Forecast of Tropical Pacific SST using an intermediate ocean and a statistical atmosphere model

 

contributed by In-Sik Kang1, Chung-Kyu Park2, and Jong-Seong Kug1

 

1Climate Environment System Research Center, Seoul National University, Seoul 151-742, Korea

2Korea Meteorological Administration, Seoul 156-720, Korea

 

  


El Nino prediction has made using the KMA/SNU ENSO prediction system (Kang and Kug, 2000). The system is based on the intermediate ocean and statistical atmosphere model. The ocean model differs from the Cane and Zebiak (1987) model in the parameterization of subsurface temperature and the basic state. The statistical atmosphere model is developed based on the singular value decomposition (SVD) of wind stress and SST. In order to improve the western Pacific SST prediction, we introduced heat flux formula and vertical mixing parameterization to the ocean model. The initialization of the model is done by combining observed SST and wind stress. Wind stress is calculated by using 925hPa wind of NCEP/NCAR reanalysis data. Using calculated wind stress for initialization has a better forecast skill than the case of FSU wind stress in recent prediction. (Kug et al., 2001). In addition, the present prediction is attended with random noise to consider weather noise and to generate many sets of prediction. Our approach for random noise is similar to Kirtman and Schopf (1998).

 

   Figure 1 shows the Nino3 SST forecast with 12- month lead, with random noise (thin solid lines) and their ensemble mean (thick solid line) of 20 forecasts. Figure 2 shows seasonal SST forecast in tropical Pacific basin. The forecasts indicate that the tropical Pacific SST will be nearly zero during next season..

 

References:

 

Cane, M. A., S. E. Zebiak, 1987: Prediction of El Nino events using a physical model, In Atmospheric and Oceanic Variability, H. Cattle, Ed., Royal Meteorological Society press, 153-182

 

Kang, I.-S. and J.-S. Kug, 2000: An El-Nino prediction system with an intermediate ocean and statistical atmosphere model, Geophys. Res. Lett., 27, 1167-1170.

 

Kug, J.-S., I.-S. Kang and S. E. Zebiak 2001: Impacts of model assimilated wind stress data in the initialization of an intermediate ocean model and the ENSO predictability, Geophys. Res. Lett., 28, 3713

 

Kirtman, B. P. and P. S. Schopf, 1998: Decadal variability in ENSO predictability an prediction, J. Climate, 11, 2804-2822