排序方式: 共有28条查询结果,搜索用时 62 毫秒
21.
S.A.P.L. Cloetingh P.A. Ziegler P.J.F. Bogaard P.A.M. Andriessen I.M. Artemieva G. Bada R.T. van Balen F. Beekman Z. Ben-Avraham J.-P. Brun H.P. Bunge E.B. Burov R. Carbonell C. Facenna A. Friedrich J. Gallart A.G. Green O. Heidbach A.G. Jones L. Matenco J. Mosar O. Oncken C. Pascal G. Peters S. Sliaupa A. Soesoo W. Spakman R.A. Stephenson H. Thybo T. Torsvik G. de Vicente F. Wenzel M.J.R. Wortel TOPO-EUROPE Working Group 《Global and Planetary Change》2007,58(1-4):1
TOPO-EUROPE addresses the 4-D topographic evolution of the orogens and intra-plate regions of Europe through a multidisciplinary approach linking geology, geophysics, geodesy and geotechnology. TOPO-EUROPE integrates monitoring, imaging, reconstruction and modelling of the interplay between processes controlling continental topography and related natural hazards. Until now, research on neotectonics and related topography development of orogens and intra-plate regions has received little attention. TOPO-EUROPE initiates a number of novel studies on the quantification of rates of vertical motions, related tectonically controlled river evolution and land subsidence in carefully selected natural laboratories in Europe. From orogen through platform to continental margin, these natural laboratories include the Alps/Carpathians–Pannonian Basin System, the West and Central European Platform, the Apennines–Aegean–Anatolian region, the Iberian Peninsula, the Scandinavian Continental Margin, the East-European Platform, and the Caucasus–Levant area. TOPO-EUROPE integrates European research facilities and know-how essential to advance the understanding of the role of topography in Environmental Earth System Dynamics. The principal objective of the network is twofold. Namely, to integrate national research programs into a common European network and, furthermore, to integrate activities among TOPO-EUROPE institutes and participants. Key objectives are to provide an interdisciplinary forum to share knowledge and information in the field of the neotectonic and topographic evolution of Europe, to promote and encourage multidisciplinary research on a truly European scale, to increase mobility of scientists and to train young scientists. This paper provides an overview of the state-of-the-art of continental topography research, and of the challenges to TOPO-EUROPE researchers in the targeted natural laboratories. 相似文献
22.
Magnetic sector mass spectrometers dominate the field of 40Ar/39Ar geochronology. Recent advances in quadrupole mass spectrometer technology, especially improvements in resolution, have increased the performance of these instruments to the extent that they can be used for isotopic determinations. We describe a triple filter quadrupole mass spectrometer (Hiden HAL 3F Series Pulse Ion Counting Triple Filter QMS) linked to an automated furnace extraction and cleaning system dedicated to 40Ar/39Ar incremental heating experiments.The instrument produces peaks with broad flat tops and a width of 0.9 amu at 10 cps height and 0.84 amu at 500,000 cps height on a 1 million cps high peak (peak width at 0.01‰ and 50% peak height respectively). This allows measurement of ratios of the main Ar peaks in the 1‰ range. Measurements of 1.6 × 10?12 mole of air reference gas over two years yields 40Ar/36Ar = 257.9 ± 1.3 (1σ, n = 34). The ability of the instrument to produce 40Ar/39Ar ages from rocks/minerals of a wide age range, reaching into the late Quaternary, are demonstrated by a series of tests and comparison with geochronological data from other studies and an in-house MAP 215-50 magnetic sector mass spectrometer. We demonstrate that high-end quadrupole systems can be used for routine 40Ar/39Ar dating purposes. 相似文献
23.
Dr. Onno Oncken 《International Journal of Earth Sciences》1984,73(2):619-649
Zusammenfassung Ausgehend vom Maß der Inkohlung organischer Substanz in den Gesteinen des nördlichen Schiefergebirges einschließlich der Eifel können nach der Bestimmung der Beziehungen Aussagen zur tektonischen Evolution und zur Paläogeothermie des betrachteten Gebietes getroffen werden. Es bestätigen sich frühere Ansichten, daß die Großsättel aus Bereichen verminderter Absenkungsgeschwindigkeit in der Geosynklinale mit gleichzeitig relativ höheren geothermischen Gradienten hervorgehen. Obgleich Absenkung und Wärmefluß derart miteinander verbunden scheinen, ist das in den Inkohlungsdaten abgebildete Wärmefeld wahrscheinlich der Effekt einer Überlagerung eines präkinematischen, durch Absenkungsdifferenzen mitbestimmten Wärmefeldes mit einer während der Heraushebung in der Geosynklinalfüllung nordwärts wandernden Abkühlfront. Alle im Kartenbild deutlichen Großstrukturen des nördlichen Schiefergebirges sind auf ein kongruentes synsedimentäres Absenkungsmuster im Verein mit einer — möglicherweise ebenfalls vom thermischen Regime beeinflußten — differentiellen Heraushebung zurückzuführen. Der eigentlichen Faltung kommt dabei nur die Rolle eines die vorhandenen Strukturen überprägenden Faktors zu.
