Seasonal Forecasts of the Exceptional Northern Hemisphere Winter of 2020

The winter of 2019–2020 was dominated by an extremely strong stratospheric polar vortex and positive tropospheric Arctic Oscillation (AO). Here, we analyze forecasts from six different prediction systems contributing to the C3S seasonal forecast database. Most performed very strongly, with consisten...

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Veröffentlicht in:Geophysical research letters 2020-11, Vol.47 (21), p.n/a, Article 2020
Hauptverfasser: Lee, Simon H., Lawrence, Zachary D., Butler, Amy H., Karpechko, Alexey Y.
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Sprache:eng
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Zusammenfassung:The winter of 2019–2020 was dominated by an extremely strong stratospheric polar vortex and positive tropospheric Arctic Oscillation (AO). Here, we analyze forecasts from six different prediction systems contributing to the C3S seasonal forecast database. Most performed very strongly, with consistently high skill for January–March 2020 from forecasts launched through October–December 2019. Although the magnitude of the anomalies was underestimated, the performance of most prediction systems was extremely high for a positive AO winter relative to the common hindcast climate. Ensemble members which better predicted the extremely strong stratospheric vortex better predicted the extreme tropospheric state. We find a significant relationship between forecasts of the anomalous midlatitude tropospheric wave pattern in early winter, which destructively interfered with the climatological stationary waves and the strength of the stratospheric vortex later in the winter. Our results demonstrate a strong interdependence between the accuracy of stratospheric vortex and AO forecasts. Plain Language Summary Westerly winds during the winter of 2019–2020 were unusually strong and long lasting through a deep layer of the atmosphere. We investigate how well this was predicted months ahead of time. We find that seasonal weather forecast systems predicted the winter pattern very well, especially when compared with previous winters. Forecasts which better predicted the strength of the winds higher in the atmosphere did better overall. We find that there was a link between predictions of the weather patterns lower down in the atmosphere and how they suppressed large‐scale atmospheric waves in the midlatitudes, which likely helped the winds remain stronger higher up. Key Points Forecasts from six seasonal prediction systems consistently predicted the large‐scale winter patterns with unusually high accuracy Ensemble members which better predicted the extreme stratospheric state also better predicted the extreme tropospheric state Accurate prediction of the midlatitude tropospheric wave pattern was associated with more accurate stratospheric forecasts
ISSN:0094-8276
1944-8007
DOI:10.1029/2020GL090328