Transform faults in Island     

Priv.-Doz. Dr. Karlheinz Schäfer 《International Journal of Earth Sciences》1972,61(3):942-960

In Iceland the mid-Atlantic ridge rises above sea-level for a north-south-extension of 350 km. One or two east-west-directed transform faults may be expected on land in Iceland, since the mid-Atlantic ridge is offset by transform faults every 100–200 km.Two of these faults, the Reykjanes Fracture Zone in southern Iceland, and the Tjörnes Fracture Zone in northern Iceland, have been located by recent seismological activity (Ward, 1971).There are no strike-slip faults within the Tjömes Fracture Zone that support transform faulting on land. En echolon faults may indicate a status nascendi of lateral offset for the Reykjanes Fracture Zone. A third transform fault, the Snaefellsnes-Vatnajökull Fracture Zone, however, was already active about 3 m.y. ago, when the rift system in southern Iceland began to spread faster than in northern Iceland. The features resulting from this process can be observed in (1) a change in strike from a northerly trend in northern Iceland to a north-easterly direction in southern Iceland; (2) the separation of the rift axis in southern Iceland into two branches; (3) right lateral strike-slip movements along the Snaefellsnes-Vatnajökull Fracture Zone with an offset of about 100 km.Field mapping and observations from air photographs have enabled the construction of a detailed tectonic pattern for the latter zone. The Pleistocene to Postglacial volcanic activity, the offset of magnetic anomalies, and recent active seismicity support the mechanism of transform faulting.At least 3 m.y. ago the west-wandering Icelandic Rift System started with higher spreading rates, revealing a trend to connect directly the Reykjanes- and the Iceland-Jan Mayen Rift Systems. Since that time three crustal plates proceeded from the Vatnajökull Triple Junction with different drift velocities, inducing the activity of the Snaefellsnes-Vatnajökull Transform Fault, which separates the north-western from the south-western Icelandic plate.

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Zusammenfassung In Island erhebt sich der zentrale Teil des Mittelatlantischen Rückens auf einer N-S-Erstreckung von 350 km über den Meeresspiegel. Das regelmäßige Auftreten E-W-gerichteter transform faults, die im Abstand von 100–200 km die Mittelatlantische Schwelle queren, läßt auf die Ausbildung einer oder mehrerer transform faults im Bereich der Insel schließen.Zwei in E-W-Richtung und damit rechtwinklig zur isländischen Riftzone verlaufende, seismologisch aktive Zonen wurden im S der Insel (Reykjanes Fracture Zone) und im N (Tjörnes Fracture Zone) als transform faults beschrieben (Ward, 1971). Jedoch keines der beiden Systeme gibt einen lateralen Versatz von geologischen Einheiten und magnetischen Anomalien zu erkennen. In gleicher E-W-Streichrichtung wie die beiden vermuteten transform faults erstreckt sich zwischen der Snaefellsnes-Halbinsel und dem Vatnajökull eine rechtsdrehende Blattverschiebung mit einem Horizontalversatz von etwa 100 km. Die Störung entstand vor etwa 3 Millionen Jahren, als das südisländische zentrale Riftsystem gegenüber dem nördlichen eine höhere Driftgeschwindigkeit entwickelte, und war aktiv bis in die jüngste Zeit.Der Richtungswechsel von durchweg N-S-streichenden geologischen und tektonischen Strukturen im N der Insel und NE-SW-gerichteten Einheiten, sowie die Aufspaltung der Riftzone in zwei getrennte Äste im S, können als Ergebnis dieses Vorganges angesehen werden.Die tektonisch interessantesten Abschnitte der Snaefellsnes-Vatnajökull-Transform Fault wurden kartiert. Kartierung und vorliegende Luftaufnahmen ermöglichten eine detaillierte Darstellung des tektonischen Musters.Gleichzeitig mit der Snaefellsnes-Vatnajökull-Transform Fault entstand der Vatnajökull-Tripel-Punkt, von dem sich drei Krustenplatten mit unterschiedlichen Driftgeschwindigkeiten entfernen. Seit dieser Zeit zeigt das W-wandemde isländische Rift-system den Trend, eine unmittelbare Verbindung zwischen Reykjanes- und Island-Jan-Mayen-Rücken herzustellen.

