GOVST III, Paris Nov 2011 ECMWF ECMWF Report Magdalena Alonso Balmaseda Kristian Mogensen Operational Implementation of NEMO/NEMOVAR ORAS4: Ocean ReAnalysis.

Slides:

Advertisements

Similar presentations

© Crown copyright Met Office NEMOVAR status and plans Matt Martin, Dan Lea, Jennie Waters, James While, Isabelle Mirouze NEMOVAR SG, ECMWF, Jan 2012.

Advertisements

Data assimilation in the ocean

Slide 1 The ECMWF new operational Ocean Re-Analyses System 4 (ORAS4) Magdalena A. Balmaseda, Kristian Mogensen, Anthony Weaver, and NEMOVAR consortium.

OSE meeting GODAE, Toulouse 4-5 June 2009 Interest of assimilating future Sea Surface Salinity measurements.

Slide 1 Magdalena A. Balmaseda, OSE Workshop, Paris 5-7 November 2007 Observing System experiments with ECWMF operational ocean analysis (ORA-S3) The new.

Experiments with Monthly Satellite Ocean Color Fields in a NCEP Operational Ocean Forecast System PI: Eric Bayler, NESDIS/STAR Co-I: David Behringer, NWS/NCEP/EMC/GCWMB.

Assimilation of Sea Surface Temperature into a Northwest Pacific Ocean Model using an Ensemble Kalman Filter B.-J. Choi Kunsan National University, Korea.

Initialization Issues of Coupled Ocean-atmosphere Prediction System Climate and Environment System Research Center Seoul National University, Korea In-Sik.

Observation impact studies with ocean reanalysis Elisabeth REMY, Nicolas FERRY, Laurent PARENT, Marie DREVILLON, Eric GREINER and.

Building Bluelink David Griffin, Peter Oke, Andreas Schiller et al. March 2007 CSIRO Marine and Atmospheric Research.

Workshop on Weather and Seasonal Climate Modeling at INPE - 9DEC2008 INPE-CPTEC’s effort on Coupled Ocean-Atmosphere Modeling Paulo Nobre INPE-CPTEC Apoio:

Application of Satellite Data in the Data Assimilation Experiments off Oregon Peng Yu in collaboration with Alexander Kurapov, Gary Egbert, John S. Allen,

CLIVAR WGOMD, Exeter April 2009 Magdalena Alonso Balmaseda 1 Contents: Sensitivity studies: fluxes versus ocean model ERA-Interim fluxes CORE-II simulations.

© Crown copyright Met Office UK report for GOVST Matt Martin GOVST-V, Beijing, October 2014.

OceanObs 09, Venice September THE ECMWF Seasonal Forecasting system.

The Global Ocean Data Assimilation System (GODAS) at NCEP

Ensemble-variational sea ice data assimilation Anna Shlyaeva, Mark Buehner, Alain Caya, Data Assimilation and Satellite Meteorology Research Jean-Francois.

The meridional coherence of the North Atlantic meridional overturning circulation Rory Bingham Proudman Oceanographic Laboratory Coauthors: Chris Hughes,

Barcelona, 2015 Ocean prediction activites at BSC-IC3 Virginie Guemas and the Climate Forecasting Unit 9 February 2015.

Climate Forecasting Unit Arctic Sea Ice Predictability and Prediction on Seasonal-to- Decadal Timescale Virginie Guemas, Edward Blanchard-Wrigglesworth,

GOVST III, Paris Nov 2011 ECMWF ECMWF Activities on Coupled Forecasting Systems Status Ongoing research Needs for MJO Bulk formula in ocean models Plans.

Ocean Data Variational Assimilation with OPA: Ongoing developments with OPAVAR and implementation plan for NEMOVAR Sophie RICCI, Anthony Weaver, Nicolas.

The Centre for Australian Weather and Climate Research A partnership between CSIRO and the Bureau of Meteorology Summary/Future Re-anal.

Potential benefits from data assimilation of carbon observations for modellers and observers - prerequisites and current state J. Segschneider, Max-Planck-Institute.

EUROBRISA WORKSHOP, Paraty March 2008, ECMWF System 3 1 The ECMWF Seasonal Forecast System-3 Magdalena A. Balmaseda Franco Molteni,Tim Stockdale.

