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The Nonlinear Patterns of North American Winter Climate associated with ENSO

The Nonlinear Patterns of North American Winter Climate associated with ENSO Aiming Wu, William Hsieh University of British Columbia Amir Shabbar Environment Canada. ENSO = El Niño + Southern Oscillation. El Niño. La Niña. Atmos. Response to ENSO is nonlinear.

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The Nonlinear Patterns of North American Winter Climate associated with ENSO

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  1. The Nonlinear Patterns of North American Winter Climate associated with ENSO Aiming Wu, William Hsieh University of British Columbia Amir Shabbar Environment Canada

  2. ENSO = El Niño + Southern Oscillation El Niño La Niña

  3. Atmos. Response to ENSO is nonlinear Composite of Z500 and tropical precipitation during El Niño (A) and La Niña (B) (from Hoerling et al 1997 J. of Climate) + - A + - • La Niña El Niño • Sign reversed • Shifted eastward by 30-40°(asymmetric) + + B -

  4. Nonlinear Temperature Response to ENSO - + + Hoerling et al 1997 J. of Climate

  5. Winter Precipitation Variability (Nov-Mar)

  6. The Three Leading EOFs of SAT and Prcp

  7. Objective of the Study If x is the ENSO index, how do we derive the atmos. response y = ƒ(x) ? • linear regression (or projection) y =a•x –x +x - - + + - + • Linear method cannot extract asymmetric patterns between –x and +x • Need a nonlinear method

  8. Nonlinear projection via Neural Networks (NN projection) • x, the ENSO index • h, hidden layer • y´, output, the atmos. response A schematic diagram Cost function J = || y – y´ || is minimized to get optimal Wx, bx, Wh and bh (y is the observation)

  9. Data ENSO index (x) • 1st principal component (PC) of the tropical Pacific SSTA • Nov.-Mar. • 1950-2001,monthly • SST data from ERSST-v2 (NOAA) • Linear detrend • standardized Atmos. Fields (y) • surface air temp. (SAT) and precip.(PRCP) • From CRU-UEA (UK) • Monthly,1950–2001, 11 • Nov.-Mar.; North America • Anomalies (1950-01 Clim) • Linear detrend • PRCP standardized • Condensed by PCA 10 SAT PCs (~90%) retained 12 PRCP PCs (~60%)

  10. Significance by Bootstrap • A single NN model may not be stable (or robust) • Bootstrap: randomly select one winter’s data 52 times from the 52-yr data (with replacement)  one bootstrap sample • Repeat 400 times  train 400 NN models  average of the 400 models as the final solution 400 NN models Given an x NN model  y  (combined with EOFs)  atmosphere anomaly pattern associated with x

  11. NN projecton in the SAT PC1-PC2-PC3 space • Green: 3-D • Blue: projected on 2-D PC plane • “C” extreme cold state; “W” extreme warm state • Straight line: linear proj. • Dots: data points

  12. SAT anomalies • as ENSO index takes on its (a) min. (d) max. (b) 1/2 min. (e) 1/2 max. (c) a-2b (f) d-2e • Darker color  above 5% significance

  13. PCA on Lin. & Nonlin. Parts of NN projection Linear regression NL = NN – LR 27% 73%

  14. PC1 of Lin. part vs. ENSO index  a straight line • PC1 of Nonlin. part vs. ENSO index  a quadratic curve A quadratic response

  15. A polynomial fit 1, 2 are x, x2 normalized, x is the ENSO index SAT

  16. PRCP anomalies • as ENSO index takes on its (a) min. (d) max. (b) 1/2 min. (e) 1/2 max. (c) a-2b (f) d-2e • Darker color  above 5% significance

  17. Lin. & nonlin. prcp. response to ENSO LR + NL = NN 78% 22%

  18. Lin. & nonlin. prcp. PC1 vs. ENSO index

  19. Forecast Skill in Linear and Nonlinear Models 1 , 2 are x, x2 normalized, x is the ENSO index

  20. Summary and Conclusion • N. American winter climate responds to ENSO in a nonlinear fashion (exhibited by asymmetric SAT and PRCP patterns during extreme El Niño and La Niña events). • The nonlinear response can be successfully extracted by the nonlinear projection via neural networks (NN). • NN projection consists of a linear part and a nonlinear part. The nonlinear part is mainly a quadratic response to the ENSO SSTA, accounting for 1/4~1/3 as much as the variance of the linear part.

  21. Merci a tout !

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