A THEORY FOR THE LIMITATION OF ENSO PREDICTABILITY DUE TO STOCHASTIC ATMOSPHERIC TRANSIENTS

It is argued that a major fundamental limitation on the predictability of the El Nino-Southern Oscillation phenomenon is provided by the sto chastic forcing of the tropical coupled ocean-atmosphere system by atm ospheric transients. A new theoretical framework is used to analyze in detail the sensitivity of a skillful coupled forecast model to this s tochastic forcing. The central concept in this analysis is the so-call ed stochastic optimal, which represents the spatial pattern of noise m ost efficient at causing variance growth within a dynamical system. A number of interesting conclusions are reached. (a) Sensitivity to forc ing is greatest during the northern spring season and prior to warm ev ents. (b) There is little sensitivity to meridional windstress noise. (c) A western Pacific dipole pattern in heat flux noise is most effici ent in forcing eastern Pacific SST variance. An estimate of the actual wind stress stochastic forcing is obtained from recent ECMWF analyses and it is found that ''unavoidable'' error growth within the model du e to this stochastic forcing saturates at approximately 0.5 degrees C in the NINO3 region with very rapid error growth during the first 6 mo nths. The noise projects predominantly onto the first stochastic optim al and, in addition, around 95% of the error growth can be attributed to stochastic forcing with a strong synoptic character.