Palaeomagnetic investigations and Rb–Sr dating were carried out on samples from two plutons from the Granite Harbour Intrusives of the Transantarctic Mountains inland of Terra Nova Bay. The Rb–Sr whole rock–biotite ages from Teall Nunatak (475±4, 483±4 Ma), a quartz-diorite pluton cropping out to the south of Priestley Glacier, are older than that from the Mount Keinath monzogranite (450±4 Ma), which is located to the north of the glacier. These results are consistent with the literature data, which suggest that during the last phases of the Ross Orogeny the cooling rate of the basement was significantly lower to the north than to the south of Priestley Glacier. The Teall Nunatak quartz-diorite is characterized by a stable magnetization, whose blocking-temperature spectrum ranges from 530 to 570 °C. At one site, the stable magnetization is screened by a large secondary component of opposite polarity, removed by thermal demagnetization below 300 °C. The characteristic directions after thermal demagnetization yielded a southern pole located at lat. 11°S, long. 21°E. The magnetization of Mount Keinath monzogranite consists of several components with overlapping stability spectra. A characteristic direction was isolated at one site only, obtained by demagnetizing the specimens in the temperature range from 380 to 460 °C. Comparison with the other East Antarctica poles shows that those from Victoria Land are very well grouped and give a reliable early Ordovician palaeopole (lat. 5°S, long. 23°E, with K =196 and A 95=3.7°), whereas the poles from Wilkes, Enderby and Dronning Maud Land are dispersed. We tentatively advance the hypothesis that the dispersion reflects different magnetization ages due to the slow cooling of these regions during the last stages of the Ross Orogeny. 相似文献
Stability conditions in an area located NW of Barcelona (Spain) are discussed. Here, several mass movements were observed, mainly affecting weathered Paleozoic slates. Many of these failures involved slopes cut along recent infrastructures: debris flows, wedge and plane failures, generally surficial, occurred more frequently. After a detailed geological and geomorphologic survey, geomechanic characterization was carried out, according to RMR and SMR classifications. This rating gave a prediction of slope behaviour, in fairly good agreement with the real observed one.
Stability numerical analysis was carried out for the main cut slopes, based upon the Limit Equilibrium Method. First of all, the deterministic factor of safety was computed using the mean values of parameters. After that, a simulation technique based upon the Monte Carlo Method was applied in order to obtain factor of safety distributions. The probability of failure was estimated as P(F<1).
Finally, results from deterministic and probabilistic approaches were compared. The effectiveness of different possible remedial measures was highlighted by means of a sensitivity analysis, which showed that the more important parameters in the study area are the geometrical ones (height, slope and failure plane angles). The final technical solutions adopted are briefly outlined. 相似文献
We present quantitative analyses of 7 galactic O stars of spectral types from O3 to O6. By means of classical hydrostatic
and planeparallel models we find the so-called He and Mass Discrepancies for a number of stars of our sample. We also prove
the need of line-blocking for the correct reproduction of these spectra. For stars with effective temperature around 50 000
K and above, there is no possibility of reproducing their spectra with these kind of models. Further analyses with unified
models, including sphericity and mass loss, allow us to reproduce even the earliest spectra. They also show that the Mass
Discrepancy is not only due to the neglect of sphericity and mass loss in the planeparallel analysis, and give us the mass
loss rate of these stars. We find that HD15 570, with a present mass of 100 M⊙, can be the most massive star known in the solar neighbourhood.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
In previous papers we have published preliminary results on the stellar oxygen-abundance gradient in M33 by using B-type supergiants.
In the present study, we include one new B-supergiant and derive effective temperatures and gravities for these stars. The
determination of atmospheric parameters is based on analyses of silicon ionisation balance.
Detailed non-LTE model atmospheres and non-LTE line formation calculations were used for the abundance determination of Si
and O. Careful differential analyses are used to quantify the differences in metal abundances between M33 stars and MK spectral
standards in our Galaxy.
