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31.
For a proper response spectrum analysis of a secondary system with multiple supports, the seismic inputs are required to be defined in terms of the auto and cross floor response spectra. If no feed-back or interaction effect from the secondary system to its supporting primary structure is suspected, these inputs can be developed by a direct analysis of the supporting structure alone. However, sometimes the effect of the interaction on the secondary system response can be quite significant. Herein, a method is developed to incorporate the feed-back effect, through proper modification of the interaction-free floor spectrum inputs. The interaction coefficients are used to effect such modifications in different floor spectral quantities. A procedure for the calculation of the interaction coefficients is proposed. The modified floor spectra when used as inputs to the secondary system do introduce the interaction effect in the secondary system response. A successful application of this method is demonstrated by numerical examples of secondary systems with three different secondary-to-primary system mass ratios. 相似文献
32.
Patrick A. Hesp Sergio Rebello Dillenburg Eduardo Guimaraes Barboza Luiz C. P. Clerot Luiz J. Tomazelli Ricardo Norberto Ayup Zouain 《地球表面变化过程与地形》2007,32(3):407-414
The surface morphology of the transgressive dunefield barrier extending from Itapeva to Tramandai along the northern littoral of Rio Grande do Sul, is examined and an attempt is presented to link morphological changes across the barrier to Holocene sea level changes. The 4·5 km wide Holocene barrier displays two typical morphologies: an inner part dominated by large‐scale, continuous alongshore, overlapping dunefield phases comprising sand sheets, dunes, deflation plains and precipitation ridges; and an outer part dominated by discontinuous, medium‐ to small‐scale, triangular to lobate transgressive dunefield phases, cut by both active and relict (palaeo‐) creeks or washouts. Holocene sea level in the region rose to c. +1 to +3 m above present reaching a maximum around 5100 years bp and then progressively fell to the present level. We argue that the effect on barrier development was to suppress the development of a drainage system during the rising and maximum stages, and encourage the development of an organized drainage system in the form of regularly spaced washouts during the falling period, and that this change in sea level from rising to falling therefore produced the large‐scale differences in barrier morphology. Copyright © 2006 John Wiley & Sons, Ltd. 相似文献
33.
A statistical analysis of the peak acceleration demands for nonstructural components (NSCs) supported on a variety of stiff and flexible inelastic regular moment‐resisting frame structures with periods from 0.3 to 3.0 s exposed to 40 far‐field ground motions is presented. Peak component acceleration (PCA) demands were quantified based on the floor response spectrum (FRS) method without considering dynamic interaction effects. This study evaluated the main factors that influence the amplification or decrease of FRS values caused by inelasticity in the primary structure in three distinct spectral regions namely long‐period, fundamental‐period, and short‐period region. The amplification or decrease of peak elastic acceleration demands depends on the location of the NSC in the supporting structure, periods of the component and building, damping ratio of the component, and level of inelasticity of the supporting structure. While FRS values at the initial modal periods of the supporting structure are reduced due to inelastic action in the primary structure, the region between the modal periods experiences an increase in PCA demands. A parameter denoted as acceleration response modification factor (Racc) was proposed to quantify this reduction/increase in PCA demands. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
34.
Pierre Le Hir Andre Ficht Ricardo Silva Jacinto Patrick Lesueur Jean-Paul Dupont Robert Lafite Isabelle Brenon Benedicte Thouvenin Philippe Cugier 《Estuaries and Coasts》2001,24(6):950-963
A comprehensive study of fine sediment transport in the macrotidal Seine estuary has been conducted, including observations of suspended particulate matter (SPM), surficial sediment, and bathymetric data, as well as use of a three dimensional mathematical model. Tide, river regime, wind, and wave forcings are accounted. The simulated turbidity maximum (TM) is described in terms of concentration and location according to tidal amplitude and the discharge of the Seine River. The TM is mainly generated by tidal pumping, but can be concentrated or stretched by the salinity front. The computed deposition patterns depend on the TM location and are seasonally dependent. The agreement with observations is reasonable, although resuspension by waves may be overestimated. Although wave resuspension is likely to increase the TM mass, it generally occurs simultaneously with westerly winds that induce a transverse circulation at the mouth of the estuary and then disperse the suspended material. The resulting effect is an output of material related to wind and wave events, more than to high river discharge. The mass of the computed TM remains stable over 6 months and independent of the river regime, depending mainly on the spring tide amplitude. Computed fluxes at different cross-sections of the lower estuary show the shift to the TM according to the river flow and point out the rapidity of the TM adjustment to any change of river discharge. The time for renewing the TM by riverine particles has been estimated to be one year. 相似文献
35.
