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ENSO Variability in SODA: 1871-2008 SULAGNA RAY BENJAMIN GIESE TEXAS A&M UNIVERSITY WCRP 2010, Paris, 17-19 Nov. 2010
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Compo et al., BAMS, 2006 Historical Winds
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Comparison of NINO 4 zonal wind stress between 20CRv2 and ERA-40 Black : 20CRv2 Red : ERA-40
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Model − Parallel Ocean Program 2.0.1 Domain − Global (including Arctic) Resolution − 0.4° × 0.25° average resolution − 40 levels, 10m spacing from surface to 450m Winds − 20CRv2 daily stress 1871-2008 Heat and Salt fluxes − Bulk formulae using 20CRv2 daily variables SODA Data Assimilation − WOD09 hydrographic and ICOADS 2.5 SST data SODA 2.2.4
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HADISST SODA 2.2.4 1877 1997 DJF SST anomaly of two strong El Niños from HadISST & SODA 2.2.4
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Standard Measure of El Niño : NINO-3.4 SST anomaly NINO-3.4 SST anomaly from SODA 2.2.4 (Red) and HADISST (Black) Stronger El Niños in SODA compared to HADISST hhhhh
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NINO-3.4 Index DJF SST anomaly of 1997-98 El Niño
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First moment of SST anomaly - Like the center of mass SST anomaly must be greater than 0.5°C Area must be greater or equal to the NINO-3.4 region CHI Longitude = center of El Niño warming CHI Amplitude = strength of El Niño Same for La Niña Center of Heat Index : CHI
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Amplitude ( C) Years CHI- Amplitude showing strength of El Niños El Niño in the late 19th century as strong as those in late 20th century
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Amplitude ( C) Years CHI- Amplitude showing strength of La Niña La Niña in the last century do not show much variation
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Longitude Years Circle radius proportional to the strength of CHI-amplitude CHI-Longitude showing Location of El Niños
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An Analysis of the position of El Niño in SODA Histogram of the position overlayed by a Gaussian with same mean and standard deviation Null hypothesis: Position of El Niño randomly distributed about 140W
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Obstacles in Ocean reanalysis Ocean observations are inhomogenous in space and time - Data thinning experiment ✔ Model bias - Simulation vs. Assimilation ✔ Errors in surface forcing
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WOD09 Hydrographic Temperature Observations 1920s 1990s1960s 1940s Per decade
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ICOADS 2.5 Number of SST Observations Per decade
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Data Thinning Experiment Sample the 1990s as though sampled in different periods 5 Experiments : 1.) No Assimilation As though sampled in the 2.) 1920s 3.) 1940s 4.) 1960s 5.) 1990s – Control run All other elements of the run are identical
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SST RMS Difference in the Tropical Pacific Value in assimilating even sparse observations
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Model Bias in CHI-Amplitude and Longitude SODA 2.2.4 CHI-Amplitude SODA 2.2.0 CHI-Amplitude SODA 2.2.0 CHI-Longitude SODA 2.2.4 CHI-Longitude Bias in the model does not seem to affect the amplitude of El Niño events There is a slight westward bias in the position of the El Niño Red− Before 1950 Blue− After 1950
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Comparison of CHI from SODA and HadISST HADISST CHI-Amplitude SODA 2.2.4 CHI-Amplitude SODA 2.2.4 CHI-Longitude HADISST CHI-Longitude El Niños are warmer in SODA compared to HadISST before 1950 El Niños in HadISST are east of those in SODA for the post-1950 period No correlation before1950 in terms of location Red− Before 1950 Blue− After 1950
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A 138-yr reanalysis is used to explore ENSO variability First moment of temp. anomaly (CHI) is used to describe El Niño Prominent decadal variability of El Niño strength, but little trend Location of El Niño varies considerably… But the distribution cannot be distinguished from Gaussian Model bias in SODA does not significantly affect the strength of El Niño but does introduce a slight westward bias in location Assimilation of sparse data adds value to the reanalysis Conclusions
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