We compare our results with the abundances expected from studies of HII regions.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
We present the results of a numerical code that combines multi-zone chemical evolution with 1D hydrodynamics to follow in detail the evolution and radial behaviour of gas and stars during the formation of elliptical galaxies. We use the model to explore the links between the evolution and formation of elliptical galaxies and QSO activity. The knowledge of the radial gas flows in the galaxy allows us to trace metallicity gradients, and, in particular, the formation of a high-metallicity core in ellipticals. The high-metallicity core is formed soon enough to explain the metal abundances inferred in high-redshift quasars. The star formation rate and the subsequent feedback regulate the episodes of wind, outflow and cooling flow, thus affecting the recycling of the gas and the chemical enrichment of the intergalactic medium. The evolution of the galaxy shows several stages, some of which are characterized by a complex flow pattern, with inflow in some regions and outflow in other regions. All models, however, exhibit during their late evolution a galactic wind at the outer boundary and, during their early evolution, an inflow towards the galactic nucleus. The characteristics of the inner inflow could explain the bolometric luminosity of a quasar lodged at the galactic centre as well as the evolution of the optical luminosity of quasars. 相似文献
Riassunto Nell'Autoctono sedimentario delle Alpi Marittime è stata individuata una formazione tipica, sfuggita agli autori precedenti benchè molto caratteristica ed abbastanza estesa. Si tratta perloppiù di calcari, più o meno arenacei, che contengono ciottoli di porfido quarzifero, di rocce migmatiche e di rocce sedimentarie. Ciò porta a modificare lo schema paleogeografico tradizionale ammettendo una emersione del nucleo del Massiccio dell'Argentera nel Cretaceo superiore.
In the autochtonous sedimentary beds of Alpi Marittime a typical formation is found; it is very peculiar and extends over a wide area, but until now it was unknown. The most common lithotypes represented in it are limestones with variable amounts of arenaceous material and containing pebbles of rhyolites and of migmatitic and sedimentary rocks. From these rock types a new paleogeographic scheme is strongly suggested, one in which there was the emersion of the central Argentera Massif during the late Cretaceous time.
Zusammenfassung In den autochthonen sedimentären Einheiten der Meeralpen wurde eine typische Formation entdeckt, die bis jetzt von früheren Verfassern vernachlässigt wurde. Es handelt sich meistens um mehr oder weniger sandige Kalke, die Gerölle von Quarzporphyren und von migmatischen und sedimentären Gesteinen enthalten. Das führt dazu, das bisherige paläogeographische Bild durch das Auftauchen des Kerns vom Argentera-Massiv in der Oberen Kreide abzuändern.
Résumé Dans l'Autochtone sédimentaire des Alpes-Maritimes a été découverte une formation typique, qui a échappé aux auteurs précédents, quoique étant bien caractéristique et suffisamment répandue. Il s'agit normalement de calcaires, plus ou moins gréseux, qui contiennent des galets de rhyolites, de roches migmatiques et de. roches sédimentaires. Cela conduit à modifier le schéma paléogéographique traditionnel en reconnaissant une émersion du noyau du Massif de l'Argentera dans le Crétacé supérieur.
Is compression across the northern Apennine fold‐and‐thrust system (Italy) still active? To address this question, we quantified the long‐term rates of migration and shortening of the system along with the measurement errors. Our approach integrates structural geology, seismicity patterns, and statistical treatment of tectonic activity. On the basis of recently published surface and subsurface data, we found a migration rate of 8.85 ± 0.61 mm yr−1. The inception age of individual fold structures follow closely this average rate, indicating that the system has been migrating at a constant rate for the past 17 Myr. Cumulative shortening of the system also increases linearly through time at 2.93 ± 0.31 mm yr−1. The location of the youngest structures in the easternmost portion of the system coincides with a significant peak of seismic moment released by historical earthquakes. We conclude that not only these easternmost thrusts are still active, but also that they generate earthquakes. 相似文献