An exact solution of solute transport by one-dimensional random velocity fields     

V. D. Cvetkovic  G. Dagan  A. M. Shapiro 《Stochastic Hydrology and Hydraulics》1991,5(1):45-54

The problem of one-dimensional transport of passive solute by a random steady velocity field is investigated. This problem is representative of solute movement in porous media, for example, in vertical flow through a horizontally stratified formation of variable porosity with a constant flux at the soil surface. Relating moments of particle travel time and displacement, exact expressions for the advection and dispersion coefficients in the Focker-Planck equation are compared with the perturbation results for large distances. The first- and second-order approximations for the dispersion coefficient are robust for a lognormal velocity field. The mean Lagrangian velocity is the harmonic mean of the Eulerian velocity for large distances. This is an artifact of one-dimensional flow where the continuity equation provides for a divergence free fluid flux, rather than a divergence free fluid velocity.  相似文献   

Riverine dominance of a nearshore marine demersal food web: evidence from stable isotope and C/N ratio analysis     

AM de Lecea  AJ Smit  ST Fennessy 《African Journal of Marine Science》2016,38(1):S181-S192

The Thukela Bank, KwaZulu-Natal, supports a diverse ecosystem and South Africa’s only prawn fishery. Oceanographic studies suggest riverine input is not important for the biology of this system, whereas biological studies suggest the contrary, with prawn catches increasing with increased fluvial run-off. The aim of this study was to determine (i) the importance of riverine and marine organic matter for the Thukela Bank food web; and (ii) whether there are seasonal changes in the Thukela River stable isotope values, and, if so, whether these are reflected in the isotope values of demersal organisms. Estuarine organic matter, sediments and demersal organisms were collected from several sites across the bank in the wet and dry seasons of 2008, 2009 and 2010. Marine particulate organic matter was also collected in 2010 and analysed for δ13C and δ15N, as well as C/N ratios. There were strong seasonal changes in isotopic values of organic matter and fauna, especially faunal δ13C. There was an apparent time-lag in organisms assimilating riverine organic matter isotopic values, with the isotopic signature of demersal organisms reflecting that of riverine organic matter from the previous season, which is likely the result of tissue turnover time. In 2010, Thukela Bank sediment organic matter was of riverine origin and this maintained the demersal food web. We conclude that Thukela River organic matter is an important input to the food web of the Thukela Bank, indicating that any future damming of the catchment area could have serious consequences for this ecosystem.  相似文献   

Linkages Between Boundary-Layer Structure and the Development of Nocturnal Low-Level Jets in Central Oklahoma   总被引：1，自引：1，他引：0  

Petra M. Klein  Xiao-Ming Hu  Alan Shapiro  Ming Xue 《Boundary-Layer Meteorology》2016,158(3):383-408

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Numerical model of the Moon's rotation     

R. J. Cappallo  R. W. King  C. C. Counselman III  I. I. Shapiro 《Earth, Moon, and Planets》1981,24(3):281-289

We have integrated numercially the differential equtions for the Moon's rotation with respect to an inertial coordinate system, and the variational equations for (i) the six initial conditions of the rotation; (ii) the moment-of-inertia ratios and ; and (iii) the coefficients of the third-degree gravitational harmonics. When these integrations are used in conjunction with our current lunar-orbit and Earth-rotation models, and all of the relevant initial conditions and parameters are adjusted to fit five years of McDonald Observatory lunar laser ranging observations, the root-mean-square (rms) of the postfit range residuals is 28 cm. When we adjust the lunar-rotation initial conditions separately to fit the physical libration angles given by the numerical model of Williams (1975), we find an rms orientation difference over a six-year interval of 0.03 arcsecond, after removal of a constant bias. A similar comparison of our model with the semi-analytical model of Eckhardt (1981) yields an rms orientation difference of 0.2 arcsecond.  相似文献   

Modelling of the upper mixed layer in the Tropical Atlantic     

E. N. Mikhailova  N. B. Shapiro 《Physical Oceanography》1991,2(1):45-55

A method for the computation of the spatial-temporal variability of the upper mixed layer (UML) within the framework of a model for the multilayer ocean is proposed. Using a three-layer ocean (UML, thermocline, and abyssal regions) as an example, the formation of the UML topography from the state of rest and the current and temperature fields in the Tropical Atlantic are considered.Translated by Mikhail M. Trufanov.  相似文献   

