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81.
Estimating boundary currents from satellite altimetry: A case study for the east coast of India 总被引:1,自引:0,他引:1
Fabien Durand Doraiswamy Shankar Florence Birol S. Satheesh Chandra Shenoi 《Journal of Oceanography》2008,64(6):831-845
We present a methodology to derive surface geostrophic current from a newly released altimetric sea-level data set. TOPEX/Poseidon
data were first completely reprocessed from Geophysical Data Records using new algorithms accommodating marginal seas and
coastal conditions. The methodology applied to the reprocessed data essentially consists of a smoothing of the raw along-track
coastal altimetric data at scales at which the geostrophic equilibrium holds. This was reduced to a computational procedure
using a set of objective criteria. We have applied the method to the East India Coastal Current (EICC) at the western boundary
of the Bay of Bengal. This paper first examines the quality of the new data set, which compares well with tide-gauge data;
the current we derived is consistent with independent estimates. Our methodology reveals the full spectrum of the along-shore
current, ranging from intra-seasonal to inter-annual time scales, from the deep ocean to the shelf-break area where the EICC
exists. The algorithm can be applied to any coastal region where an order of the Rossby radius can be defined, and it therefore
opens up bright prospects for mapping the variability of other boundary-current systems in the world ocean from altimetry. 相似文献
82.
Fabien Magri Ulf Bayer Maja Tesmer Peter Möller Asaf Pekdeger 《International Journal of Earth Sciences》2008,97(5):1075-1085
The occurrence of salty waters close to the surface is a well-known problem in the North East German Basin. Previous numerical
simulations showed that near-surface brine occurrences are due to the interaction of hydrostatic and thermally induced forces
(mixed convection). The influence of hydraulic permeabilities and thermal conductivities on the observed patterns remained
an open question. Based on a hydro-geochemical dataset, thermohaline simulations are carried out in order to quantify the
impact of these physical parameters on brine migration. The results indicate that the salinity and temperature profiles are
strongly controlled by hydraulic permeabilities and can locally be influenced by thermal conductivities. 相似文献
83.
正1Met Office, Exeter EX1 3PB, UK2National Satellite Meteorological Center, China Meteorological Administration, Beijing 100081, China 相似文献
84.
Denis Mourard Olivier Lardiere Bruno Lopez Fabien Malbet Philippe Stee 《Astrophysics and Space Science》2003,286(1-2):291-296
We describe the current French ideas for the instrumentation of the second generation of the VLTI. Instruments concepts addressed
include: integrated optics beam combiner, extension of MIDI to a four beam facility, extension of AMBER to the visible and
a densified pupil direct imaging beam combiner.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
85.
The tropical Indian Ocean experiences an interannual mode of climatic variability, known as the Indian Ocean Dipole (IOD). The signature of this variability in ocean salinity is hypothesized based on modeling and assimilation studies, on account of scanty observations. Soil Moisture and Ocean Salinity (SMOS) satellite has been designed to take up the challenge of sea surface salinity remote sensing. We show that SMOS data can be used to infer the pattern of salinity variability linked with the IOD events. The core of maximum variability is located in the central tropical basin, south of the equator. This region is anomalously salty during the 2010 negative IOD event, and anomalously fresh during the 2011 positive IOD event. The peak-to-peak anomaly exceeds one salinity unit, between late 2010 and late 2011. In conjunction with other observational datasets, SMOS data allow us to draw the salt budget of the area. It turns out that the horizontal advection is the main driver of salinity anomalies. This finding is confirmed by the analysis of the outputs of a numerical model. This study shows that the advent of SMOS makes it feasible the quantitative assessment of the mechanisms of ocean surface salinity variability in the tropical basins, at interannual timescales. 相似文献
86.
Stéphanie Gallino Jean-Yves Josnin Marc Dzikowski Fabien Cornaton Dominique Gasquet 《Hydrogeology Journal》2009,17(8):1887-1900
Numerical models of the Aix-les-Bains thermal aquifer (France) were used to investigate the influence of Quaternary paleoclimatic events on the current thermal state of the groundwater. Initial numerical tests were successful in that present-day fluid flows (heads and flow rates) and the resulting velocities were compatible with residence time data. Water flowing through an aquifer cools the rock mass; therefore, the rate of water flow governs the outlets temperature. For the Aix-les-Bains aquifer, applying present-day flow rates to the entire history of the aquifer leads to much more substantial cooling of the rock mass than is indicated by the outlets temperature (i.e. present-day flow rates are 10 times too high). This suggests that the aquifer may have gone through alternating functioning phases, during which the rock mass cooled, and blocked phases, during which the aquifer reheated. Other results indicate that the main parameters affecting thermal behavior during a functioning phase are the total inflow volume, rather than individual inflow rates, and the initial heat field. As phenomena linked to glaciation can lead to the blocking of infiltration zones and aquifer outlets, the findings suggest that the hypothesis of intermittent aquifer functioning related to glaciations is compatible with the current thermal field. 相似文献
87.