The coal rank of organic matter dispersed in sediments of the northern Rhenish Massif including the Eifel permits — having determined the relationship — an evaluation of the tectonic and paleogeothermic evolution of the considered area. Earlier views on this subject are confirmed: Anticlinoria develop from geosynclinal zones of relatively lesser subsidence with, at the same time, elevated geothermal gradients opposite to the synclinoria. Although subsidence and heat flow appear to be related in this way, the observed temperature field — frozen in the vitrinite reflectance data — probably is due to the effect of the superposition of a prekinematic, differentiated temperature field, influenced by differential subsidence, with a cooling front moving northwards in the géosynclinal filling during uplift. All greater structures visible in the geologic map of the Rhenish Massif result from a congruent synsedimentary pattern of subsidence coupled with an equally differentiated pattern of postkinematic uplift, the latter also being influenced by the geothermal regime. The proper process of folding does not cause more than an overprinting of the preexisting structures.
Résumé La dégradation thermique de la matière organique dispersée dans les sédiments du Schiefergebirge septentrional, y compris l'Eifel, permet, après détermination des relations, d'évaluer l'évolution tectonique et paléogéographique de la région considérée. Les vues antérieures sur ce sujet sont vérifiées: les anticlinaux de premier ordre résultent de zones géosynclinales à subsidence relativement réduite avec, en même temps, des gradients géothermiques élevés relativement aux synclinaux. Quoique subsidence et flux thermique paraissent liés de cette façon, le champ de température observé-attesté par les données de réflectance du vitrin-est probablement l'effet de la superposition d'un champ de température précinématique, codéterminé par des différences de subsidence, et d'un front de refroidissement se déplaçant vers le Nord pendant le soulèvement. Toutes les grandes structures que la cartographie a mis clairement en évidence dans le Schiefergebirge septentrional, sont à rapporter à un modèle de subsidence synsédimentaire associé à un soulèvement postcinématique différentiel, ce dernier peut-être aussi influencé par un régime géothermique. Au plissement proprement dit revient seulement le rôle d'un facteur se superposant aux structures déjà présentes.
, . , . , , , , , , . , — . : .相似文献
24.
O. Oncken 《International Journal of Earth Sciences》1997,86(1):2-20
The architecture of the European Variscides has been subdivided by Kossmat (1927) into paleogeographically coherent units which are presently interpreted as former plate fragments. The Mid-German Crystalline Rise (MGCR) separates two fragments (Rhenohercynian and Saxothuringian belts) at the site of an inferred plate boundary and reequilibrated orogenic root. The commonly favoured model interprets the MGCR as the magmatic arc on Saxothuringian crust above a south-dipping subduction zone in Upper Devonian and Carboniferous times. Data from the MGCR, the kinematic evolution of the Mid-European Variscides, and first order volume balancing suggest a reinterpretation of this unit which challenges classical views on the MGCR as well as on the subdivision of Variscan architecture. The MGCR is composed of two rock groups with different tectonic identity. A Lower Carboniferous low pressure-high temperature magmatic arc association on Lower Paleozoic basement rests tectonically on a stack of medium pressuremedium temperature rocks of inferred Rhenohercynian origin. The latter were tectonically accreted to the base of the overriding plate by tectonic underplating. The entire process was controlled by oblique convergence. This led to regional partitioning of the plate kinematic vector into contractional domains (lower Rhenohercynian plate and back-arc area of the upper Saxothuringian plate), bulk heterogeneous plate margin parallel extensional domains (MGCR), and plate margin parallel wrench domains (MGCR boundaries). During this process material was continually transferred from the lower plate to the upper plate, uplifted and exhumed by net crustal extension. The concomitant removal of parts of the former arc and the entire orogenic root necessitates a reappraisal of Variscan architecture and evolution. 相似文献
25.
