Impact of the Pacific mean SST bias to the Atlantic-Pacific teleconnection
- Monash university, ARC Centre of Excellence for Climate Extremes, School of Earth, Atmosphere and Environment, Australia (chen.li2@monash.edu)
A robust eastern tropical Pacific surface temperature cooling trend along with the strengthening of Pacific trade wind is evident across different observations since late 1990s, which is considered as a pronounced contributor to the slowdown in global surface warming. However, most CMIP5 historical simulations failed to reproduce this La Niña-like change. Previous studies have attributed this discrepancy between the multi-model simulations and the observations to the underrepresentation of Pacific low-frequency variability together with the misrepresentation of inter-basin forcing response. The underlying reasons remain unclear. Here, we investigate a hypothesis that common Pacific mean SST bias may diminish the Pacific-Atlantic atmospheric teleconnection and further contribute to the underestimated eastern Pacific cooling. Model results suggest that the CMIP5-like Pacific bias acts to reduce the Atlantic heating response by strengthening the atmospheric stability over the Atlantic region and therefore weaken the trans-basin variability. In addition, the Pacific bias simulation with a strong SST cold tongue substantially undermined the positive zonal wind feedback, which also contributes to the underestimated Pacific cooling response. Future efforts aim at reducing the model mean state biases may significantly help to improve the simulation skills of the trans-basin teleconnection, Pacific decadal variability, and the associated Pacific dynamics.
How to cite: Li, C., Dommenget, D., and McGregor, S.: Impact of the Pacific mean SST bias to the Atlantic-Pacific teleconnection, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-7407, https://doi.org/10.5194/egusphere-egu2020-7407, 2020