Defining the shelf edge and the three‐dimensional shelf edge to slope facies variability in shelf‐edge deltas 下载免费PDF全文
Shelf‐edge deltas play a critical role in shelf‐margin accretion and deepwater sediment delivery, yet much remains to be understood about the detailed linkage between shelf edge and slope sedimentation. The shelf edge separates the flat‐lying shelf from steeper slope regions, and is observable in seismic data and continuous outcrops; however, it is commonly obscured in non‐continuous outcrops. Defining this zone is essential because it segregates areas dominated by shelf currents from those governed by gravity‐driven processes. Understanding this linkage is paramount for predicting and characterizing associated deepwater reservoirs. In the Tanqua Karoo Basin, the Permian Kookfontein Formation shelf‐slope clinothems are well‐exposed for 21 km along depositional strike and dip. Two independent methods identified the shelf‐edge position, indicating that it is defined by: (i) a transition from predominantly shelf‐current to gravitational deposits; (ii) an increase in soft‐sediment deformation; (iii) a significant gradient increase; and (iv) clinothem thickening. A quantitative approach was used to assess the impact of process‐regime variability along the shelf edge on downslope sedimentation. Facies proportions were quantified from sedimentary logs and photographic panels, and integrated with mapped key surfaces to construct a stratigraphic grid. Spatial variability in facies proportions highlights two types of shelf‐edge depositional zones within the same shelf‐edge delta. Where deposition occurred in fluvial‐dominated zones, the slope is sand rich, channelized with channels widening downslope, and rich in collapse features. Where deltaic deposits indicate considerable tidal reworking, the deposits are thin and pinch‐out close to the shelf edge, and the slope is sand poor and lacks channelization. Amplification of tidal energy, and decrease in fluvial drive on the shelf, coincides with a decrease in mouth bar and shelf‐edge collapse, and a lack of channelization on the slope. This analysis suggests that process‐regime variability along the shelf edge exercised significant control on shelf‐edge progradation, slope channelization and deepwater sediment delivery. 相似文献
88.
Laboratory experiments were performed to study the influence of density and viscosity layering on the formation and stability of plumes. Viscosity ratios ranged from 0.1 to 6400 for buoyancy ratios between 0.3 and 20, and Rayleigh numbers between 105 and 2.108. The presence of a chemically stratified boundary layer generates long-lived thermochemical plumes. These plumes first develop from the interface as classical thermal boundary layer instabilities. As they rise, they entrain by viscous coupling a thin film of the other layer and locally deform the interface into cusps. The interfacial topography and the entrainment act to further anchor the plumes, which persist until the chemical stratification disappears through entrainment, even for Rayleigh numbers around 108. The pattern of thermochemical plumes remains the same during an experiment, drifting only slowly through the tank. Scaled to an Earth’s mantle without plate tectonics, our results show that: (1) thermochemical plumes are expected to exist in the mantle, (2) they could easily survive hundreds of millions of years, depending on the size and magnitude of the chemical heterogeneity on which they are anchored, and (3) their drift velocity would be at most 1-2 mm/yr. They would therefore produce long-lived and relatively fixed hotspots on the lithosphere. However, the thermochemical plumes would follow any large scale motion imposed on the chemical layer. Therefore, the chemical heterogeneity acts more as a ‘floating anchor’ than as an absolute one. 相似文献
89.
90.
Jean-Maurice Cases Jerzy Mielczarski Ella Mielczarska Laurent J. Michot Frédéric Villiéras Fabien Thomas 《Comptes Rendus Geoscience》2002,334(9):675-688
The adsorption of surfactants from aqueous solution is a phenomenon of major importance in applications ranging from ore flotation and paint technology to enhanced oil recovery. As this paper will illustrate, the process is very complex and of high scientific interest; its results can be extended to the retention of organic compounds (humic and fulvic acids, pollutants...) on solids in the biosphere. For a good understanding of the mechanisms involved in surfactants adsorption at the hydrophilic solid–aqueous solution interface, thermodynamic models have to take into account: (i) the physical chemistry of the surfactant in aqueous solution for choosing the appropriate reference phase, (ii) the surface heterogeneity of the adsorbing solid, (iii) the intensity of normal adsorbate–adsorbent bonds responsible for adsorption, (iv) the intensity of lateral bonds that favour the formation of surface aggregates through cooperative process and finally, (v) suitable theoretical models to describe adsorption phenomena. Once this has been achieved, two systems can be discussed: systems characterised by strong normal adsorbate–adsorbent bonds, currently used in ore flotation, which lead, in the case of heterogeneous surfaces, to the formation of lamellar aggregates at monolayer concentration and bilayer formation for higher concentrations. Systems characterised by weak normal adsorbate–adsorbent bonds, currently used in enhanced oil recovery and hydrocarbon (bio)remediation, which correspond to: (i) formation of globular micelles at the solid surface near the CMC when the temperature is higher than the Krafft point, (ii) formation of bilayered lamellar aggregates in the opposite case, (iii) three-dimensional condensation on substrate (T<TKrafft) if the ionic surfactant interacts with cations in the bulk. To cite this article: J.-M. Cases et al., C. R. Geoscience 334 (2002) 675–688. 相似文献