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Publication Date
3 June 2020

Decadal Predictability of North Atlantic Blocking and the NAO

Subtitle
A new study points to ocean as a source of multi-year predictability for atmospheric blocking.
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Science

Can multi-annual variations in the frequency of North Atlantic atmospheric blocking and mid-latitude circulation regimes be skillfully predicted? Recent advances in seasonal forecasting have shown that mid-latitude climate variability does exhibit significant predictability. However, atmospheric predictability has generally been found to be quite limited on multi-annual timescales. On the other hand, recent studies from this project suggested that the Atlantic Multidecadal Variability (AMV) drives decadal-to-multidecadal variability in the blocking and North Atlantic Oscillation (NAO). In this study, we explored a state-of-the-art decadal prediction experiment to quantify the multi-year prediction skills of the North Atlantic blocking and NAO, and the source of predictability.

Impact

The occurrence of blocking in certain areas of the Euro-Atlantic domain determines the concurrent circulation regime and the phase of known teleconnections, such as the NAO, consequently affecting the stormtrack and the frequency and intensity of extreme weather events. Therefore, skillfully predicting the decadal fluctuations of blocking frequency and the NAO may be used in statistical predictions of near-term climate anomalies, and it provides a strong indication that impactful climate anomalies may also be predictable with improved dynamical models.

Summary

The Community Earth System Model Decadal Prediction Large Ensemble is found to exhibit remarkable skill in reproducing the observed multi-annual variations of wintertime blocking frequency over the North Atlantic and of the North Atlantic Oscillation (NAO) with the anomaly correlation coefficient skill greater than 0.6 with 2-8 year lead time. This is partly due to the large ensemble size that allows the predictable component of the atmospheric variability to emerge from the background chaotic component. The predictable atmospheric anomalies represent a forced response to oceanic low-frequency variability associated with the Atlantic Multi-decadal Variability (AMV), correctly reproduced in the decadal prediction system thanks to realistic ocean initialization and ocean dynamics.

Point of Contact
Young-Oh Kwon
Institution(s)
Woods Hole Oceanographic Institution
Funding Program Area(s)
Publication