Modelling of the propagation of passive impurities in Sevastopol bays     

É. N. Mikhailova  N. B. Shapiro  S. A. Yushchenko 《Physical Oceanography》2001,11(3):233-247

We discuss the results of numerical experiments modelling the process of propagation of passive impurities from the Karantinnaya Bay caused by steady wind currents and turbulent diffusion. The currents are computed according to the Felzenbaum model for the cases of northeast and north-west winds [1, 2]. We analyse specific features of the space and time distribution of the impurities caused by the three-dimensional character of the currents. Translated by Peter V. Malyshev and Dmitry V. Malyshev  相似文献   

Modelling of the generation and evolution of the cold intermediate layer in the Black Sea     

Yu. N. Ryabtsev  N. B. Shapiro 《Physical Oceanography》1996,7(1):49-63

This paper discusses the results of a numerical experiment on modelling the seasonal variability of the water circulation and temperature/salinity fields in the Black Sea. A multi-layered quasi-isopycnic model is used based on primitive equations and incorporating the upper mixed layer (UML). It is shown that during springtime warming, relatively cold layers emerge in some areas, due to subduction, from the UML, which then spread virtually over the entire basin and persist until they become absorbed by the rapidly deepening UML during the period of cooling in winter. Translated by Vladimir A. Puchkin.  相似文献   

Model of the Tropical Atlantic incorporating the upper mixed layer     

E. N. Mikhailova  N. B. Shapiro 《Physical Oceanography》1990,1(4):253-262

We present a multilayer ocean model incorporating a non-local integral model of the upper mixed layer (UML). In the framework of a three-layer Tropical Atlantic model, we study the model's response to various closure hypotheses for heat fluxes at the UML lower boundary.Translated by V. Puchkin.  相似文献   

Simulation of the Seasonal Variability of Hydrothermodynamical Fields in Lake Kinneret     

Ivanov  V. A.  Lyubartseva  S. P.  Mikhailova  É. N.  Shapiro  N. B.  Shteinman  B. S. 《Physical Oceanography》2002,12(2):65-87

We discuss the results of a numerical experiment devoted to the investigation of the variability of the three-dimensional fields of temperature and current velocity brought about by the seasonal variability of external factors: solar radiation, atmospheric fields, discharge of the river Jordan, and water intake for economic necessities. We use a multilayer model in isopycnic coordinates with an upper mixed layer. We set atmospheric factors in the form of monthly average fields that are uniform over space and linearly interpolated in time. We compare the computed fields of heat flux and evaporation through the lake surface, level, temperature, and currents with data of observations. We note a qualitative agreement of temperature fields during the whole year and current velocities in winter when the lake is, in fact, barotropic. In summer when the lake is stratified, currents in the model turn out to be weaker than in observations.  相似文献   

Model of the Dead Sea. Simulation of the Variability of the Thermohaline Water Structure in 1992–2000     

V. A. Ivanov  S. P. Lyubartseva  É. N. Mikhailova  N. B. Shapiro  I. Gertman 《Physical Oceanography》2002,12(5):237-256

Within the framework of the integral model in isopycnic coordinates including the upper mixed layer, we study the rearrangement of temperature and salinity fields in the Dead Sea. It is forced by the variability of atmospheric factors and mass fluxes through the lateral boundaries of the basin, which are connected with the freshwater run-off to the sea and the outflow from the sea to the shallow south bay, where evaporator installations for salt extraction are located. Such factors as solar radiation, wind velocity, air temperature, and relative humidity are prescribed. Evaporation is calculated with the use of a bulk formula, whereas precipitation intensity and discharge through the lateral boundaries are determined as functions of the sea level obtained from observations. This model reflects the specific character of the Dead Sea and takes into account the effect of water salinity on its evaporation, salt concretion, and mechanical evaporation. Comparison with the data of observations shows that the proposed model fairly precisely describes the observed specific features of the thermohaline water structure in the meromictic (1992–1996) and holomictic (1996–2000) periods.  相似文献