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111.
对云龙台的水管倾斜仪观测数据进行了倾斜固体潮的潮汐分析,发现EW和NS两个分量的振幅因子异常变化与地震有较好的对应关系。由于潮汐分析方法本身的科学性和严密性,故振幅因子误差小、精度高;又因为对潮汐谐波波群的选择,避免了以太阳日为基础的周期性干扰,M2、O1波振幅因子的地震异常识别则简易可行,并且可信度高。云龙台的固体潮观测具有较强的地震监测能力。 相似文献
112.
中强震前形变固体潮汐资料短期信息的提取 总被引:8,自引:2,他引:6
分析了各种潮汐观测资料处理方法,针对短期异常提取的要求,提出了适合提取短期异常信息的潮汐资料处理方法,对其计算公式进一步推导和展开。应用这些方法对华北地区和西南地区的重力、倾斜、应变等形变观测量进行了计算。对地震前潮汐因子、时间滞后、响应比等潮汐参数的异常信息进行了提取与分析;突出了震源区附近的短期异常信息,并分析总结其变化特征。 相似文献
113.
Magnetic properties of tidal flat sediments of the Yangtze Estuary and its relationship with particle size 总被引:6,自引:0,他引:6
Since the 1970s, environmental magnetism has found extensive applications in diverse research areas of geoscience[1]. In China, a lot of environmental magnetic studies have been carried out on loess, lake and marine sediments for the purpose of paleoclima… 相似文献
114.
Surface elevation and current records contain non-tidal variance, often dismissed as noise. The processes responsible for the non-tidal component may also modulate the tidal signal, altering its strength and frequency structure. Because of their manner of generation and propagation, internal tides are inherently irregular. The non-stationary character of these and other tidal processes provides an integral and useful property of tidal records, because it provides an opportunity to obtain insights into tidal dynamics and the interaction of tidal and non-tidal processes. It is, moreover, productive to use multiple approaches in analyzing coastal and estuarine tidal processes so that both the time-varying and average frequency content are determined. Only by confronting the causes of non-stationary behaviour in this way can some of the remaining challenges in tidal analysis and prediction be overcome, e.g. shelf and estuarine currents, river tides, internal tides, tide-surge interactions and tidally influenced ecological processes. Several examples illustrate the utility of non-stationary tidal analysis methods.Responsible Editor: Jens Kappenberg 相似文献
115.
Giovanni?BesioEmail author Paolo?Blondeaux Maurifio?Brocchini Giovanna?Vittori 《Ocean Dynamics》2003,53(3):232-238
A simple mathematical model is described, which reproduces the major features of sand waves' appearance and growth and in particular predicts their migration speed. The model is based on the linear stability analysis of the flat configuration of the sea bottom subject to tidal currents.
Attention is focused on the prediction of the complex growth rate that bottom perturbations undergo because of both oscillatory fluid motions and residual currents. While the real part r of controls the amplification or decay of the amplitude of the bedforms, the imaginary part i is related to their migration speed.
Previous works on the migration of the sand waves (Németh etal. 2002) consider a forcing tide made up by the M2 constituent (oscillatory period equal to 12 h) plus the residual current Z0 and predict always a downcurrent migration of the bedforms. However, field cases exist of upcurrent-migrating sand waves (downcurrent/upcurrent-migrating sand waves mean bedforms moving in the direction of the steady residual tidal current or in the opposite direction, respectively).
The inclusion of a tide constituent characterized by a period of 6 h (M4) is the main novelty of the present work, which allows for the prediction of the migration of sand waves against the residual current Z0. Indeed, the M4 tide constituent, as does also the residual current Z0, breaks the symmetry of the problem forced only by the M2 tide constituent, and induces sand-wave migration.
The model proposed by Besio etal. (2003a) forms the basis for the present analysis. Previous works on the subject (Gerkema 2000; Hulscher 1996a,b; Komarova and Hulscher 2000) are thus improved by using a new solution procedure (Besio etal. 2003a) which allows for a more accurate evaluation of the growth rate for arbitrary values of the parameter r, which is the ratio between the horizontal tidal excursion and the perturbation wavelength.
Responsible Editor: Jens Kappenberg 相似文献
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Along a 2 km NW-SE transect along the energy gradient of an intertidal sand body of the back-barrier tidal flats of Spiekeroog island (German Wadden Sea, southern North Sea), three sets of closely spaced surface sediment samples were taken at different times to investigate whether the effects of progressive size sorting could be identified in the textural parameters and size-frequency curves of the sediments. Grain-sizes analyses were carried out with a high-resolution settling tube having an internal resolution of 1/50-psi intervals. The settling velocity data were subsequently transformed numerically into equivalent settling diameters on the basis of a quartz sphere standard. At this high resolution, it was possible to visualize subtle changes in textural parameters which would not have been resolved by standard 0.25-phi sieve analyses. The first two sample sets of 1992 and 1994 show similar trends of progressive fining in the sediment, combined with a slight decrease in skewness and sorting in the direction of decreasing energy. Ten years later, in 2003, the sediments were slightly coarser but still reflected the hydrodynamic energy gradient by a distinct fining trend along the transect. However, in contrast to the former data sets, the skewness values now remained constant, whereas the sorting values revealed the existence of two overlapping hydrodynamic energy regimes on the tidal flat. The better sorting in the coarser size fractions and the general coarsening trend in the central part of the tidal flat are interpreted to reflect an increase in the hydrodynamic energy level since the first two sample sets were collected. This observation suggests that some of the finer particles in the grain-size spectrum on the tidal flat were winnowed out by wave action without, however, completely obliterating the former trend. This interpretation is supported by an increase in the frequency and duration of strong winds as recorded by the national weather bureau since the early 1990s. The results of the study demonstrate that the intertidal sediments of the Wadden Sea respond rapidly and sensitively to gradual changes in the hydrodynamic energy regime. 相似文献
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This paper presents a new perturbation solution of the non-linear Boussinesq equation for one-dimensional tidal groundwater flow in a coastal unconfined aquifer. Built upon the work of Parlange et al. [Parlange, J.-Y., Stagnitti, F., Starr, J.L., Braddock, R.D., 1984. Free-surface flow in porous media and periodic solution of the shallow-flow approximation, J. Hydrol., 70, 251–263], the solution adopts a new perturbation parameter that is by definition less than unit, and thus is applicable to a wider range of physical conditions within the constraint of the Boussinesq approximation. This approach avoids a secular term in the third-order perturbation equation of Parlange et al. (1984), enabling the derivation of the third- and higher-order solutions. In comparison with a numerical (“exact”) solution, the new perturbation solution is shown to be slightly more accurate than that of Parlange et al. (1984) with the second-order approximation. The obtained third-order solution exhibits considerable improvement in accuracy. In relatively simple analytical forms, the present perturbation solution will help to understand better the non-linear characteristics of tidal water table fluctuations in as modeled by the non-linear Boussinesq equation coastal unconfined aquifers. 相似文献