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Résumé En Islande, la partie centrale de la dorsale Atlantique médiane est exondée sur une longueur de 350 km en direction N-S. La présence régulière de failles transformelles de direction E-W traversant le seuil médian de l'Atlantique à des distances de 100 à200 km, permet de conclure à la formation d'une ou de plusieurs failles transformelles sur l'étendue de l'île.Deux zones de direction E-W, et par conséquent d'allure perpendiculaire au rift islandais (la zone de fractures de Reykjanes au S de l'île et la zone de fractures de Tjörnes au N), ont été décrites comme failles transformelles à cause de leur activité séismique (Ward, 1971). Mais aucun de ces deux systèmes ne montre de décrochement des unités géologiques pas plus que des anomalies magnétiques. Avec la même direction E-W que celle des deux failles transformelles présumées, s'étend un autre décrochement dextrogyre entre la presqu'île du Snaefellsnes et le glacier Vatnajökull. Cette faille est apparue il y a trois millions d'années, lorsque le rift central de la partie S de l'Islande se développait avec une vitesse supérieure à celle du Nord de l'Islande; elle fut active jusque récemment.Le changement de direction des structures géologiques et tectoniques d'allure N-S dans le N de l'île et des unités dirigées NE-SW, comme aussi l'ouverture de la zone de rift en 2 branches séparées dans le S, peuvent être considérés comme le résultat de ce processus. La cartographie de ces sections tectoniquement très intéressantes liées à la faille transformelle de Snaefellsnes-Vatnajökull a été levée.La cartographie et les vues aériennes présentées ont permis une figuration détaillée de cette manifestation te tonique.En même temps que la faille transformelle Snaefellsnes-Vatnajökull, il se développait le triple point du Vatnajökull, à partir duquel trois plaques crustales divergent avec des vitesses différentes. Depuis cette époque le compartiment islandais possède l'allure d'une liaison immédiate entre la dorsale de Reykjanes et celle de l'Islande-Jan Mayen.

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, N-S , 350 . , E-W 100–200 - , , . , E-W . . : ( Reykjanes Fracture), ( Tjörnes Fracture). , (Ward, 1971). , . , Snaefellsnes Vatnajökull . 3 , - . N-S NE-SW , — , . Snaefellsnes Vatnajokull. . Snaefellsnes-Vatnajökull Vatnajökull-Tripel, , . , aW, Reykjanes-Island-Jan-Mayen.

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Solare Aktivität und lange Reihen nördlich der Alpen: Eine Analyse zur spektralen Verteilung der Varianz     

Reg.-Rat Dipl.-Met. Christian-Dietrich Schönwiese 《Theoretical and Applied Climatology》1971,19(3):287-296

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Über die echographische Aufzeichnung des Verhaltens von Meeresfischen während der Sonnenfinsternis vom 30. Juni 1954     

Friedrich Schüler 《Ocean Dynamics》1954,7(3-4):140-143

Summary Echo records from the Atlantic west of the Faroe Islands are presented which, for the first time, give evidence of the influence exerted by day on the vertical movement of pelagic fishes by a considerable reduction of luminous intensity (solar eclipse). This phenomenon corresponds with the fact well known since some years from investigations in the North Sea which prove that by night pelagic fishes move in a vertical direction according to the variation in luminous intensity.

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Sur des enregistrements ultra-sonores caractérisant le comportement des poissons pélagiques pendant l'éclipsé de soleil au 30 juin 1954

Résumé On présente des enregistrements ultra-sonores faits en océan Atlantique à l'ouest de l'archipel de Færoé. Ces enregistrements font, pour la première fois, preuve de l'influence exercée de jour sur le mouvement vertical des poissons pélagiques par une réduction sensible de l'intensité lumineuse (éclipse de soleil). Ce phénomène correspond avec le fait bien connu depuis quelques ans par des recherches dans la mer du Nord. Suivant ces recherches, les poissons pélagiques se meuvent nuitamment dans la direction verticale suivant la variation de l'intensité lumineuse.

