%0 Journal Article %1 karpechko2018predicting %A Karpechko, Alexey Yu. %A Charlton-Perez, Andrew %A Balmaseda, Magdalena %A Tyrrell, Nicholas %A Vitart, Frederic %D 2018 %I American Geophysical Union (AGU) %J Geophysical Research Letters %K MySeclifirmWTwork MyStratTropWork SECLIFIRM seasonal skill ssw stratosphere %N 24 %P 13,538--13,546 %R 10.1029/2018gl081091 %T Predicting Sudden Stratospheric Warming 2018 and Its Climate Impacts With a Multimodel Ensemble %U https://doi.org/10.1029/2018gl081091 %V 45 %X Sudden stratospheric warmings (SSWs) are significant source of enhanced subseasonal predictability, but whether this source is untapped in operational models remains an open question. Here we report on the prediction of the SSW on 12 February 2018, its dynamical precursors, and surface climate impacts by an ensemble of dynamical forecast models. The ensemble forecast from 1 February predicted 3 times increased odds of an SSW compared to climatology, although the lead time for SSW prediction varied among individual models. Errors in the forecast location of a Ural high and underestimated magnitude of upward wave activity flux reduced SSW forecast skill. Although the SSW's downward influence was not well forecasted, the observed northern Eurasia cold anomaly following SSW was predicted, albeit with a weaker magnitude, due to persistent tropospheric anomalies. The ensemble forecast from 8 February predicted the SSW, its subsequent downward influence, and a long‐lasting cold anomaly at the surface.

@article{karpechko2018predicting, abstract = {Sudden stratospheric warmings (SSWs) are significant source of enhanced subseasonal predictability, but whether this source is untapped in operational models remains an open question. Here we report on the prediction of the SSW on 12 February 2018, its dynamical precursors, and surface climate impacts by an ensemble of dynamical forecast models. The ensemble forecast from 1 February predicted 3 times increased odds of an SSW compared to climatology, although the lead time for SSW prediction varied among individual models. Errors in the forecast location of a Ural high and underestimated magnitude of upward wave activity flux reduced SSW forecast skill. Although the SSW's downward influence was not well forecasted, the observed northern Eurasia cold anomaly following SSW was predicted, albeit with a weaker magnitude, due to persistent tropospheric anomalies. The ensemble forecast from 8 February predicted the SSW, its subsequent downward influence, and a long‐lasting cold anomaly at the surface.}, added-at = {2019-11-21T14:28:28.000+0100}, author = {Karpechko, Alexey Yu. and Charlton-Perez, Andrew and Balmaseda, Magdalena and Tyrrell, Nicholas and Vitart, Frederic}, biburl = {https://www.bibsonomy.org/bibtex/248234f66ee7b7d1fb942d2a87496b23d/pbett}, doi = {10.1029/2018gl081091}, interhash = {07b267203bf50aabea2d0f5d6b44a589}, intrahash = {48234f66ee7b7d1fb942d2a87496b23d}, journal = {Geophysical Research Letters}, keywords = {MySeclifirmWTwork MyStratTropWork SECLIFIRM seasonal skill ssw stratosphere}, month = dec, number = 24, pages = {13,538--13,546}, publisher = {American Geophysical Union ({AGU})}, timestamp = {2019-11-21T14:28:28.000+0100}, title = {Predicting Sudden Stratospheric Warming 2018 and Its Climate Impacts With a Multimodel Ensemble}, url = {https://doi.org/10.1029/2018gl081091}, volume = 45, year = 2018 }