WANG Hui, LIU Guimei, SUN Song, HAN Boping, FU Xiang. A three-dimensional coupled physical-biological model study in the spring of 1993 in the Bohai Sea of China[J]. Acta Oceanologica Sinica, 2007, (6): 1-12.
Citation:
WANG Hui, LIU Guimei, SUN Song, HAN Boping, FU Xiang. A three-dimensional coupled physical-biological model study in the spring of 1993 in the Bohai Sea of China[J]. Acta Oceanologica Sinica, 2007, (6): 1-12.
WANG Hui, LIU Guimei, SUN Song, HAN Boping, FU Xiang. A three-dimensional coupled physical-biological model study in the spring of 1993 in the Bohai Sea of China[J]. Acta Oceanologica Sinica, 2007, (6): 1-12.
Citation:
WANG Hui, LIU Guimei, SUN Song, HAN Boping, FU Xiang. A three-dimensional coupled physical-biological model study in the spring of 1993 in the Bohai Sea of China[J]. Acta Oceanologica Sinica, 2007, (6): 1-12.
A three-dimensional(3-D) coupled physical and biological model was used to investigate the physical processes and their influence on the ecosystem dynamics of the Bohai Sea of China.The physical processes include M2 tide,time-varying wind forcing and river discharge.Wind records from 1 to 31 May in 1993 were selected to force the model.The biological model is based on a simple,nitrate and phosphate limited,lower trophic food web system.The simulated results showed that variation of residual currents forced by M2 tide,river discharge and time-varying wind had great impact on the distribution of phytoplankton biomass in the Laizhou Bay.High phytoplankton biomass appeared in the upwelling region.Numerical experiments based on the barotropic model and baroclinic model with no wind and water discharge were also conducted.Differences in the results by the baroclinic model and the barotropic model were significant:more patches appeared in the baroclinic model comparing with the barotropic model.And in the baroclinic model,the subsurface maximum phytoplankton biomass patches formed in the stratified water.