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991.
A random vibration method is developed for the response analysis of hysteretic structural systems under stochastic two-dimensional earthquake excitations. The biaxial hysteretic restoring force is modelled by coupled non-linear differential equations; the response statistics are obtained using the equivalent linearization technique. The validity of the proposed model is appraised using available biaxial loading tests of reinforced concrete columns. A parametric study was performed to examine the significance of the effects of biaxial interaction under earthquake excitations. A practical method to evaluate the extreme response statistics is also presented. 相似文献
992.
Antony John Reedman Ki Hwa Park Richard James Merriman Seon Eok Kim 《Bulletin of Volcanology》1987,49(3):541-546
A plug of parataxitically welded tuff, with an elliptical (700 × 400 m) cross section, crops out in Weolseong district, Republic of Korea. It intrudes late Cretaceous granodiorite and extrusive tuffs of the Chisulryoung Volcanic Formation and displays a steeply inclined welding foliation, concordant with the intrusive contacts, and a subvertical stretching lineation. These fabrics are interpreted as resulting from laminar shearing in a boundary layer during deposition of the tuff by agglutination along the walls of a vent which served as a feeder for extrusive ignimbrites. 相似文献
993.
The Orust dykes and their regional correlatives are an important time marker in the polymetamorphic Östfold-Marstrand belt of S.E. Norway and S.W. Sweden. They were deformed and metamorphosed in the amphibolite facies during the Sveconorwegian (= Grenville) orogeny. Three narrow strongly deformed dykes yield Rb---Sr whole-rock ages (1106 ± 52 m.y., 1062 ± 90 m.y., 1000 ± 153 m.y.). The weighted mean age (1087 m.y.) is interpreted as the age of the first post-dyke deformation and the accompanying amphibolite facies metamorphism. High initial 87Sr/86Sr ratios (0.7074 ± 9, 0.710 ± 2, 0.713 ± 3, respectively) and other geochemical evidence point to considerable exchange of mobile elements between the dykes and the country rocks. The emplacement age is not known precisely. However, the dykes may be correlated with widespread mafic magnatism which accompanied crustal instability in the N. Atlantic region early in the Sveconorwegian (= Grenville) orogeny about 1200 m.y. ago. 相似文献
994.
995.
R. Graham Park 《International Journal of Earth Sciences》1982,71(1):22-37
The characteristic structures of granite-greenstone and high-grade gneiss terrains are reviewed, using the Superior Province and the North Atlantic craton as examples, with the object of finding a suitable tectonic model to explain both. The granite-greenstone terrain exhibits a combination of gravity-driven vertical tectonics and regional horizontal compression, while the high-grade gneiss terrain shows dominantly subhorizontal high-strain foliation affected by later refoldings.A uniformitarian plate tectonic model may not be appropriate to the Archaean in the likely absence of eclogite-driven subduction and because of practical problems in explaining the deformation patterns.Various alternative mechanisms are considered to explain the structure of the high-grade gneiss terrains in particular. It is concluded that the most fruitful model is tectonic underplating, whereby the crust is thickened from beneath by the emplacement of crustal slices detached from their mantle lithosphere — itself underplated independantly. Such a process could have operated in the North Atlantic craton coevally with greenstone formation and subsequent diapirism in the Superior Province.Sub-horizontal N-S compression affected both cratons in the late Archaean, after the above processes had taken place, when the crust had become sufficiently rigid to be able to transmit regional stresses.
