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Assimilation of HF radar in the Ligurian Sea Spatial and Temporal scale considerations L. Vandenbulcke, A. Barth, J.-M. Beckers GHER/AGO, Université de.

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Presentation on theme: "Assimilation of HF radar in the Ligurian Sea Spatial and Temporal scale considerations L. Vandenbulcke, A. Barth, J.-M. Beckers GHER/AGO, Université de."— Presentation transcript:

1 Assimilation of HF radar in the Ligurian Sea Spatial and Temporal scale considerations L. Vandenbulcke, A. Barth, J.-M. Beckers GHER/AGO, Université de Liège

2 L. Vandenbulcke, A. Barth, J.-M. Beckers 0/15DA of HF radar data in the Ligurian Sea Outline 1.Introduction 2.Ensemble generation 3.Data and observation operator 4.Data assimilation: OAK 5.Spatial considerations 6.Temporal considerations 7.SST considerations 8.Conclusion

3 L. Vandenbulcke, A. Barth, J.-M. Beckers 1/15DA of HF radar data in the Ligurian Sea 1.Introduction Regional model of the Ligurian Sea: ROMS 1/60° 32 vertical levels Open boundary from the MFS model Atmospheric forcing fields from the COSMO model Eastern & Western Corsican Current, Liguro-Provencal Current Mesoscale Inertial oscillations, T~17 hours

4 L. Vandenbulcke, A. Barth, J.-M. Beckers 2/15DA of HF radar data in the Ligurian Sea 1.Introduction Recognized Environmental Picture (REP’10) campaign during the summer 2010, drifter experiment LIDEX10 Available data: (a) 2 WERA high-frequency radars, (b) SST images, (c) drifters Can the forecasts be improved by data from 2 WERA high-frequency radars ? How long does an improvement last? Or, how frequent data do we need? 2 WERA radars: Operated by NURC (now CMRE) San Rossore, Palmaria Azimuthal resolution 6° Currents averages over 1 hour

5 L. Vandenbulcke, A. Barth, J.-M. Beckers 3/15DA of HF radar data in the Ligurian Sea 2. Ensemble generation The ensemble members undergo perturbations of the most uncertain aspects of the model: Perturbed wind field Perturbed open boundary condition (velocity, surface elevation, temperature, salinity) Supplementary stochastic term in the velocity equation The ensemble is spun up from unique initial condition during 1 week, after which members have separated and created mesoscale circulation features the respective perturbations are tuned so that their effect has the same order of magnitude e.g. after 1 week, surface velocity spread ~ 10 cm/s spatial autocorrelation ~ 50 km (temperature) ~10 km (velocity)

6 L. Vandenbulcke, A. Barth, J.-M. Beckers 4/15DA of HF radar data in the Ligurian Sea 3. Data and observation operator

7 L. Vandenbulcke, A. Barth, J.-M. Beckers 5/15DA of HF radar data in the Ligurian Sea 3. Data and observation operator The observations to assimilate are the (radial) radar velocities (no interpolation) The observation operator H transforms the model fields into radial currents towards the radars Moreover, H also smooths the currents in the azimuthal direction (filters features smaller than 6°) The points in the dense field of radar velocity observations are not uncorrelated. As we suppose the observation covariance matrix R is diagonal, we increase its diagonal R = R instr + R repr R repr = [ 5, 50, 250 ] cm/s

8 L. Vandenbulcke, A. Barth, J.-M. Beckers 6/15DA of HF radar data in the Ligurian Sea 4. Data assimilation: EnKF implemented in OAK The estimation vector x can contain the model fields at restart time Or the model fields at different times during a time-window ( ~ AEnKF / smoother ) Or the model fields and forcing fields ( OBC, wind … )  see also poster by Mermain et al

9 L. Vandenbulcke, A. Barth, J.-M. Beckers 7/15DA of HF radar data in the Ligurian Sea 4. Data assimilation: results difficulty to consistently improve the model performs better with model error is larger Optimize ? different localisation radii different R values diffent window lengths (12h,24h…) different cut-off lengths (50km?) no T,S,SSH update analyzed forcings + re-run

10 L. Vandenbulcke, A. Barth, J.-M. Beckers 8/15DA of HF radar data in the Ligurian Sea 5. Spatial considerations different localisation radii different R values different cut-off lengths (50km?) observation ensemble mean forecast projected on radial direction ensemble mean analysis projected on radial direction

11 L. Vandenbulcke, A. Barth, J.-M. Beckers 9/15DA of HF radar data in the Ligurian Sea 5. Spatial considerations ‘’ « restart » is not observed ‘’ case with R=5cm/s

12 L. Vandenbulcke, A. Barth, J.-M. Beckers 10/15DA of HF radar data in the Ligurian Sea 6. Temporal considerations the ensemble should represent the variability at all considered spatial and temporal scales instead of assimilating all (radar) data, let’s assimilate just velocities in 1 point The obtained correction in that particular point in shown (the blue curve) when assimilating in one single point every hour, the inertial oscillation is corrected much more strongly meso- or large-scale correction is dominant here correction with inertial oscillation shows they are present in the covariance mixed correction

13 L. Vandenbulcke, A. Barth, J.-M. Beckers 11/15DA of HF radar data in the Ligurian Sea 6. Temporal considerations How long lasts the impact of 1 observation of hourly-averaged currents: The correction has a large impact during ~10 hours  advantage (necessity) of very frequent observations

14 L. Vandenbulcke, A. Barth, J.-M. Beckers 12/15DA of HF radar data in the Ligurian Sea 7. SST considerations assimilate radar currents, and improve other variables such as SST ? SST corrections have the right amplitude (std.dev ~ xa-xf), but: model SST rms error is not improved ( similar conclusion obtained in other studies )

15 L. Vandenbulcke, A. Barth, J.-M. Beckers 13/15DA of HF radar data in the Ligurian Sea 7. SST assimilation Assimilate AVHRR SST with diagonal R = 1°C mean improvement : 0.2°C the heating appearing in the east is missing in the model DA parameters need further tuning, e.g. E(xa-xf) ~ spread ensemble mean forecast observation ensemble mean analysis

16 L. Vandenbulcke, A. Barth, J.-M. Beckers 13/15DA of HF radar data in the Ligurian Sea 7. SST assimilation Assimilate GHRSST with diagonal R = 1°C mean improvement compared with drifters : 0.2°C

17 L. Vandenbulcke, A. Barth, J.-M. Beckers 14/15DA of HF radar data in the Ligurian Sea 7. Velocity validation with drifter data ? Compare model velocity with drifters velocity : huge discrepancy ( rms ~ 27 cm/s ) Compare radar radial velocity with (projected) drifter velocity : Choose all drifter data inside [18h00 - 06h00] For Palmaria, huge velocity discrepancy (rms ~ 25 cm/s) For San Rossore, no overlapping radar – drifter data Possible cause ? the model and radar are hourly-averaged velocities; whereas the drifter data represent the velocity integrated over ~6 hours (1/3 period inert.oscil.) (many) outliers with discrepencies ~ 20 – 70 cm/s need to check them …  see R. Gomez WERA QC talk margin of the radar coverage area ?

18 L. Vandenbulcke, A. Barth, J.-M. Beckers 15/15DA of HF radar data in the Ligurian Sea Conclusions AEnKF assimilating HF-radar surface velocity observations limited success in general, better when model is drifting away improving the forcing (wind) is not helping so much ability to correct the inertial oscillation (phase) thanks to high temporal frequency assimilating radar data does not improve SST assimilating satellite SST as well improves model temperature large discrepancies between radar and drifter data as well Thank you !

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