Improved ensemble-mean forecast skills of ENSO events by a zero-mean stochastic model-error model of an intermediate coupled model Jiang Zhu and Fei Zheng.

Reanalysis: When observations meet models

Sophie RICCI CALTECH/JPL Post-doc Advisor : Ichiro Fukumori The diabatic errors in the formulation of the data assimilation Kalman Filter/Smoother system.

2nd GODAE Observing System Evaluation Workshop - June Ocean state estimates from the observations Contributions and complementarities of Argo,

GODAE Progress on national activities France (Mercator Ocean) Eric Dombrowsky - Mercator Océan.

MINERVA workshop, GMU, Sep MINERVA and the ECMWF coupled ensemble systems Franco Molteni, Frederic Vitart European Centre for Medium-Range.

Y. Fujii 1, S. Matsumoto 1, T. Yasuda 1, M. Kamachi 1, K. Ando 2 （ 1 MRI/JMA, 2 JAMSTEC ） OSE Experiments Using the JMA-MRI ENSO Forecasting System 2nd.

© Crown copyright Met Office The EN4 dataset of quality controlled ocean temperature and salinity profiles and monthly objective analyses Simon Good.

Mean 20 o C isotherm (unit: meter) The thermocline zone is sometimes characterized by the depth at which the temperature gradient is a maximum (the “thermocline.

Building Bluelink David Griffin, Peter Oke, Andreas Schiller et al. March 2007 CSIRO Marine and Atmospheric Research.

Slide 1 GSOP Workshop, Reading, 31 Agust-1 September 2006 Temperature, Salinity and Sea Level: climate variability from ocean reanalyses (Intercomparison.

El Niño Forecasting Stephen E. Zebiak International Research Institute for climate prediction The basis for predictability Early predictions New questions.

Multi-Variate Salinity Assimilation Pre- and Post-Argo Robin Wedd, Oscar Alves and Yonghong Yin Centre for Australian Weather and Climate Research, Australian.

One float case study The Argo float ( ) floating in the middle region of Indian Ocean was chosen for this study. In Figure 5, the MLD (red line),

One-year re-forecast ensembles with CCSM3.0 using initial states for 1 January and 1 July in Model: CCSM3 is a coupled climate model with state-of-the-art.

Assimilating Satellite Sea-Surface Salinity in NOAA Eric Bayler, NESDIS/STAR Dave Behringer, NWS/NCEP/EMC Avichal Mehra, NWS/NCEP/EMC Sudhir Nadiga, IMSG.

CLIVAR PERSPECTIVE  Re-analysis and Seasonal Forecasting activities are common ground between the GODAE GOV and CLIVAR communities. This intersection.

PreSAC Progress on NEMOVAR. Overview of NEMOVAR status First NEMOVAR experiments Use of NEMOVAR analyses to initialize ocean only forecasts Missing.

Impact of TAO observations on Impact of TAO observations on Operational Analysis for Tropical Pacific Yan Xue Climate Prediction Center NCEP Ocean Climate.

Climate Forecasting Unit Initialisation of the EC-Earth climate forecast system Virginie Guemas, Chloe Prodhomme, Muhammad Asif, Omar Bellprat, François.

Ocean Data Assimilation for SI Prediction at NCEP David Behringer, NCEP/EMC Diane Stokes, NCEP/EMC Sudhir Nadiga, NCEP/EMC Wanqiu Wang, NCEP/EMC US GODAE.

Page 1© Crown copyright 2004 The Uses of Marine Surface Data in Climate Research David Parker, Hadley Centre, Met Office MARCDAT-2, Met Office, Exeter,

MICHAEL A. ALEXANDER, ILEANA BLADE, MATTHEW NEWMAN, JOHN R. LANZANTE AND NGAR-CHEUNG LAU, JAMES D. SCOTT Mike Groenke (Atmospheric Sciences Major)

Predictability of Mesoscale Variability in the East Australia Current given Strong Constraint Data Assimilation Hernan G. Arango IMCS, Rutgers John L.

ECMWF NEMOVAR update, NEMOVAR meeting Jan ECMWF update : NEMOVAR ORA-S4 (Ocean Re-Analysis System 4) implemented operationally  Based.