Strain partitioning due to salt: insights from interpretation of a 3D seismic data set in the NW German Basin 总被引:1,自引:0,他引:1
T. Lohr C. M. Krawczyk D. C. Tanner† R. Samiee‡ H. Endres§¶ O. Oncken H. Trappe§ P. A. Kukla¶ 《Basin Research》2007,19(4):579-597
We present results from interpretation of a 3D seismic data set, located within the NW German sedimentary basin, as part of the Southern Permian Basin. We focused on the development of faults, the timing of deformation, the amount of displacement during multiphase deformation, strain partitioning, and the interaction between salt movements and faulting. We recognised the central fault zone of the study area to be the Aller-lineament, an important NW-trending fault zone within the superimposed Central European Basin System. From structural and sedimentological interpretations we derived the following evolution: (1) E–W extension during Permian rifting, (2) N–S extension within cover sediments, and E–W transtension affecting both basement and cover, contemporaneously during Late Triassic and Jurassic, (3) regional subsidence of the Lower Saxony Basin during Late Jurassic/Early Cretaceous, (4) N–S compression within cover sediments, and E–W transpression affecting both basement and cover, contemporaneously during Late Cretaceous/Early Tertiary inversion and (5) major subsidence and salt diapir rise during the Cenozoic. We suggest that the heterogeneity in distribution and timing of deformation in the working area was controlled by pre-existing faults and variations in salt thickness, which led to stress perturbations and therefore local strain partitioning. We observed coupling and decoupling between pre- and post-Zechstein salt units: in decoupled areas deformation occurred only within post-salt units, whereas in coupled areas deformation occurred in both post- and pre-salt units, and is characterised by strike-slip faulting. 相似文献
26.
Maja I. Wegmann Ulrich Riller Fernando D. Hongn Johannes Glodny Onno Oncken 《Journal of South American Earth Sciences》2008,26(1):78-90
The Cerro Durazno Pluton belongs to a suite of Paleozoic granitoid intrusions in NW-Argentina, that are central for understanding the tectonic setting of the western margin of Gondwana in Ordovician and Silurian times. The pluton and its host rocks were tectonically overprinted by metamorphic mineral shape fabrics formed under middle greenschist-facies metamorphic conditions and associated with the nearby Agua Rosada Shear Zone. Kinematic analysis of the shear zone based on the geometric relationship between individual segments of the shear plane and principal axes of mineral fabric ellipsoids indicates reverse-sense of shear with a minor component of left-lateral displacement. This is compatible with the kinematics of other ductile deformation zones in this area, collectively forming a network, which accomplished orogen-parallel extension in addition to vertical thickening. Using the Rb–Sr isotopic system, an undeformed pegmatite dike of the Cerro Durazno Pluton was dated at 455.8 ± 3.6 Ma and mineral fabrics of the Agua Rosada Shear Zone formed at middle greenschist-facies metamorphism gave deformation ages of 437.0 ± 3.8 Ma and 428.4 ± 4.5 Ma. Thus, tectonic overprint at low metamorphic grade occurred about 20–30 Ma after terminal magmatism in the Cerro Durazno area. Our data from the Cerro Durazno area and regional considerations suggest that the western margin of Gondwana was characterized by orogen-parallel extension in addition to crustal thickening as well as episodes of magmatism and ductile deformation that varied greatly in time and space. 相似文献
27.
Juliane Ramelow Ulrich Riller Rolf L. Romer Onno Oncken 《International Journal of Earth Sciences》2006,95(3):529-541
A combined geochronological and structural analysis of the Miocene Negra Muerta Caldera was designed to better understand caldera formation associated with prominent faults on the central Andean plateau. Rb–Sr ages of the caldera outflow facies indicate that caldera formation occurred in two volcano-tectonic episodes. The first episode commenced with explosive eruption of the 9.0±0.1 Ma andesitic Acay Ignimbrite followed by a period of volcanic quiescence and moderate tectonic activity. Dominant volcanic and tectonic activity occurred during the second episode, which is bracketed by eruption of the 7.6±0.1 Ma rhyolitic Toba 1 Ignimbrite and effusive discharge of the 7.3±0.1 Ma rhyodacitic to andesitic lava flows. Structural relationships between rocks of the Negra Muerta Volcanic Complex and collapse-induced normal faults, notably NE-striking normal faults, agree with simultaneous volcanic activity and floor subsidence of the caldera during the second episode. Floor subsidence was achieved by tilting on an outward dipping reverse fault to the northwest of the caldera floor around a hinge zone located south of the caldera floor. This induced horizontal extension of the caldera floor and was accomplished by fragmentation of, and intrusion of dikes into, the floor. Collapse-induced and post-collapse fault populations of the caldera do not differ significantly in the directions of their axes of maximum extension and are in this respect kinematically compatible with left-lateral slip on the nearby Olacapato-El Toro Fault Zone. This furnishes evidence for a kinematic control by prominent faults on the formation of collapse calderas in the central Andes. The structural analysis of the Negra Muerta Caldera shows that collapse calderas can serve as deformation markers that contribute in elucidating the regional kinematic regime and the time of activity of prominent dislocations genetically related to collapse calderas. 相似文献
28.