10% to more than 85%.In memoriam (1942–1981).  相似文献   

Relative sea-level fluctuations and brown coal formation around the Early-Middle Miocene boundary in the Lusatian Brown Coal District     

G. Standke  J. Rascher  C. Strauss 《International Journal of Earth Sciences》1993,82(2):295-305

The Tertiary sedimentary sequence in the Lusatian Brown Coal District is the result of several transgressive pulses with intercalated regressive phases. Regression repeatedly resulted in the formation of large littoral bogs at the transition between brackish and terrestrial palaeoenvironments. In the lithofacies changes of the Lower-Middle Miocene strata (high energy sands, low energy intertidal silts, paralic peats) long-term changes as well as short-term oscillations of sea level are recorded. The rise of sea level in the upper Lower Miocene (Hemmoorian transgression) is proved in numerous localities of the investigation area. After a regression phase with major peat formation events around the Lower-Middle Miocene boundary, a renewed sea-level rise resulted in the widest extension of marine-brackish beds over pre-Tertiary basement in the south of the region (higher Reinbekian transgression, Middle Miocene). Very differentiated, fine-scaled, probably sea-level induced coastline oscillations could probably be traced even into the coal seams by the recognition of successive bogfacial types possibly showing a groundwater level change in the ancient peat bog (change of topogeneous and ombrogeneous bog types). A biostratigraphic calibration of the decalcified Lower-Middle Miocene sequence with its alternating transgressive and regressive trends to the fully marine sediments of the basinal centre, which are dated by calcareous microfossils, is possible by means of dinoflagellate cysts and pollen and spores. Correspondence to: C. Strauss  相似文献   

Sr-gorceixite,a weathering product in rich iron ores from the Córrego do Feijão Mine,Minas Gerais,Brazil     

Wania Greiffo  Klaus Herrmann  Georg Müller  Karl W. Strauss 《Contributions to Mineralogy and Petrology》1984,87(4):418-419

A sulfate-bearing Sr-Ba phosphate (Sr-gorceixite) formed by supergene alteration in rich iron ores from Minas Gerais, Brazil, has been studied by means of microprobe techniques. Analytical data and the structural formula are presented.  相似文献   

Carbon and sulfur isotopes in Precambrian sediments from the Canadian Shield     

H. Strauss 《Geochimica et cosmochimica acta》1986,50(12):2653-2662

Carbon and sulfur isotope ratios have been determined for more than 200 samples of Precambrian graphitic and sulfidic metasediments from the Superior and Churchill Provinces of Canada. The sediments were deposited in small sedimentary basins related to various Canadian greenstone belts. The age of the Archean samples is approximately 2.7 Ga., the Proterozoic samples about 1.8 Ga.,

The Archean organic material shows C isotope values between −47 and −15%. vs. PDB. The Proterozoic metasediments show a smaller range, with δ¹³C between −30 and −17%.,

A few carbonate samples yielded C isotopic compositions between −5.9 and −4.7%.,

Associated iron sulfides have δ³⁴S-values ranging from −6 to +8%., which are consistent with isotopic fractionation effects either by inorganic or bacterial reactions in the sedimentary sulfur cycle.

The great variability of organic C isotopic composition, especially in the late Archean, although affected by extensive postdepositional alteration, might indicate differences in the environmental conditions and/or the organic content of these sedimentary basins. Some extremely ¹³C-depleted organic carbon values support a global occurrence of environments likely dominated by methanotrophic organisms at the end of the Archean.  相似文献   

Polymetamorphose und Deckenbau der Strand-Halbinsel/SW-Norwegen     

Prof. Dr. Georg Müller  Dr. Karl W. Strauss 《International Journal of Earth Sciences》1987,76(2):407-418

Zusammenfassung Die Metamorphite der Halbinsel Strand / SW-Norwegen gehören zu einem Deckensystem präkambrischer Gesteine, das während der kaledonischen Orogenese von NNW her auf den Baltischen Schild geschoben worden ist (Sigmond Kildal 1978). Eine hangende Deckeneinheit umfa\t Metagranite, Melagabbroide und Gneise. Ihr granulitfazieller Mineralbestand (Metamorphosealter 1,5 Milliarden Jahre) wurde wahrscheinlich vor 1,18 Milliarden Jahren grünschieferfaziell retrograd überprägt. Die Decke ist nur noch in kleinen Erosionsinseln vorhanden. Eine liegende Dekkeneinheit besteht aus metasedimentären Gesteinen. Sie weist Mineralbestände der höheren Amphibolitfazies auf, die ebenfalls grünschieferfaziell überprägt wurden. Die Al^VI-Gehalte der bei beiden metamorphen Prozessen gebildeten Amphibole deuten bei Anwendung eines Diagramms vonRaase (1974) an, da\ die retrograde Metamorphose hier bei höheren Drücken ablief als die ältere Metamorphose. Ein Gesamtgesteinsalter von 1,16 Milliarden Jahren scheint für diese grünschieferfazielle Metamorphose das gleiche orogene Ereignis anzuzeigen wie für die hangende Einheit. Produkt der schwachen kaledonischen Metamorphose (400 Millionen Jahre) ist Stilpnomelan, der auch im Grundgebirge des Baltischen Schildes auftritt.

