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Ocean Modeling and Data Analysis Working Group Discussion 10:50-12:20 July 21, 2010 Seattle, Washington, USA.

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Presentation on theme: "Ocean Modeling and Data Analysis Working Group Discussion 10:50-12:20 July 21, 2010 Seattle, Washington, USA."— Presentation transcript:

1 Ocean Modeling and Data Analysis Working Group Discussion 10:50-12:20 July 21, 2010 Seattle, Washington, USA

2 Charge Coordinate efforts and develop methods to exploit Aquarius SSS to study ocean variability and air-sea interactions using data analysis and ocean models

3 Working Group Tasks and Topics --- 3 Phases --- Phase 1: Pre-launch – Launch Phase 2: In Orbit Checkout (IOC), Launch + 45 days – Post Launch Assessment Review (PLAR) Phase 3: IOC + 6 months – Science team meeting

4 “Ocean Modeling and Data Analysis” Working Group Chair: Yi Chao [Yi.Chao@jpl.nasa.gov] Arnold Gordon [agordon@ldeo.columbia.edu] Frank Bryan [bryan@ucar.edu] Bill Large [wily@ncar.ucar.edu] Fred Bingham [bigkahuna@fredbingham.com] Alberto Piola [apiola@hidro.gov.ar] Raul Guerrero [raul.guerrero@inidep.edu.ar] Rui Ponte [rponte@aer.com] Ichiro Fukumori [ichiro.fukumori@jpl.nasa.gov] Nikolai Maximenko [maximenk@hawaii.edu] Tony Busalacchi [tonyb@essic.umd.edu] Gary Lagerloef [lager@esr.org] Steve Riser [riser@ocean.washington.edu] Tangdong Qu [tangdong@hawaii.edu] Rong Zhang [rzhang@essic.umd.edu] Hsun-Ying Kao [hkao@esr.org] Gene Feldman [gene.c.feldman@nasa.gov] Frank Wentz [frank.wentz@remss.com] Claudia Giulivi [claudiag@ldeo.columbia.edu] Eric Hackert [ehackert@essic.umd.edu] Samuelraj Daniel Jacob [samuelraj.d.jacob@nasa.gov] Nadya Vinogradova [nvinogra@aer.com] James Potemra [jimp@hawaii.edu] Oleg Melnichenko [oleg@hawaii.edu]

5 How would you like to communicate beyond emails? Aquarius/SAC-D Information and Discussion Forum – http://aquarius.gsfc.nasa.gov/forum/aquarius/forum_ show.pl http://aquarius.gsfc.nasa.gov/forum/aquarius/forum_ show.pl Limitations: – No documents (.doc,.ppt) – No images (.gif) – No group mailing/broadcasting Other tools: Google Doc, Google Group Other ideas…please email Yi.Chao@jpl.nasa.gov

6 Phase 1: Pre-launch, Now to April 2011 Assigned Task: To identify, assess and recommend a near real-time data set for SSS (SST, surface vector wind, waves) to be used by the Aquarius simulator The data need to have the following characteristics – Global – Accessible in a public domain – Available in near real-time (similar to IGDR SSH data with a latency no more than a week) – Reasonable performance comparing with the observational data available Web space: http://ourocean.jpl.nasa.gov/SSS/ (sandbox to assess data quality before recommending to Aquarius at GSFC/ESR)http://ourocean.jpl.nasa.gov/SSS/

7 GHRSST: Monthly OSTIA minus NCEP OIv2

8 GHRSST: Daily SST error for G1SST

9 SST Task working with GHRSST Is the current NCEP Reynolds SST the best for Aquarius? If not, which GHRSST L4 products can be considered as the alternative/backup data set? Who: If you would like to help, please email Yi.Chao@jpl.nasa.gov

10 Proposed SSS: 1/12 deg HYCOM HYbrid Coordinate Ocean Model (HYCOM) Vertical coordinate – Isopycnal in the open stratified ocean – Terrain-following in shallow coastal regions, and – Z-level (depth) near the surface mixed layer 1/12° Global & 32 layers Navy Operational Global Atmospheric Prediction System (NOGAPS) Navy Coupled Ocean Data Assimilation (NCODA)