A six-step practical approach to semivariogram modeling 总被引:3,自引:2,他引:3
Geostatistical prediction and simulation are being increasingly used in the earth sciences and engineering to address the imperfect knowledge of attributes that fluctuate over large areas or volumes—pollutant concentration, electromagnetic fields, porosity, thickness of a geological formation. Central to the application of such techniques is the need to know the spatial continuity, knowledge that is commonly condensed in the form of covariance or semivariogram models. Their preparation is subdivided here into the following steps: (1) Data editing, (2) Exploratory data analysis, (3) Semivariogram estimation, (4) Directional investigation, (5) Simple modeling, (6) Nested modeling. I illustrate these stages practically with a real data set from a geophysical survey from Elk County, Kansas, USA. The applicability of the approach is not limited by the physical nature of the attribute of interest. 相似文献
36.
Preservation of large titanosaur sauropods in overbank fluvial facies: A case study in the Cretaceous of Argentina 总被引:1,自引:0,他引:1
Bernardo J. Gonzlez Riga Ricardo A. Astini 《Journal of South American Earth Sciences》2007,23(4):290-303
Patagonia exhibits a particularly abundant record of Cretaceous dinosaurs with worldwide relevance. Although paleontological studies are relatively numerous, few include taphonomic information about these faunas. This contribution provides the first detailed sedimentological and taphonomical analyses of a dinosaur bone quarry from northern Neuquén Basin. At Arroyo Seco (Mendoza Province, Argentina), a large parautochthonous/autochthonous accumulation of articulated and disarticulated bones that represent several sauropod individuals has been discovered. The fossil remains, assigned to Mendozasaurus neguyelap González Riga, correspond to a large (18–27-m long) sauropod titanosaur collected in the strata of the Río Neuquén Subgroup (late Turoronian–late Coniacian). A taphonomic viewpoint recognizes a two-fold division into biostratinomic and fossil-diagenetic processes. Biostratinomic processes include (1) subaerial biodegradation of sauropod carcasses on well-drained floodplains, (2) partial or total skeletal disarticulation, (3) reorientation of bones by sporadic overbank flows, and (4) subaerial weathering. Fossil-diagenetic processes include (1) plastic deformation of bones, (2) initial permineralization with hematite, (3) fracturing and brittle deformation due to lithostatic pressure; (4) secondary permineralization with calcite in vascular canals and fractures, and (5) postfossilization bone weathering. This type of bone concentration, also present in Rincón de los Sauces (northern Patagonia), suggests that overbank facies tended to accumulate large titanosaur bones. This taphonomic mode, referred to as “overbank bone assemblages”, outlines the potential of crevasse splay facies as important sources of paleontological data in Cretaceous meandering fluvial systems. 相似文献
37.
Geologists may want to classify compositional data and express the classification as a map. Regionalized classification is a tool that can be used for this purpose, but it incorporates discriminant analysis, which requires the computation and inversion of a covariance matrix. Covariance matrices of compositional data always will be singular (noninvertible) because of the unit-sum constraint. Fortunately, discriminant analyses can be calculated using a pseudo-inverse of the singular covariance matrix; this is done automatically by some statistical packages such as SAS. Granulometric data from the Darss Sill region of the Baltic Sea is used to explore how the pseudo-inversion procedure influences discriminant analysis results, comparing the algorithm used by SAS to the more conventional Moore–Penrose algorithm. Logratio transforms have been recommended to overcome problems associated with analysis of compositional data, including singularity. A regionalized classification of the Darss Sill data after logratio transformation is different only slightly from one based on raw granulometric data, suggesting that closure problems do not influence severely regionalized classification of compositional data. 相似文献
38.
39.
Dr. Ricardo Mon 《International Journal of Earth Sciences》1976,65(1):211-222
In the eastern border area of the Andes of north-western Argentina two structural units are represented: the Cordillera Oriental and the Sierras Subandinas.The Cordillera Oriental represents a structural unit of faulted blocks strongly uplifted in relation to the Sierras Subandinas. In the Cordillera Oriental, the metamorphic basement has been partially folded together with the sedimentary cover. In some cases the cover has been detached away from its substratum and folded independently of it.It was generally accepted that the Sierras Subandinas coincide with big asymmetrical anticlines produced in the cover rocks by tilting of rigid basement blocks. The detailed geological mapping of the region situated between the parallels 24° 45 and 26° latitude south and the meridians 64° 30 and 66° west has provided data that permit to modify considerably this scheme.The existence of important strike-slip faults running highly oblique to the main regional structural pattern and controlling the shape of the Sierras Subandinas folds has been verified. These highly oblique faults with strike-slip movements, that affect the whole region, are probably ancient lineaments reactivated during Andean diastrophism in Upper Pliocene to Early Pleistocene time.
