Blocking precursors of Sudden Stratospheric Warmings

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Blocking precursors of Sudden Stratospheric Warmings David Barriopedro 1,2 1 Dpto. Física de la Tierra II (Astrofísica y Ciencias de la Atmósfera), Universidad Complutense de Madrid, Spain 2 Instituto de Geociencias (IGEO), CSIC-UCM, Madrid, Spain Workshop on Atmospheric Blocking, 6 8 April, Reading

Sudden Stratospheric Warmings (SSWs) - Potential for seasonal winter predictions of extratropical circulation Time-height composites of NAM index for SSWs (top) and strong vortex events (bottom). Baldwin and Dunkerton (2001, Science)

Early studies - Blocking can precede [e.g., Quiroz 1986] and follow [e.g., Labitzke 1965] SSWs. Quiroz [1986]

Blocking precursors of SSWs - No lead or lag significant connections between blocking and SSWs, when SSWs are considered altogether [Taguchi 2008] Before SSWs After SSWs Duration Frequency Observed (arrow) and randomized (shading) blocking frequency and duration before and after SSWs Taguchi [2008]

Blocking precursors of SSWs - Blocking precursor signals if SSWs are stratified by the type of SSW [e.g., Martius et al. 2009; Castanheira and Barriopedro 2010; Woollings et al. 2010] Displacement Split Blocking composite (%) [-10,0] days before SSWs Atlantic blocking (+) / Pacific blocking (-) Displacement SSWs Atlantic blocking (+) / Pacific blocking (+) Splitting SSWs Martius et al. [2009]

Blocking precursors of SSWs - Multiple lead-lag links between regional blocking and stratospheric variability, but contradictory results in the blocking precursors of splitting SSWs [Woollings et al. 2010] Before SSWs Blocking frequency composites (%) for different lags before and after SSWs Euro-Atlantic blocking (+) Displacement & Splitting SSWs Woollings et al. [2010]

Blocking precursors of SSWs - The blocking influence on the polar vortex depends on the geographical location of the block and involves modulation of W 1 and W 2 [Castanheira and Barriopedro 2010] Displacement Splitting Wave energy anomalies during SSWs Euro-Atlantic Blocks Pacific Blocks Wave-2 Wave-1 ZMZW Wave energy anomalies associated with regional blocking Atlantic blocking W 1 warming Eastern Pacific blocking W 2 warming (W 1 cooling) Castanheira and Barriopedro [2010]

Stratospheric responses to blocking - ENSO modulates the blocking influence on the polar stratosphere, the blocking precursors of SSWs, and the signatures of SSWs [Barriopedro & Calvo 2014] All blocks EN blocks LN blocks amplitude amplitude [45,75]ºN mean 100 hpa v*t* anomalies (K m s -1 ) for [0,10] days after local blocking. Hatching denotes the 95% c.l. Atlantic blocking + EN Wave-1 warming (+) Pacific blocking + LN Wave-2 warming (+) Barriopedro & Calvo [2014]

Blocking and SSW definitions - Stronger blocking precursor signals when SSWs are stratified into W 1 and W 2 SSWs, rather than into displacement and splitting SSWs [Barriopedro & Calvo 2014] block block Blocking frequency (in % of days of the [-10,0]-day period before SSWs). Confidence (95%) is hatched Difference of blocking precursors for W 1 -W 2 and for displacement-splitting SSWs (%) Atlantic blocking (+) / Pacific blocking (-) W 1 SSWs Atlantic blocking (-) / Pacific blocking (+) W 2 SSWs Barriopedro & Calvo [2014]

Blocking and SSW definitions - Larger differences among blocking definitions for high-latitude Pacific and Greenland blocking regions. [Martius et al. 2009] [Castanheira & Barriopedro 2010] [Nishii et al. 2011]* [De la Torre et al. 2012] [Barriopedro & Calvo 2014] [Ayarzagüena et al. 2015]* [Taguchi 2008]* [Woollings et al. 2008] [Bancalá et al. 2012]* [Mitchell et al. 2013] [Davini et al. 2015] [Castanheira & Barriopedro 2010] [Vial et al. 2013]* [Barriopedro & Calvo 2014] Composite of 100 hpa meridional eddy heat flux anomalies for the [0,10]-day period after local blocking. http://s-rip.ees.hokudai.ac.jp/

Conclusions What we know The precursor role of blocking (or absence of blocking) in SSWs is regional- and typed-dependent: No links arise when either blocks or SSWs are considered altogether. Blocking influence mainly involves interference with planetary waves. Euro-Atlantic (eastern Pacific) blocks have the largest warming effect through W 1 (W 2 ) propagation. Stronger precursor links are found when SSWs are classified into W 1 and W 2 events due to the lack of correspondence between W 2 and splitting SSWs. Challenges Blocking is an efficient precursor of SSWs, but most blocks do not lead to SSWs. Blocking could even be necessary but it is not a sufficient condition for SSWs. Blocking effects on the polar stratosphere can be case-sensitive (e.g. eastern Pacific blocks). External factors (ENSO, GHGs) modulate the blocking role on the polar stratosphere. How to use the blocking precursor role to improve the predictability of SSWs? Shortcomings Small sample of SSWs and large case-to-case variability. Sensitivity to blocking and SSW definitions.

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