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1.
World-wide synthetic tide parameters for gravity and vertical and horizontal displacements 总被引:3,自引:0,他引:3
The response of the Earth’s crust to the direct effect of lunisolar gravitational forcing is known as the body tide. The body tide is superimposed by surface-loading forces due to the pressure of the periodically varying ocean tide acting on the Earth, called ocean tide loading (OTL). Both body tide and OTL can be decomposed into components of the same frequency known as tidal parameters. However, OTL is more complicated than body tides because of the dynamic effects of the ocean. Estimating OTL requires a model of the ocean tides and knowledge of the elastic properties of the solid Earth. Thus, synthetic tide parameters (amplitude factors and phase leads) have been developed here on a world-wide grid for gravity and positional displacements. The body tide contributions were added to the oceanic contribution to provide the Earth tide response. The accuracy and reliability of the synthetic tidal parameters have been estimated by comparing observed gravity and vertical-displacement tide parameters with those interpolated from our synthetic model, which shows good agreement. Tests also indicate that the synthetic tide parameters provide realistic gravimetric and displacements for practical use in tidal prediction. 相似文献
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3.
In this paper, we analyze the stress change associated with the inverted volcanic source models at Mayon volcano, Philippines,
where there are gravity changes without significant deformation after the 1993 eruption. We detail the applicable data and
the associated inversion techniques and models prior to calculating the appropriate stress changes. It is determined that
the stress change associated with the central magmatic source produces compressional stress changes at a secondary source
to the northwest, prompting a change in the local water storage in the underlying fractured rock. 相似文献
4.
Hofmann Y. Jahr T. Jentzsch G. Bankwitz P. Bram K. 《Studia Geophysica et Geodaetica》2000,44(4):608-610
The Vogtland and NW Bohemia are characterized geoscientifically by periodically occurrence of swarm earthquakes. The basic geophysical mechanism is not yet sufficiently clarified, just like detail questions to geology in especially the deeper underground. Complex geophysical investigations in the seismoactive region indicate geodynamic phenomena like mass redistribution or stress accumulation and release (Spiák et al., 1998). According to Grünthal (1989) a weakness zone is suggested in the region of the swarm earthquakes. This zone can be caused by fluid-tectonics (Kämpf et al., 1992), a mantle plume (pers. com. J. Svancara, 1999) and/or by the geometry of the geological structures (Neunhöfer & Güth, 1988). A three-dimensional gravimetric model can clear up the underground situation. By means of high-resolution gravimetry a three-dimensional model will be developped for the Vogtland and NW Bohemia region. In the first step a homogeneous Bouguer map of the Vogtland and NW Bohemia was created (fig. 1) containing gravity structures analysed by Ibrmajer & Suk (1989) and Blízkovsky et al. (1985). The used gravimetric data were made available by the Saxonian National Office for Environment and Geology, by the Czech Geological Survey, Prague and by the GGA Hannover.
In the context with the interpretation of the deep-seismic profile MVE 90 a two-dimensional gravimetric modeling was carried out (Behr et al., 1994), too. Anomaly-producing source bodies apparently do not offer themselves in a two-dimensional model, because after Jung (1961) the length of a gravimetric source structure must be about four times larger than it's width. The technique of the three-dimensional gravimetric modeling by means of any polyhedrons was developed by Götze (1976, 1984). Gravimetry is a potential method and supplies an infinite number of solutions, so the model has to be developed close to other geoscientific results. The aim is to construct a high-resolution three-dimensional underground model, which includes the upper earth's crust and the deep-seated structures of the middle and lower crust, too. The determination of the mass distribution in the underground supplies contradicting or supporting facts for geodynamic views in the Vogtland and NW Bohemia for example of Bankwitz et al. (1993). The interpretation of the Bouguer map of the Vogtland and a three-dimensional gravimetric model ought to contribute a substantial, also geodynamic part to understand the origin and the emergence of the swarm earthquakes in this region. 相似文献
5.
Alfred Jentzsch 《International Journal of Earth Sciences》1922,12(6-8):309-314
Ohne Zusammenfassung 相似文献
6.
G. Asch L. Gorling R. Greiling G. Jentzsch A. Vogel K. v. Zadelhoff 《International Journal of Earth Sciences》1981,70(1):282-295
The orogeny of the Scandinavian and Greenland Caledonides is shortly reviewed, and a structural sketch map of the Scandinavian Caledonide part of the Geotraverse is presented. Post-Caledonian rifting episodes prior to the formation of the North Atlantic Ocean are briefly discussed, as well as the opening of the northern North Atlantic Ocean and its spreading rates.Computations of density models carried out on the basis of the Simplex-Algorithm which allows a least-squares solution under certain constraints show clearly a Moho-depression beneath the Caledonides and a comparatively thick oceanic crust in the Norwegian Sea. The transition zone oceanic continental crust has a complex structure, but a continuation of the Lofoten Islands and a part of the Vøring Plateau escarpment can be detected.The residuals of former measurements of tidal gravity in Fennoscandia are explained by oceanic loading tides, and a chart for the M2-loading effect is given. The influence of crustal structure on the residuals is shortly discussed. A finite element model is used to calculate the loading effect for a laterally inhomogeneous structure.