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Neuere Veröffentlichungen     

H. Ermel  W. Kuntze  Fr. Model  F. Schüler 《Ocean Dynamics》1955,8(2):77-79

Ohne Zusammenfassung  相似文献   

Age and origin of magmatism along the Cenozoic Red River shear belt, China   总被引：28，自引：0，他引：28  

Lian-Sheng Zhang  Urs Schärer 《Contributions to Mineralogy and Petrology》1999,134(1):67-85

To decipher the geodynamic significance of Cenozoic magmatism along the Red River shear belt, geochemical analyses, U-Pb and Rb-Sr dating, and Pb-Sr-Nd isotope tracing were undertaken. Zircon, monazite, titanite, and a Ti-U-oxide from foliated granitoid intrusions in the shear belt gneisses yield U-Pb emplacement ages of 33.1?±?0.2 (2σ), 31.9?±?0.3, 25.8?±?0.2 and 24.7?±?0.2?Ma, and an age of 35.0?±?0.3?Ma was obtained for the roughly 100?km long, adjacent Jinping (Phan Si Pang) alkali granite. Together with our previous data the new ages suggest that magmatism and left-lateral strike-slip movements occurred coevally during latest Eocene–Oligocene times from 33 to 22?Ma. The Rb-Sr dating of muscovite and biotite from the northernmost gneisses indicates that cooling to 500?°C occurred at 52.6?±?1.1?Ma, pre-dating the onset of magmatism, whereas further cooling to 300?°C took place at 28.9?±?0.6. This shows that unroofing in the north took place almost 9?million years earlier than in the central gneiss segments of the shear zone. Geochemical data substantiate two types of magmas: (1) amphibole-bearing intrusions of alkaline trend which are derived from sources with I_sr: 0.7065–0.7089 and _i ^Nd: ?3.7 to ?6.6; (2) leucogranitic layers and bodies having I_sr: 0.7084–0.7354 and _i ^Nd: ?3.3 to ?13.4. The former type of intrusion is found in both the gneisses and the adjacent unmetamorphosed cover rocks, whereas leucogranites are restricted to the shear belt gneisses. Source signatures of the alkaline intrusions lie adjacent to the those of OIB, plotting at the lower end of the Mantle Array. Contamination of these melts by continental material seems to be very limited. On the other hand, the leucogranitic layers are essentially crustal derived but none of the them has country rock isotope signatures, requiring melting of crust different from the actually exposed gneisses. Magma sources similar to those of ocean island basalt indicate magmatism to involve melting of light rare earth element and large ion lithophile element enriched mantle domains, most likely present in the lithosphere underneath the region. Since lithospheric thickening or subduction can be ruled out to produce both types of magmas, the presence of an important thermal anomaly is required, which is coevally active with left-lateral strike-slip shear. Adiabatic decompression and melting within the rising anomaly is the most plausible mechanism to produce the mantle magmas, which successively migrate through the crust to induce anatectic melting at 20–15?km crustal depth. Alkaline magmas largely dominate the volume of magmatism along the belt, being continuously present in the shear zone for millions of years. Such lubrication potentially explains how very large amounts of displacement can be absorbed in surprisingly narrow shear zones such as the Red River belt, possibly also playing a rôle for where and when zones of plate-scale lateral extrusion develop.  相似文献   

Using artificial floods for restoring river integrity     

Christopher?T.?RobinsonEmail author  Urs?Uehlinger 《Aquatic Sciences - Research Across Boundaries》2003,65(3):181-182

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Comparison of Transient Network Brightenings and Explosive Events in the Solar Transition Region   总被引：1，自引：0，他引：1  

Chae J  Wang H  Goode PR  Fludra A  Schühle U 《The Astrophysical journal》2000,535(2):L119-L122

