Statistical structure of the large-scale fields of temperature and salinity in the Black Sea     

A. B. Polonskii  I. G. Shokurova 《Physical Oceanography》2008,18(1):38-51

In order to reconstruct the large-scale temperature and salinity fields by the method of optimal interpolation of the archival data, we compute the correlation functions and analyze the space and time variations of the statistical structure of the fields. On the sea surface, the thermohaline fields are spatially inhomogeneous. Thus, the correlation functions are anisotropic in the region of the northwest shelf and close to isotropic in the inner parts of the sea. The values of correlation length vary from season to season. In the layer of pycnocline, the temperature and salinity fields are anisotropic. In the zonal direction, the correlation length is 2–3 times greater than in the meridional direction. The indicated anisotropy becomes stronger in the winter season and weaker in the summer season as a consequence of the seasonal variability of large-scale circulation. We study the dependence of the error of reconstruction of the fields by the method of optimal interpolation on the form of approximation of the correlation functions with regard for anisotropy. __________ Translated from Morskoi Gidrofizicheskii Zhurnal, No. 1, pp. 51–65, January–February, 2008.  相似文献   

Variations of the seasonal behavior of geostrophic circulation in the Black Sea     

A. B. Polonsky  I. G. Shokurova 《Physical Oceanography》2010,20(1):14-27

On the basis of the results of processing of the archival hydrological data, we analyze the seasonal behavior of geostrophic circulation in the Black Sea and its long-term variations. It is shown that the variations of currents on the decadal time scales with different manifestations in different seasons lead to changes in the characteristics of the seasonal course of geostrophic circulation in the second half of the last century. The intensification of winter circulation and weakening of summer circulation observed since the mid-1970s result in the increase in the amplitude of the annual course of current velocity on the sea surface. We also discuss possible causes of variations in the intensities of geostrophic currents in the Black Sea.  相似文献   

Comprehensive Analysis of the Distribution of Ecosystem Components in the Black Sea Taking into Account Hydrochemical and Hydrometeorological Factors     

Krasheninnikova  S. B.  Minkina  N. I.  Shokurova  I. G.  Samyshev  E. Z. 《Water Resources》2022,49(1):134-141

Water Resources - The distribution of ecosystem components (phytoplankton, crustacean epiplankton, bathyplankton, and jellyfish plankton) was analyzed taking into account the hydrochemical and...  相似文献   

Decadal variability of characteristics of the Black Sea pycnocline and geostrophic circulation in the wintertime     

A. B. Polonskii  I. G. Shokurova 《Russian Meteorology and Hydrology》2009,34(4):243-255

The Black Sea density fields and geostrophic circulation in the 0–300-dbar layer are reconstructed from the February archive hydrological data for several decades from 1951 to 1995 and then their interdecadal variability is studied. A gradual rise of the pycnocline is noted in the dome region of large-scale cyclonic gyrals from 5 m at the top of the pycnocline to 10–15 m at 100–300-m levels. Differently directed tendencies of long-term variability of the winter circulation are revealed: circulation intensification in the upper 0–50-m layer (except for the southwestern sea) and weakening in the lower pycnocline 200–300-m layer. The connection with the wind vorticity variability, river runoff, precipitation, and air temperature is analyzed. Strengthening of the cyclonic wind vorticity in the 1960s and the early 1970s is in good agreement with the circulation intensification of that time in the eastern sea.  相似文献   

Annual and Interdecadal Variability of the Available Potential Energy in the Black Sea     

Suvorov  A. M.  Shokurova  I. G. 《Physical Oceanography》2004,14(2):84-95

On the basis of the climatic data array on temperature and salinity including the data of observations carried out at 102,000 oceanographic stations in 1910–1998, we estimate the amount of available potential energy of large-scale processes in the 0–300-m layer of the Black Sea and study its annual variability. The annual average amount of available potential energy in the active 0–300-m layer is equal to 13.5×10¹⁴ J, its maximum amount attained in March is 25×10¹⁴ J, and its minimum amount attained in August is 8×10¹⁴ J. In the autumn–winter period, the density of available potential energy in the 0–50-m layer increases and its maximum is attained in December–January (30 J/m³). Beginning with January, the density of available potential energy increases in the layer of the main pycnocline (50–150 m). Its maximum is attained in March (50 J/m³) and then this quantity decreases till August (down to 14 J/m³). In August, we study the interdecadal variability of the available potential energy in the 50–300-m layer by using the data accumulated for decadal periods with five-year shifts in 1956–1995. The maximum variability is observed at a depth of 100 m. The maximum average (over the sea) amounts of available potential energy were observed in 1961–1970 and 1986–1995. The minimum amounts were recorded in 1976–1985.  相似文献