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The Strand Peninsula, Stavanger district, Southwestern Norway, has become well known, when V. M.Goldschmidt (1920) published his hypothesis of regional metasomatism. All rocks of the Strand area were assumed to be situated in autochthonous position. The main point ofGoldschmidt's hypothesis was progarde metamorphism of argillaceous sediments and their transformation to albite schists and plagioclase gneisses by metasomatic solutions given off from intruded trondhjemitic magmas.However, in contrast toGoldschmidt's ideas, the granitoid sill of the Ormakam-Moldhesten area, Strand Peninsula, and its wall rocks, which played an important role inGoldschmidt's discussion, are now found to be parts of a polymetamorphous thrust unit.Granulite facies assemblages, mainly consisting of orthopyroxene +clinopyroxene+plagioclase+hastingsite±orthoclase and quartz, have been partially replaced by lowgrade assemblages. Probably, the high-grade metamorphism has an age of about 1.5 Ga (Andresen &Heier 1975) whereas the age of the greenschist facies event may be conform to an orogenic cycle at about 1.15 Ga (Sigmond Kildal 1978).A lower nappe, covering the Strand Peninsula for its most parts, was subject of a petrologic re-examination using the microscope and the microprobe analyser. Its contacts with the hanging nappe as well as those with the underlying gneissic basement are characterized by thrust planes and horizons of phyllonites and cataclasites inside of the nappe and by local brecciation in the uppermost zones of the basement.The rocks of the lower nappe have been formed a long with the upper amphibolite facies as indicated by the following mineral assemblage: andesine + hastingsite and Mg-hornblende + quartz +biotite.Obviously, an inverse order of temperature regimes is recognizable in the allochthonous units. Maximum temperature of the upper nappe reached 800C (Müller &Herbert 1984) whereas T_max of the lower nappe did not exceed 750C.Using a diagram ofRaase (1974) the Al^VI-contents of the primary hastingsitic hornblendes of the lower nappe rocks indicate pressures which range distinctly below 5 kbars, whereas the secondary pargasitic hornblendes were formed at pressures of about 5 kbars. Probably the thrusting happened before the formation of secondary hornblendes took place. The load pressure in the lower nappe (< 5 kbars) was distinctly increased when the upper nappe was thrusted upon the lower one. Consequently the Al^VI-contents of secondary hornblendes indicate increased pressure ( 5 kbars).In the gneisses of the lower nappe late fractures were filled by stilpnomelane, chlorite and quartz. Very probably this depends on thrust movements during the Caledonian orogeny.Verschure et al. (1980) found a similar stilpnomelane formation in adjacent terrains of the basement and proposed a weak Caledonian metamorphism of about 400 my.

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Résumé Les roches métamorphiques de la presqu'Île de Strand (sud-ouest de la Norvège) appartiennent à un empilement de nappes formées de roches pré-cambriennes et charriées vers le SSE sur le bouclier baltique au cours de l'orogenèse calédonienne (Sigmond Kildal 1978).Une nappe supérieure comprend des métagranites, des mélagabbroÏdes et des gneiss. Leurs paragenèses, du facies des granulites (âge du métamorphisme: 1,5 Ga) ont été rétromorphosées dans le facies des schistes verts il y a probablement 1,18 Ga. Cette nappe ne subsiste qu'en petits fragments épargnés par l'érosion.Une nappe inférieure est composée de roches métasédimentaires. Ces roches présentent des paragenèses du faciès supérieur des amphibolites, également rétromorphosées dans le facies des schistes verts. L'application du diagramme de Raase (1974) aux teneurs en Al^VI des amphiboles formées lors des deux processus métamorphiques indique que la rétromorphose s'est déroulée à une pression supérieure à celle du métamorphisme ancien. Un âge de 1,16 Ga sur roche totale semble indiquer que le mÊme processus orogénique a servi de cadre à la rétromorphose en facies des schistes verts dans les deux nappes.Du stilpnomélane, présent tant dans la nappe inférieure que dans le bouclier baltique autochtone, témoigne d'un métamorphisme calédonien (400 Ma) de faible degré.

