Ocean current data for nearly 3 months in the South China Sea(SCS),combined with the NCEP/NCAR reanalysis wind data,are analyzed.The results indicate that the wind en-ergy enters the upper mixed layer in a wide contin...Ocean current data for nearly 3 months in the South China Sea(SCS),combined with the NCEP/NCAR reanalysis wind data,are analyzed.The results indicate that the wind en-ergy enters the upper mixed layer in a wide continuous frequency band.In addition,the interac-tion between the low-frequency wind anomaly and the low-frequency current anomaly is the most‘effective’way for the energy input from the wind to the upper ocean.However,only the inertial and the near inertial energy propagate downwards through the upper mixed layer.The down-ward-propagating energy is distributed into the barotropic currents,the baroclinic currents and each mode of the baroclinic currents following the normal distributions.The energy change ratios between the barotropic motion to the baroclinic motion induced by the wind present a normal distribution of N(0.0242,0.3947).The energy change ratios of the first 4 baroclinic modes to the whole baroclinic currents also follow the normal distributions.The first baroclinic mode follows N(0.2628,0.1872),the second N(0.1979,0.1504),the third N(0.1331,0.1633),and the fourth N(0.0650,0.1540),respectively.展开更多
基金supported by theDepartment of Science and Technology of China(Grant No.TG1999043800).
文摘Ocean current data for nearly 3 months in the South China Sea(SCS),combined with the NCEP/NCAR reanalysis wind data,are analyzed.The results indicate that the wind en-ergy enters the upper mixed layer in a wide continuous frequency band.In addition,the interac-tion between the low-frequency wind anomaly and the low-frequency current anomaly is the most‘effective’way for the energy input from the wind to the upper ocean.However,only the inertial and the near inertial energy propagate downwards through the upper mixed layer.The down-ward-propagating energy is distributed into the barotropic currents,the baroclinic currents and each mode of the baroclinic currents following the normal distributions.The energy change ratios between the barotropic motion to the baroclinic motion induced by the wind present a normal distribution of N(0.0242,0.3947).The energy change ratios of the first 4 baroclinic modes to the whole baroclinic currents also follow the normal distributions.The first baroclinic mode follows N(0.2628,0.1872),the second N(0.1979,0.1504),the third N(0.1331,0.1633),and the fourth N(0.0650,0.1540),respectively.
