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Update on hydrodynamic model comparisons Marjy Friedrichs and Carl Friedrichs Aaron Bever (post-doc) Leslie Bland (summer undergraduate student)

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Presentation on theme: "Update on hydrodynamic model comparisons Marjy Friedrichs and Carl Friedrichs Aaron Bever (post-doc) Leslie Bland (summer undergraduate student)"— Presentation transcript:

1 Update on hydrodynamic model comparisons Marjy Friedrichs and Carl Friedrichs Aaron Bever (post-doc) Leslie Bland (summer undergraduate student)

2 Methods: Target diagrams (Jolliff et al., 2009) 1 1 Unbiased RMSD Bias Total RMSD 2 = Bias 2 + unbiased RMSD 2 meanseasonal variability x > 0 overestimates variability y > 0: overestimates mean

3 Methods: Target diagrams (Jolliff et al., 2009) 1 1 Unbiased RMSD Bias Total RMSD 2 = Bias 2 + unbiased RMSD 2 meanvariability x > 0 overestimates variability y > 0: overestimates mean

4 Methods: Target diagrams (Jolliff et al., 2009) 1 1 Unbiased RMSD/stdev(obs) Bias/stdev(obs) Normalization by standard deviation of observations outer circle: Model-data misfit = variability in data x > 0 overestimates variability y > 0: overestimates mean

5 Methods: Target diagrams (Jolliff et al., 2009) 1 1 Unbiased RMSD/stdev(obs) Bias/stdev(obs) Normalization by standard deviation of observations outer circle: Model-data misfit = variability in data x > 0 overestimates variability y > 0: overestimates mean

6 Methods: Target diagrams (Jolliff et al., 2009) 1 1 Unbiased RMSD/stdev(obs) Bias/stdev(obs) Normalization by standard deviation of observations outer circle: Model-data misfit = variability in data x > 0 overestimates variability y > 0: overestimates mean model does worse than the mean of the data

7 Model simulations Original simulations (summer ‘10) ◦ CH3D (P. Wang) ◦ EFDC (J. Shen) ◦ ChesROMS (W. Long) ◦ CBOFS2 (L. Lanerolle) New ‘consistent forcing’ simulations (this week!) ◦ EFDC (J. Shen) ◦ CBOFS2 (L. Lanerolle) ◦ UMCES ROMS (Y. Li)

8 Preliminary model comparisons (Summer ‘10) Initially examined salinity at the halocline (max dS/dz) as a function of bathymetric error, latitude, salinity, oxygen, bottom depth Conclusion: For all four models, model skill (total RMSD) is primarily a function of mean salinity and/or latitude

9 New model comparisons (Fall ‘10) Best match over ±12 hour time window Additional variables: dS/dz at max dS/dz z of max dS/dz S at max dS/dz New ‘consistent forcing’ simulations

10 New model comparisons (Fall ‘10) Best match over ±12 hour time window Additional variables: dS/dz at max dS/dz z of max dS/dz S at max dS/dz New ‘consistent forcing’ simulations

11 = inst match = best match (over 24h) = inst match = best match (over 24h) Surface Salinity

12 New model comparisons (Fall ‘10) Best match over ±12 hour time window Additional variables: dS/dz at max dS/dz z of max dS/dz S at max dS/dz New ‘consistent forcing’ simulations

13 Salinity (psu) Stratification = max dS/dz Stratification = max dS/dz

14 depth of max dS/dz Salinity (psu)

15 Salinity at max dS/dz Salinity at max dS/dz Salinity (psu)

16 New model comparisons (Fall ‘10) Best match over ±12 hour time window Additional variables: dS/dz at max dS/dz z of max dS/dz S at max dS/dz New ‘consistent forcing’ simulations

17 Surface Salinity EFDC CBOFS2 New forcing: Slight improvement in CBOFS2 results Slight degradation in EFDC results Red = First runs Black = New or consistent forcing runs. The EFDC results here are without showing the far outliers. = old results = new results = old results = new results

18 max dS/dz old forcing new forcing Salinity (psu)

19 max dS/dz new forcing Salinity (psu)

20 depth of max dS/dz old forcing new forcing Salinity (psu)

21 depth of max dS/dz new forcing Salinity (psu)

22 Salinity at max dS/dz old forcing new forcing Salinity (psu)

23 Salinity at max dS/dz new forcing Salinity (psu)

24 Next steps for hydrodynamic comparisons? Why does CH3D produce superior stratification? ◦ Vertical grid structure? C&D canal? Bathymetry? ◦ other? Next model runs ◦ Atmospheric forcing? ◦ Boundary conditions on shelf? Additional metrics

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