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Strand ( ) , NNW (Sigmond KILDAL, 1978). , . - 1,5 , 118 , . . . , . Al^VI , , RAASE (1974) , , . 1,6 , , , . (400 ) , .

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Tectonics and sedimentation in the Fohnsdorf-Seckau Basin (Miocene, Austria): from a pull-apart basin to a half-graben     

Philipp Strauss  Michael Wagreich  Kurt Decker  Reinhard F. Sachsenhofer 《International Journal of Earth Sciences》2001,90(3):549-559

The Miocene intramontane Fohnsdorf-Seckau Basin is situated at the junction of the sinistral Mur-Mürz-fault system and the dextral Pöls-Lavanttal fault system. The basin comprises a 2,400-m-thick coal-bearing fluviodeltaic-lacustrine succession (Lower to Middle Miocene, Upper Karpatian?/Lower Badenian) which is overlain by a 1,000-m-thick alluvio-deltaic conglomeratic succession (Apfelberg Formation, ?Middle/Upper Badenian) in the south. A three-stage model for the basin evolution has been reconstructed from structural analysis and basin fill geometries. During a first pull-apart phase, subsidence occurred along ENE-trending, sinistral strike-slip faults of the Mur-Mürz fault system and NE-SW to N-S-trending normal faults, forming a composite pull-apart basin between overstepping en-echelon strike-slip faults. The Seckau and Fohnsdorf sub-basins are considered as two adjacent pull-aparts which merged into one basin. During the second phase, N-S to NNW-SSE extension and normal faulting along the southern basin margin fault formed a half-graben, filled by wedge-shaped alluvial strata (Apfelberg Formation). During the third phase, after the end of basin sedimentation, the dextral Pöls-Lavanttal fault system reshaped the western basin margin into a positive flower structure.  相似文献   

Sulfur cycling at the Mid-Atlantic Ridge: A multiple sulfur isotope approach     

Marc Peters  Harald Strauss  James Farquhar  Charlotte Ockert  Benjamin Eickmann  Cristiane L. Jost 《Chemical Geology》2010,269(3-4):180-196

The role of sulfur in two hydrothermal vent systems, the Logatchev hydrothermal field at 14°45′N/44°58′W and several different vent sites along the southern Mid-Atlantic Ridge (SMAR) between 4°48′S and 9°33′S and between 12°22′W and 13°12′W, is examined by utilizing multiple sulfur isotope and sulfur concentration data. Isotope compositions for sulfide minerals and vent H₂S from different SMAR sites range from + 1.5 to + 8.9‰ in δ³⁴S and from + 0.001 to + 0.051‰ in Δ³³S. These data indicate mixing of mantle sulfur with sulfur from seawater sulfate. Combined δ³⁴S and Δ³³S systematics reveal that vent sulfide from SMAR is characterized by a sulfur contribution from seawater sulfate between 25 and 33%. This higher contribution, compared with EPR sulfide, indicates increased seawater sulfate reduction at MAR, because of a deeper seated magma chamber and longer fluid upflow path length, and points to fundamental differences with respect to subsurface structures and fluid evolution at slow and fast spreading mid-ocean ridges.Additionally, isotope data uncover non-equilibrium isotopic exchange between dissolved sulfide and sulfate in an anhydrite bearing zone below the vent systems at fluid temperatures between 335 and 400 °C. δ³⁴S values between + 0.2 to + 8.8‰ for dissolved and precipitated sulfide from Logatchev point to the same mixing process between mantle sulfur and sulfur from seawater sulfate as at SMAR. δ³⁴S values between ? 24.5 and + 6.5‰ and Δ³³S values between + 0.001 and + 0.125‰ for sulfide-bearing sediments and mafic/ultramafic host rocks from drill cores taken in the region of Logatchev indicate a clear contribution of biogenic sulfides formed via bacterial sulfate reduction. Basalts and basaltic glass from SMAR sites with Δ³³S = ? 0.008‰ reveal lower Δ³³S lower values than suggested on the basis of previously published isotopic measurements of terrestrial materials.We conclude that the combined use of both δ³⁴S and Δ³³S provides a more detailed picture of the sulfur cycling in hydrothermal systems at the Mid-Atlantic Ridge and uncovers systematic differences to hydrothermal sites at different mid-ocean ridge sites. Multiple sulfur isotope measurements allow identification of incomplete isotope exchange in addition to isotope mixing as a second important factor influencing the isotopic composition of dissolved sulfide during fluid upflow. Furthermore, based on Δ³³S we are able to clearly distinguish biogenic from hydrothermal sulfides in sediments even when δ³⁴S were identical.  相似文献