Feedback process responsible for intermodel diversity of ENSO variability

The origin of the intermodel diversity of the El Niño–Southern Oscillation (ENSO) variability is investigated by applying a singular value decomposition (SVD) analysis between the intermodel tropical Pacific sea surface temperature anomalies (SSTA) variance and the intermodel ENSO stability index (BJ index). The first SVD mode features an ENSO‐like pattern for the intermodel SSTA variance (74% of total variance) and the dominant thermocline feedback (TH) for the BJ index (51%). Intermodel TH is mainly modified by the intermodel sensitivity of the zonal thermocline gradient response to zonal winds over the equatorial Pacific (βh), and the intermodel βh is correlated higher with the intermodel off‐equatorial wind stress curl anomalies than the equatorial zonal wind stress anomalies. Finally, the intermodel off‐equatorial wind stress curl is associated with the meridional shape and intensity of ENSO‐related wind patterns, which may cause a model‐to‐model difference in ENSO variability by influencing the off‐equatorial oceanic Rossby wave response. Key Points Intermodel diversity in ENSO variability is mainly attributed to that in thermocline feedback Intermodel thermocline feedback is highly correlated to the intermodel sensitivity of the zonal contrast of thermocline to wind stress Oceanic response is related to the intermodel diversity in the wind stress curl response to SST