Study of long-term variability of Black Sea dynamics on the basis of circulation model assimilation of remote measurements

“…To solve the problem, the reanalysis of the Black Sea hydrophysical fields (1993-2012) on the basis of circulation model variant previously used in [4] was performed. For more accurate description of thermodynamic processes in the active sea layer, especially the vertical exchange processes, a turbulent model was added to the abovementioned circulation one.…”

“…For assimilating the data on sea level anomaly all available satellite altimetry data over the reanalysis period from NASA, AVISO and SL TAC archives were used. Assimilation procedures in this work completely correspond to the ones applied before in [4]. These methods are based on optimal interpolation and relaxation of model fields to the existing measurement data.…”

“…The obtained results were compared with the reanalysis performed by the model containing 35 computational levels. In this model vertical turbulent diffusion was parameterized by the coefficients depending on the depth and time, and vertical viscosity -by a constant coefficient of turbulent viscosity [4,5].…”

“…In what follows, for brevity, we will denote reanalysis, the results of which are described in [4,5], as P1, and reanalysis in the circulation model into which a turbulent model is added, as P2.…”

“…In [1][2][3], the reanalysis was carried out on the basis of data assimilation of hydrological survey of temperature and salinity and covered the period from early 70s to early 90s. In [4,5] the Black Sea dynamics over 20 years (1993)(1994)(1995)(1996)(1997)(1998)(1999)(2000)(2001)(2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012) was studied on the basis of satellite data assimilation. During these years, a small amount of hydrological survey was performed in the Black Sea, but remote sensing data such as sea level elevation anomalies and surface temperature became available.…”

Influence of the Vertical Turbulent Exchange Parameterization on the Results of Reanalysis of the Black Sea Hydrophysical Fields

“…To solve the problem, the reanalysis of the Black Sea hydrophysical fields (1993-2012) on the basis of circulation model variant previously used in [4] was performed. For more accurate description of thermodynamic processes in the active sea layer, especially the vertical exchange processes, a turbulent model was added to the abovementioned circulation one.…”

“…For assimilating the data on sea level anomaly all available satellite altimetry data over the reanalysis period from NASA, AVISO and SL TAC archives were used. Assimilation procedures in this work completely correspond to the ones applied before in [4]. These methods are based on optimal interpolation and relaxation of model fields to the existing measurement data.…”

“…The obtained results were compared with the reanalysis performed by the model containing 35 computational levels. In this model vertical turbulent diffusion was parameterized by the coefficients depending on the depth and time, and vertical viscosity -by a constant coefficient of turbulent viscosity [4,5].…”

“…In what follows, for brevity, we will denote reanalysis, the results of which are described in [4,5], as P1, and reanalysis in the circulation model into which a turbulent model is added, as P2.…”

“…In [1][2][3], the reanalysis was carried out on the basis of data assimilation of hydrological survey of temperature and salinity and covered the period from early 70s to early 90s. In [4,5] the Black Sea dynamics over 20 years (1993)(1994)(1995)(1996)(1997)(1998)(1999)(2000)(2001)(2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012) was studied on the basis of satellite data assimilation. During these years, a small amount of hydrological survey was performed in the Black Sea, but remote sensing data such as sea level elevation anomalies and surface temperature became available.…”

Influence of the Vertical Turbulent Exchange Parameterization on the Results of Reanalysis of the Black Sea Hydrophysical Fields

Temporal variability of coccolithophore Emiliania huxleyi blooms in the open Black Sea: Evaluation by satellite data (1998–2020)

The impact of vertical mixing on the variability of salinity in the Black Sea pycnocline: Role of winter convection, vertical shear and mediterranean waters injections.