Zusammenfassung Die charakteristischen Strukturen von Granit-Grünschiefern und hochgradigen Gneisgebieten werden zusammenfassend betrachtet, wobei die Superior Province und das nordatlantische Kraton als Beispiele benutzt werden. Es wird versucht, ein geeignetes tektonisches Modell zu finden, um beide Gebiete zu erklären. Das Granit-Grünschiefergebiet stellt eine Kombination der von durch Gravitation verursachter vertikaler Tektonik und regionaler horizontaler Kompression dar, während das hochgradige Gneisgebiet eine hauptsächlich durch starke Beanspruchung verursachte subhorizontale Schichtung zeigt, beeinflußt durch spätere Faltungen.Ein uniformitarisches plattentektonisches Modell dürfte nicht für das Archaikum geeignet sein, wenn durch Eklogite verursachte Subduktion höchstwahrscheinlich nicht vorhanden ist und wenn außerdem praktische Probleme bei der Erklärung der Deformationsstrukturen auftauchen.Verschiedene alternative Mechanismen werden insbesondere für die Erklärung der Struktur des hochgradigen Gneisgebietes in Betracht gezogen. Als bestes Modell fanden wir die tektonische Anlagerung von unten, wobei die Kruste von unten her durch den Aufbau von Krustenscheiben, die vom Lithosphären-Mantel abgesplittert werden, verstärkt worden ist — wobei diese wiederum unabhängig davon Anlagerungen von unten aufweist. Solch ein Prozeß könnte im nordatlantischen Kraton stattgefunden haben, zusammen mit der Grünschieferformation und dem folgenden Diapirismus in der Superior Province.Subhorizontale N-S-Kompression beeinflußte beide Kratone im späten Archaikum, nachdem die obigen Prozesse stattgefunden hatten und als die Kruste genügend stark geworden war, um die regionalen Spannungen weiterzuleiten.
Résumé Les structures caractéristiques des domaines à granites et roches vertes, et à gneiss de haut degré de métamorphisme, sont passées en revue; les exemples utilisés sont ceux de la Province Supérieure et du craton de l'Atlantique nord, et ce, dans l'intention de trouver un modèle tectonique approprié à l'explication des deux. Le domaine à granites et roches vertes témoigne de la combinaison d'une tectonique verticale mue par la pesanteur et d'une compression horizontale régionale, tandis que les formations à gneiss de degré de métamorphisme élevé montrent principalement une foliation subhorizontale sous forte tension, affectée par des replissements ultérieurs.Un modèle de tectonique de plaque basé sur la théorie de l'actualisme ne peut pas être appropriée à l'Archéen, étant donné l'absence probable de subduction actionée par des éclogites et en raison des difficultés pratiques à expliquer les structures de déformation.Plusieurs autres mécanismes sont envisagés pour expliquer la structure des régions à gneiss de degré de métamorphisme elevé. On en arrive à conclure que la modèle le plus efficient est le «sous-placage tectonique» suivant lequel la croûte s'épaissit par la mise en place, par en-dessous, de tranches de croûte détachées de leur »manteau-lithosphère«, elles-mêmes des sous-plaques indépendantes. Un tel processus aurait pu fonctionner dans le craton de l'Atlantique nord à la même époque que la formation de roches vertes et que le diapirisme subséquent dans la Province Supérieure.La compression sub-horizontale nord-sud a agi sur les deux cratons vers la fin de l'Archéen, et après qu'eurent lieu les processus ci-dessus, quand la croûte était devenue assez rigide pour pouvoir transmettre des efforts régionaux.
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996.
Hyung-Gyu Lim Sang-Wook Yeh Ji-Won Kim Rokjin Park Chang-Keun Song 《Meteorology and Atmospheric Physics》2014,126(1-2):71-79
Due to the dramatic increase in the global mean surface temperature (GMST) during the twentieth century, the climate science community has endeavored to determine which mechanisms are responsible for global warming. By analyzing a millennium simulation (the period of 1000–1990 ad) of a global climate model and global climate proxy network dataset, we estimate the contribution of solar and greenhouse gas forcings on the increase in GMST during the present warm period (1891–1990 ad). Linear regression analysis reveals that both solar and greenhouse gas forcing considerably explain the increase in global mean temperature during the present warm period, respectively, in the global climate model. Using the global climate proxy network dataset, on the other hand, statistical approach suggests that the contribution of greenhouse gas forcing is slightly larger than that of solar forcing to the increase in global mean temperature during the present warm period. Overall, our result indicates that the solar forcing as well as the anthropogenic greenhouse gas forcing plays an important role to increase the global mean temperature during the present warm period. 相似文献
997.