Zusammenfassung Im östlichen Grenzgebiet der Anden im nordwestlichen Argentinien liegen zwei strukturell unterschiedliche Einheiten vor, die Cordillera Oriental und die subandinen Sierren (Sierras Subandinas).Die Cordillera Oriental besteht aus Leistenschollen eines leicht metamorphisierten Sockels. Sie ist als Ganzes im Verhältnis zu den subandinen Sierren stark herausgehoben worden. In der Cordillera Oriental wurde dieser Sockel zum Teil zusammen mit seinen sedimentären Deckschichten verfaltet, zum Teil wurden sie aber auch von ihrem Unterlager abgeschert und unabhängig von ihm gefaltet.Bisher wurde allgemein angenommen, daß die subandinen Sierren aus großen assymmetrischen Falten aufgebaut werden, die in den Deckschichten durch Kippung starrer Blöcke im tieferen Untergrund hervorgerufen wurden. Die genaue geokartographische Aufnahme eines Gebietes zwischen den Breitenkreisen 24° 45 und 26° südl. Breite und den Längenkreisen 64° 30 und 66° westl. Länge erbrachte Daten, die es erlauben, diese Vorstellung erheblich zu modifizieren.Weit durchhaltende Seitenverschiebungen, die die übergeordneten Strukturen des gesamten Gebietes schräg durchziehen und die Gestalt der Falten in den Sierren erheblich beeinflussen, wurden nachgewiesen. Sie stellen wahrscheinlich alte, präandine Lineamente dar, die während der Anden-Orogenese im Jungtertiär bis Altpleistozän reaktiviert Wurden.
Resumen En el borde oriental de los Andes del Noroeste Argentino están representadas dos unidades estructurales: la Cordillera Oriental y las Sierras Subandinas.La Cordillera Oriental es una unidad constituida por bloques fallados y, en conjunto, elevada con respecto a las Sierras Subandinas. En la Cordillera Oriental el basamento metamórfico ha sido parcialmente plegado junto con la cobertura sedimentaria. En algunos casos lo cobertura ha sido despegada de su substrato y plegada independientemente.En general se aceptaba que las Sierras Subandinas coincidian con grandes anticlinales asimétricos producidos en la cobertura sedimentaria por el basculamiento de bloques rígidos de basamento situados en el subsuelo. La cartografía geológica-estructural detallada de la región comprendida por los paralelos 24° 45 y 26° S y los meridianos 64° 30 y 66° W ha proporcionado datos que permiten modificar considerablemente este esquema.Se ha comprobado la existencia de importantes fallas transcurrentes, fuertemente oblicuas con respecto a la estructura regional, que han tenido profunda influencia sobre la forma de los pliegues subandinos. Estas fallas oblicuas son probablemente lineamientos antiguos en los que el diastrofismo Andico (Plioceno-Pleistoceno) ha producido considerables desplazamientos paralelos al rumbo de los mismos.
Résumé Dans la bordure orientale des Andes du Nord-ouest de l'Argentine, deux unités structurales différentes sont présentes: les Sierras subandines et la Cordillère orientale.La Cordillère orientale est composée d'un socle faiblement métamorphique faillé en blocs fortement surélevés par rapport aux Sierras subandines. Dans la Cordillère orientale, ce socle métamorphique a été en partie plissé avec sa couverture sédimentaire; mais parfois celle-ci a été décolée de son substratum et plissé indépendentement.Jusqu'à présent, on admettait que les Sierras subandines sont constituées de grands anticlinaux assymétriques produits dans la couverture par l'ascension de blocs faillés du socle. La cartographie géologico-structurale detaillée de la région comprise entre les parallèles 24° 45 et 26° de latitude sud et les méridiens 64° 30 et 60° ouest conduit à modifier considérablement ce schéma.D'importants décrochements très obliques par rapport à la direction de la structure régionale et qui ont fortement influencé la forme des plis subandins sont probablement des accidents anciens rajeunis pendant le diastrophisme andin au cours du Pliocène supérieur et du Pléistocène inférieur.
- : Cordillera Oriental Sierras Subandinas. . . ; . , , . 24°45 26° 64°30 66° . , , . , , , , .相似文献
40.
Liliane Janikian Renato Paes De Almeida Ricardo Ivan Ferreira Da Trindade Antonio Romalino Santos Fragoso‐Cesar Manoel Souza D′Agrella‐Filho Elton Luis Dantas Eric Tohver 《地学学报》2008,20(4):259-266
The Ediacaran is one of the most important periods on Earth evolution, including the first appearance of soft‐bodied macrofossils, major climatic changes and a supposed rise in free oxygen. In southernmost Brazil, this period is represented by Camaquã Supergroup, including the Bom Jardim Group and the Acampamento Velho Formation, both of which record continental palaeoenvironmental changes in a more than 5000 m thick stratigraphic succession. Age constraints are given by seven Ar‐Ar and U‐Pb determinations on volcanic rocks, which bracket these units between c. 605 and 574 Ma, revealing the best dated and most continuous documented Ediacaran continental succession to date. Depositional systems evolution supports a Phanerozoic‐type glacial context during the last Neoproterozoic glacial event and presents the Picada das Graças Formation (580 ± 3.6 Ma) as the first dated non‐glacial unit coeval to the Gaskiers Formation. 相似文献