The authors investigate the relationship between bias in simulated sea surface temperature(SST)in the equatorial eastern Pacific cold tongue during the boreal spring as simulated by an oceanic general circulation model(OGCM)and minimal wind mixing(MWM)at the surface.The cold bias of simulated SST is the greatest during the boreal spring,at approximately 3°C.A sensitivity experiment reducing MWM by one order of magni-tude greatly alleviates cold biases,especially in March-April.The decrease in bias is primarily due to weakened vertical mixing,which preserves heat in the uppermost layer and results in warmer simulated SST.The reduction in vertical mixing also leads to a weak westward current in the upper layer,which further contributes to SST warming.These findings imply that there are large uncertainties about simple model parameters such as MWM at the oceanic surface. The authors investigate the relationship between bias in simulated sea surface temperature (SST) in the equatorial eastern Pacific cold tongue during the boreal spring as simulated by an oceanic general circulation model (OGCM) and minimal wind mixing (MWM) at the surface. Cold bias of simulated SST is the greatest during the boreal spring, at about 3 ° CA sensitivity experiment reducing MWM by one order of magni- tude greatly alleviates cold biases, especially in March-April. The decrease in bias is in due to weakened vertical mixing , which preserves heat in the uppermost layer and results in warmer simulated SST. reduction in vertical mixing also leads to a weak westward current in the upper layer, which further contributes to sST warming.These findings imply that there are large uncertainties about simple model parameters such as MWM at the oceanic surface.