Abstract
The influence of El Niño–Southern Oscillation (ENSO) on the East Asian winter monsoon (EAWM) is investigated based on the outputs of phase 6 of the Coupled Model Intercomparison Project (CMIP6) models and compared to that in phase 5 (CMIP5). Results show that overall the CMIP6 models reproduce the ENSO-EAWM teleconnection more realistically than the CMIP5 models, although they still somewhat underestimate the ENSO-EAWM teleconnection than observed. Based on the intermodel spread of ENSO-EAWM teleconnection simulated in the CMIP5/CMIP6 models, we reveal that the commonly underestimated ENSO-EAWM teleconnection among the models can be traced back to the excessive extension of the cold tongue to the equatorial western Pacific. A model with a stronger climatological cold tongue favors generating a more westward extension of the ENSO-related SST anomaly pattern, which in turn forces an anomalous cyclonic circulation over the Northwest Pacific (NWP). It offsets the anticyclonic anomalies in the NWP and weakens the ENSO-EAWM teleconnection. Compared with the CMIP5 models, most CMIP6 models better simulate SST mean state and the resultant ENSO-EAWM teleconnection. The present results suggest that substantial efforts should be made to reduce the bias in the mean-state SST for further improving the simulation and projection of the East Asian-western Pacific winter climate.
Highlights
The East Asian winter monsoon (EAWM), one of the most active monsoon systems during boreal winter, exerts a large influence on the weather and climate in East Asia (Chen et al 2000; Chen et al 2005; Chang et al 2006; Wang and Lu 2017)
Based on the inter-model spread of El Niño–Southern Oscillation (ENSO)-EAWM teleconnection simulated in the compared to that in phase 5 (CMIP5)/CMIP6 models, we reveal that the commonly underestimated ENSO-EAWM teleconnection among the models can be traced back to the excessive cold tongue bias in the equatorial western Pacific
The ENSO-EAWM teleconnection is evaluated based on 20 CMIP5 models and 20 CMIP6 models
Summary
The East Asian winter monsoon (EAWM), one of the most active monsoon systems during boreal winter, exerts a large influence on the weather and climate in East Asia (Chen et al 2000; Chen et al 2005; Chang et al 2006; Wang and Lu 2017). An anomalous anticyclone (cyclone) generates over the Northwest Pacific (NWP) during El Niño (La Niña) mature winter, and its associated meridional anomalies weaken (enhance) the EAWM flow and lead to warmer (cooler) and wetter (dryer) climate in East Asia and Southeast Asian countries (Zhang et al 1996; Wang et al 2000; Wang et al 2013). The performance of models in reproducing ENSO-EAWM teleconnection behaviors is important for determining the reliability of the model’s projections of future East Asia-western Pacific winter climate change. This study addresses the following questions: How well do the latest CMIP6 models simulate the ENSO-EAWM teleconnection? Based on the outputs from 20 CMIP5 and 20 CMIP6 models, the present study investigates the biases of CMIP6 models in reproducing the observed ENSO-EAWM teleconnection and compares the results to those in CMIP5 models.
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