11 SSS from 1/12 deg HYCOM

12 Subsurface Salinity from 1/12 deg HYCOM 0, 250, 500, 1000 meters

13 SSS Simulated by Models HYCOM Other U.S. Navy models: NCOM, NLOM Mercator Ocean ECCO (JPL, Hamburg) Reanalysis: SODA, POP IPCC climate models

14 (10^-3) MEAN CCMAT47CCMAT63CNRMCSIROGDFL20 IAPBCCRIPSLMIROCHRMIROCMR MRINCARUKMOCM3GISSEHGISSER 20 th Century CMIP3 Simulated Mean Ocean Surface Salinity Waliser, Chao, Li, et al., 2010, In Prep

15 (10^-3) STD CCMAT47CCMAT63CNRMCSIROGDFL20 IAPBCCRIPSLMIROCHRMIROCMR MRINCARUKMOCM3GISSEHGISSER Waliser, Chao, Li, et al., 2010, In Prep 20 th Century CMIP3 Simulated Standard Deviation of Monthly Ocean Surface Salinity Anomalies are about the Annual Cycle

16 Argo 2005 Salinity Mean WOA2005 Salinity Mean Argo 2005 Salinity STD WOA2005 Salinity STD

17 Phase 1: Pre-launch, Now to April 2011 Assigned Task: To identify, assess and recommend a near real-time data set for SSS (SST, surface vector wind, waves) to be used by the Aquarius simulator The SSS data need to have the following characteristics – Global – Accessible in a public domain – Available in near real-time (similar to IGDR SSH data with a latency no more than a week) – Reasonable performance comparing with the observational data available

18 NCEP is used today; What about NOGAPS? Who: If you would like to help, please email Yi.Chao@jpl.nasa.gov What: in situ data; comparisons; statistics; what else?

19 WW3: SWH, MSS(x, y) Who: If you would like to help, please email Yi.Chao@jpl.nasa.gov What: in situ data; comparisons; statistics; what else?

20 In Orbit Checkout (IOC): Launch + 45 days Post Launch Assessment Review (PLAR) First…Aquarius… – First Aquarius SSS weekly map (L3a) – First SSS 7-10 days map merging Aquarius with Argo+drifter+ships+moorings (L3b) – First SSS 7-10 days map merging Aquarius with Argo+drifter+ships+moorings and SMOS (L3c) – First assimilated SSS maps from ??? models (L4) Data analysis and model results from YOU

21 Fred Bingham UNCW

22 Important pre- and post- launch activities: - Pre-launch, determine spatial statistics from the model and from in situ data, decorrelation scales, variances, coefficients of variation, anisotropy, etc. - Post-launch, compare model and in situ statistics with those from Aquarius to the extent possible given the differing sampling scales.

23 Steve Riser UW

24 6/24/2009 - 7/15/2009 Upper 5 m;  t  2 hr; 0-150 m   T and  S near the surface relative to values at 15 dbar TT SS Example of UW float equipped with STS sampling

25 Rainfall (mm/hr) and Wind Speed (m/sec)  Wind Speed Rainfall Wind speed and rainfall from UW float 6916 near HOT (STS-equipped)

26           Deployments of STS-equipped Profiling Floats Through 7/19/2010

27 Spatio-Temporal Variability and Error Structure of Sea Surface Salinity in the Tropics A.Busalacchi – ESSIC Co-Is: G. Alory CNAP/Legos (Toulouse, France), P.A. Arkin – CICS/ESSIC, J. Ballabrera-Poy – ICM/CSIC (Barcelona, Spain), T. Delcroix – IRD/LEGOS (Toulouse, France), E. Hackert - ESSIC, J. Janowiak – CICS/ESSIC, R. Murtugudde - ESSIC, M. Sapiano – CSU/Dept. Atmos. Sc., R.H. Zhang - ESSIC

28 Project Goals Determine SSS error fields over tropical oceans Identify SSS standard deviation, decorrelation scales, representativity error (RE) and signal to noise ratios (SNR) In addition to these project goals of calculating SSS error fields we plan to address the following scientific questions 1.Can Aquarius SSS lead to better estimates of vertical salinity profiles? 2.Can SSS be validated using satellite estimates of precipitation, evaporation, and other ancillary data?

29 Phase 3: IOC + 6 months Science Team Meeting after launch More Data analysis and model results from YOU Special journal issues

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