The impact of marine ecosystem on the tropical climate variability in the Indian Ocean is investigated by performing coupled ocean/biogeochemical model experiments, which are forced by realistic surface winds from 1951 to 2010. Results from a suite of chlorophyll perturbation experiments reveal that the presence of chlorophyll can have significant effects on the characteristics of the Indian Ocean Dipole (IOD), including its amplitude and skewness, as well as on the mean state. Specifically, chlorophyll increases mean sea surface temperature due to direct biological heating in regions where the mean mixed layer depth is generally shallow. It is also found that the presence of chlorophyll affects the IOD magnitude by two different processes: One is the amplifying effect by the mean chlorophyll, which leads to shoaling of mean thermocline depth, and the other is the damping effect by the interactively varying chlorophyll coupled with the physical model. There is also a biological impact on the skewness of the IOD, resulting in enhanced positive skewness. This skewness change is primarily caused by the phase dependency of the above two contradicting effects involving the asymmetric thermocline feedback and the nonlinear mixed layer heating. 相似文献
998.
Seychelles coral record of changes in sea surface temperature bimodality in the western Indian Ocean from the Mid-Holocene to the present 总被引:1,自引:0,他引:1
J. Zinke M. Pfeiffer W. Park B. Schneider L. Reuning W.-Chr. Dullo G. F. Camoin A. Mangini A. Schroeder-Ritzrau D. Garbe-Schönberg G. R. Davies 《Climate Dynamics》2014,43(3-4):689-708
We report fossil coral records from the Seychelles comprising individual time slices of 14–20 sclerochronological years between 2 and 6.2 kyr BP to reconstruct changes in the seasonal cycle of western Indian Ocean sea surface temperature (SST) compared to the present (1990–2003). These reconstructions allowed us to link changes in the SST bimodality to orbital changes, which were causing a reorganization of the seasonal insolation pattern. Our results reveal the lowest seasonal SST range in the Mid-Holocene (6.2–5.2 kyr BP) and around 2 kyr BP, while the highest range is observed around 4.6 kyr BP and between 1990 and 2003. The season of maximum temperature shifts from austral spring (September to November) to austral autumn (March to May), following changes in seasonal insolation over the past 6 kyr. However, the changes in SST bimodality do not linearly follow the insolation seasonality. For example, the 5.2 and 6.2 kyr BP corals show only subtle SST differences in austral spring and autumn. We use paleoclimate simulations of a fully coupled atmosphere–ocean general circulation model to compare with proxy data for the Mid-Holocene around 6 kyr BP. The model results show that in the Mid-Holocene the austral winter and spring seasons in the western Indian Ocean were warmer while austral summer was cooler. This is qualitatively consistent with the coral data from 6.2 to 5.2 kyr BP, which shows a similar reduction in the seasonal amplitude compared to the present day. However, the pattern of the seasonal SST cycle in the model appears to follow the changes in insolation more directly than indicated by the corals. Our results highlight the importance of ocean–atmosphere interactions for Indian Ocean SST seasonality throughout the Holocene. In order to understand Holocene climate variability in the countries surrounding the Indian Ocean, we need a much more comprehensive analysis of seasonally resolved archives from the tropical Indian Ocean. Insolation data alone only provides an incomplete picture. 相似文献
999.
1000.
Yoon Tae-Ho Bae Jaeyong Kang Hye-Eun Choi Jung Hwa Lee Chung Il Park Won-gyu Kim Hyun-Woo 《Ocean Science Journal》2015,50(1):61-75
Ocean Science Journal - The molecular markers to distinguish different larval stages have various applications in ecological studies. Using the differential display RT-PCR technique, we isolated... 相似文献