Zusammenfassung Die Orogenese der skandinavischen und grönländischen Kaledoniden wird kurz beschrieben und die Struktur des skandinavisch-kaledonischen Teils skizziert. Die postkaledonische Dehnungstektonik vor der Bildung des Nordatlantiks sowie die Öffnung des nördlichen Nordatlantiks und die entsprechende Öffnungsrate werden kurz diskutiert.Berechnungen von Dichtemodellen mit Hilfe des Simplex-Algorithmus erlauben die Optimierung unter Berücksichtigung von Randbedingungen. Die Modelle zeigen eine ausgeprägte Depression der Moho unter den Kaledoniden und eine relativ dicke ozeanische Kruste. Die Übergangszone von kontinentaler zu ozeanischer Kruste hat eine äußerst komplizierte Struktur, jedoch lassen sich sowohl die Fortsetzung der Lofoten als auch der Rand des Vøring-PIateaus erkennen.Die Residuen von Schweregezeiten in Fennoskandien lassen sich durch ozeanische Auflasteffekte erklären, und eine Karte des M2-Meeresgezeiteneinflusses wird vorgestellt. Der Einfluß der Krustenstruktur auf die Residuen wird kurz diskutiert. Zur Modellierung lateraler Inhomogenitäten wurde ein finites Elementmodell entwickelt.
Résumé L'orogenèse des calédonides Scandinaves et groenlandaises sera décrit brièvement et la structure de la partie Scandinave ébauchee.La distension tectonique post-calédonienne avant la formation de l'Atlantique nord ainsi que l'ouverture du nordatlantique septentrional avec le taux d'expansion correspondant sont ensuite brièvement discutés.Des calculs de modèle de densité à l'aide de l'algorithme simplex permettent la détermination optimale sur le principe des moindres carrés, compte tenu des conditions aux limites.Les modèles montrent une dépression prononcée de la Moho sous les calédonides et une croûte océanique relativement épaisse. La zone de transition entre la croûte continentale et la croûtre océanique a une structure extrêmement compliquée; cependant on peut reconnaître la continuation des Lofoten ainsi que la marge du plateau de Vøring.Les résidus des marées terrestres fenno-scandiennes peuvent s'expliquer par des effets de charge océanique, et une carte de l'influence du terme M2 des marées est présentée. L'influence de la structure de la croûte sur les residues est discutée. Pour modeler les homogénéités latérales on a développé un modèle d'éléments finis.
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The area of the present study constitutes an alkaline volcanic province in the eastern sector of the Rhenish massif. A series of gravity measurements were carried out on the volcanic fields of the Westerwald. Three-dimensional modelling and wavelength filtering processing techniques were used to analyze the gravity data. The filtered Bouguer anomaly maps show two major regional gravity features: (a) Increasing Bouguer values towards the northeastern part of the study area could be caused by lateral lithological variations within the upper crust. (2) Local negative Bouguer values in the southwest correlate with magmatic materials of intermediate type. The modelling results indicate that the volcanics of the Westerwald are underlain by two different magmatic complexes at a depth in the range 3.3–10 km with density values of 2680 and 2750 kg/m3. The densities assigned to the local igneous intrusions are in the range of 2314–2948 kg/m3 and at depths between 0.4 and 1.3 km. In the NE a diabase bed was modelled to a maximum depth of approximately 1.6 km using the assigned density of 2800 kg/m3. 相似文献
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A peculiarity of the Vogtland/West Bohemia earthquake region is the appearance of earthquake swarms. The strongest swarms in this century occurred in 1908 and 1985/86. The swarm in 1985/86 is the first one, for which digital data (about 220 events, 400 waveforms, sampling rate 100 Hz) are available for stations Moxa (MOX) and Plauen (PLN). The waveforms of the swarms in the Vogtland show a high similarity. The similarity is quantified by cross-correlation applied to approximately 400 waveforms. The results are shown in the form of similarity matrices.
Four types of events have been detected using the results of the cross-correlation between the S-waveforms recorded at station PLN. Type IV occurs predominantly at the end of the swarm. The waveforms of type IV are clearly different from the waveforms of the other types. The differences between the waveforms of the first three types are less pronounced. Especially the first three types occur alternately. 相似文献
9.
We use records from the East Thuringian Seismic Network (OTSN, Ostthüringer Seismisches Netzwerk) to characterize the site response for each station, and to analyze the scope and limits of the Rayleigh modeling for H/V spectral ratio. The stations considered in this work can be classified by their seismic response as hard rock sites or as sites with some site effect. From these results we propose velocity models based on Rayleigh modeling (theoretical Rayleigh wave ellipticity).Our results show that for locations affected by site effects the H/V spectral ratio can be modeled by the theoretical ellipticity of layered velocity models. For hard rock sites the spectral ratio is rather flat and the modeling with the theoretical ellipticity was not very clear. This may be explained by the fact that for hard rock sites the conditions for a clear fundamental frequency associated with S-wave resonance, and therefore with Rayleigh wave ellipticity, are not fulfilled. 相似文献
10.
Jos Fernndez Kristy F. Tiampo John B. Rundle Gerhard Jentzsch 《Journal of Geodynamics》2005,39(5):475-492
A method for the computation and interpretation of gravity and height changes and vertical gravity gradients produced by magmatic intrusions in a layered elastic–gravitational medium is presented. The methodology assumes a planar medium geometry, which consists of welded layers overlying a half-space. The medium is elastic and gravitating. The intrusion is treated as a point source and can be located at any depth inside the medium. The theoretical elastic–gravitational model allows the computation of the so-called geometric and orthometric vertical displacements as well as gravity changes of different types. The corresponding vertical gravity gradients can also be computed. We present several examples of theoretical computations and study different types of these geometric and orthometric gravity gradients and the information we can get from the application of the methodology described. The results presented show that the use of these gradients is a useful tool to obtain information on the dynamics of the injection processes, including the detection of new magma recharge. We show that using the elastic–gravitational deformation model we can explain non-linear gravity–height relationships that appear in volcanic areas. We also present the application of the methodology to Mayon volcano, Philippines, delineating the intrusion of new magma, consistent with the produced eruptions after the observation period. 相似文献