I analyze the properties of the pulsed emission from the accreting millisecond pulsar SAX J1808.4-3658 in observations of its 1998 April outburst by the Rossi X-Ray Timing Explorer. Pulse phase spectroscopy shows that the emission evolves from a hard spectrum (power law with photon index of 2.39+/-0.06) to a soft spectrum (index of 3.39+/-0.24). This softening is also observable as a phase lag in the fundamental of low-energy photons with respect to high-energy photons. I show that this lag is roughly constant over 10 days of the outburst. I fit these data with a model in which the pulse emission is from a hot spot on the rotating neutron star and the flux as a function of phase is determined in a calculation which includes the effects of general relativity. The energy-dependent lags are very well described by this model. The harder spectra at earlier phases (i.e., as the spot approaches) are the result of larger Doppler-boosting factors that are important for this fast pulsar. Since this model is sensitive to the equatorial speed as an independent parameter and since the spin frequency is known, this offers us a new means of measuring the neutron star radius, which is notoriously difficult to determine.  相似文献   

Uncertainty in GPS Networks due to Remaining Systematic Errors: The Interval Approach     

S. Schön  H. Kutterer 《Journal of Geodesy》2006,80(3):150-162

A realistic assessment of the total uncertainty budget of Global Positioning System (GPS) observations and its adequate mathematical treatment is a basic requirement for all analysis and interpretation of GPS-derived point positions, in particular GPS heights, and their respective changes. This implies not only the random variability but also the remaining systematic errors. At present in geodesy, the main focus is on stochastic approaches in which errors are modeled by means of random variables. Here, an alternative approach based on interval mathematics is presented. It allows us to model and to quantify the impact of remaining systematic errors in GPS carrier-phase observations on the final results using deterministic error bands. In this paper, emphasis is given to the derivation of the observation intervals based on influence parameters and to the study of the complex linear transfer of this type of uncertainty to estimated point positions yielding zonotopes. From the presented simulation studies of GPS baselines, it turns out that the uncertainty due to remaining systematic effects dominates the total uncertainty budget for baselines longer than 200 km.  相似文献   

Influence of hydraulic conductivity on communities of microorganisms and invertebrates in porous media: a case study in drinking water slow sand filters   总被引：3，自引：0，他引：3  

Laurie Mauclaire  Andreas Schürmann  Florian Mermillod-Blondin 《Aquatic Sciences - Research Across Boundaries》2006,68(1):100-108

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Mineralogical alteration and associated permeability changes induced by a high-pH plume: Modeling of a granite core infiltration experiment     

Josep M. Soler  Urs K. Mäder 《Applied Geochemistry》2007

Within the framework of the HPF project (Hyperalkaline Plume in Fractured Rock) at the Grimsel Test Site (Switzerland), a small scale core infiltration experiment was performed at the University of Bern. A high-pH solution was continuously injected, under a constant pressure gradient, into a cylindrical core of granite containing a fracture. This high-pH solution was a synthetic version of solutions characteristic of early stages in the degradation of cement. The interaction between the rock and the solutions was reflected by significant changes in the composition of the injected solution and a decrease in the permeability of the rock. Changes in the mineralogy and porosity of the fault gouge filling the fracture were only minor. One-dimensional reactive transport modeling, using a modified version of the GIMRT code, was used to interpret the results of the experiment. Dispersive and advective solute transport, mineral reaction kinetics and a coupling between porosity and permeability changes were taken into account. In order to obtain a reasonable agreement between models and experimental results, reactive surface areas of the order of 10⁵ m²/m³ rock had to be used. These values are much smaller than the values measured for the fault gouge filling the fracture, which are in the order of 10⁶–10⁷ m²/m³ rock. However, the results could be improved by adding a small fraction of fine grained mineral, which could explain the high initial peaks in Al and Si concentration. With the inclusion of this fine grained fraction, the initial surface areas in the model were within the range of the measured specific surface areas of the fault gouge. The fact that the decrease in permeability was significant despite the minor changes in mineralogy, suggests that permeability may be controlled by changes in the structure of the rock (pore geometries) rather than by only the bulk volumetric (porosity) changes.  相似文献