Attenuation Of Central Pacific El Nino Amplitude By North Pacific Sea Surface Temperature Anomalies

There exists a pronounced asymmetry between the amplitudes of central Pacific (CP) and eastern Pacific (EP) El Nino sea surface temperature anomalies (SSTA). The present study examines such an asymmetry and its relationship with the North Pacific SSTA. Results indicate that the weaker CP El Nino amplitude can be attributed to the weaker anomalous zonal wind response to the east-west equatorial SSTA gradient during its growing phase compared with EP El Nino. Furthermore, the occurrence of CP El Nino is closely associated with southwesterly surface wind anomalies in the subtropical North Pacific, as well as ocean warming reminiscent of the North Pacific Gyre Oscillation (NPGO) pattern in its vicinity. Both the observations as well as the pacemaker experiments with a coupled global climate model suggest that the anomalous low-level southwesterlies, induced by the North Pacific Oscillation (NPO)-like atmospheric variability, can enhance anomalously positive SST signals and extend them southwestward to the central equatorial Pacific via the wind-evaporation-SST feedback. This will further attenuate the atmospheric response to zonal SSTA gradient, and hence weaken the amplitude of CP El Nino. Therefore, anomalous low-level southwesterlies over the subtropical North Pacific can effectively act as a conduit for tropical-subtropical air-sea interaction in that region, and can play an important role in limiting the intensity of CP El Nino.