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Subseasonal variability of North American wintertime surface air temperature Hai Lin RPN, Environment Canada August 19, 2014 WWOSC, Montreal.

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Presentation on theme: "Subseasonal variability of North American wintertime surface air temperature Hai Lin RPN, Environment Canada August 19, 2014 WWOSC, Montreal."— Presentation transcript:

1 Subseasonal variability of North American wintertime surface air temperature Hai Lin RPN, Environment Canada August 19, 2014 WWOSC, Montreal

2 Outline Introduction Objectives Data Dominant patterns of subseasonal T2m variability Precursors and signal sources Implication to model development and numerical predictions Conclusion

3 Introduction Subseasonal time scale: a week to a season Importance: surface air temperature (SAT) variability impact on societal and economical activities e.g., persistent extreme cold: health problem, energy, transportation, etc

4 Objectives Identify the dominant patterns of wintertime subseasonal SAT variability in North America Associated large-scale atmospheric circulation Identify precursors that lead to the subseasonal SAT variability Mechanism and predictability source Determine potential predictability

5 Data and method Daily averaged NCEP/NCAR reanalysis Pentad (5-day) average Extended winter: November to March ( 30 pentads ) 1979-2013 (34 extended winters) Remove seasonal cycle, and seasonal mean to get anomaly for subseasonal variability EOF analysis

6 4 leading EOFs of SAT subseasonal variability

7 Power spectrum of PC time series

8 EOF1 Continental scale 23% of total variance Tends to have a period of 50 days What is the process and mechanism leading to EOF1 variability? Lagged regression analysis of circulation wrt PC1

9 −3 pentads −2 pentads −1 pentads simultaneous T2m

10 Precursor: Cold surge in East Asia? Siberian high East Asian jet intensification Low level convergence in the tropics

11 −3 pentads −2 pentads −1 pentads simultaneous SLP

12 OLR

13 PNA 200hPa streamfunction

14 EOF2 Dipole structure 15% of total variance Tends to have a period of 70 days

15 OLR

16 200hPa VP

17 Is EOF2 influenced by the MJO? But why EOF2 has a period of 70 days, instead of 30-50 days?

18 Power spectrum of RMM time series (in 24 extended winters November-March) RMM1 and RMM2 are widely used MJO index, by Wheeler and Hendon (2004).

19 The MJO in winter has a slow and a fast component EOF2 is influenced by the slow component EOF2 and MJO

20 200hPa streamfunction wrt PC2

21 EOF3 and EOF4

22 Lag correlation of PC3 and PC4

23 EOF3 and EOF4 Spatial phase shift to each other PC4 lags PC3 by 2 pentads Represent northeastward propagation Combined 21% of total variance Both tend to have a period of 40 days (same frequency as the fast MJO component) Independent and dependent components

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26 Implication All four leading modes have precursors about 3 pentads in advance  potential predictability All four leading modes have tropical connection. EOF1 has an indirect connection (tropical Pacific convection serves as a “bridge”) EOF2, EOF3 and EOF4 have a direct link to the tropical MJO Importance of tropics in subseasonal prediction: data assimilation and initialization, model physics, etc.

27 Summary Four leading modes account for 60% of total variance EOF1: continental scale same sign; associated with PNA; East Asian cold surge as a precursor EOF2: northwest-southeast dipole structure; 70 day period; related to the low-frequency component of MJO EOF3 and EOF4 are partially related. Associated with the fast MJO component Would be interesting to see how GCMs simulates these processes…


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