HYCOM data assimilation Short term: ▪ Improve current OI based technique Assimilate satellite data (tracks) directly Improve vertical projection technique.

Matthew J. Hoffman CEAFM/Burgers Symposium May 8, 2009 Johns Hopkins University Courtesy NOAA/AVHRR Courtesy NASA Earth Observatory.

1 A review of CFS forecast skill for Wanqiu Wang, Arun Kumar and Yan Xue CPC/NCEP/NOAA.

Seasonal Variations of MOC in the South Atlantic from Observations and Numerical Models Shenfu Dong CIMAS, University of Miami, and NOAA/AOML Coauthors:

1 Summary of CFS ENSO Forecast December 2010 update Mingyue Chen, Wanqiu Wang and Arun Kumar Climate Prediction Center 1.Latest forecast of Nino3.4 index.

Real-time Ocean Reanalyses Intercomparison: Ocean/Climate Monitoring Using Ensemble Ocean Reanalysis Products Y. Xue1, M. Balmaseda2, Y. Fujii3, G. Vecchi4,

The impact of Argo data on ocean and climate forecasting

Local Ensemble Transform Kalman Filter for ROMS in Indian Ocean

Ocean Data Assimilation

Matthew Menary, Leon Hermanson, Nick Dunstone

A coupled ensemble data assimilation system for seasonal prediction

Y. Xue1, C. Wen1, X. Yang2 , D. Behringer1, A. Kumar1,

WGCM/WGSIP decadal prediction proposal

ECMWF activities: Seasonal and sub-seasonal time scales

66-SE-CMEMS-CALL2: Lot-3 Benefits of dynamically modelled river discharge input for ocean and coupled atmosphere-land-ocean systems Hao Zuo, Fredrik Wetterhall,

Development of an advanced ensemble-based ocean data assimilation approach for ocean and coupled reanalyses Eric de Boisséson, Hao Zuo, Magdalena Balmaseda.

WP3.10 : Cross-assessment of CCI-ECVs over the Mediterranean domain

Joint Proposal to WGOMD for a community ocean model experiment

GENOA: Generic Ensemble generation for Ocean Analysis

Decadal Climate Prediction at BSC

Presentation transcript:

GOVST III, Paris Nov 2011 ECMWF ECMWF Report Magdalena Alonso Balmaseda Kristian Mogensen Operational Implementation of NEMO/NEMOVAR ORAS4: Ocean ReAnalysis System 4 Some lessons learnt during preparation Evaluation process Plans

GOVST III, Paris Nov 2011 ECMWF Delayed Ocean Re-Analysis ~ORAS4 (NEMOVAR) Real Time Ocean Analysis ECMWF: Forecasting Systems ECMWF: Forecasting Systems Medium-Range (10-day) Partial coupling Medium-Range (10-day) Partial coupling Seasonal Forecasts Fully coupled Seasonal Forecasts Fully coupled Extended + Monthly Fully coupled Extended + Monthly Fully coupled Ocean model Atmospheric model Wave model Atmospheric model Ocean model Wave model Ocean Initial Conditions

GOVST III, Paris Nov 2011 ECMWF ECMWF has a implemented new operational ocean re-analysis system. It implies the transition to NEMO/NEMOVAR from HOPE/OI It consists of 5 ensemble members, covering the period 1958-Present, continuously updated. It is used for the initialization of the operational monthly and seasonal forecasts. It is also used to initialize the CMIP5 decadal forecasts (EC-Earth …) It is a valuable resource for climate variability studies. Documentation in preparation: Mogensen et al 2011, Balmaseda et al 2011 ECMWF: Operational Ocean Changes in ORAS4

GOVST III, Paris Nov 2011 ECMWF Ocean Model: NEMO V3.0 ORCA1 and 42 levels (ocean) Data Assimilation: NEMOVAR (3D-var FGAT). Data: Temperature and Salinity Profiles (EN3-XBT corrected and GTS), SST (HADISST/ OIv21x1 /OSTIA), along track Altimeter Sea Level (AVISO). See figure below Forcing: ERA40/ERA-INTERIM/ECMWF NWP (see figure below) Bias Correction: In T/S and P gradient. Seasonal prescribed (from Argo+Alti) + Adaptive on line Ensemble Generation: wind perturbations, observation coverage, spin-up. 5 ensemble members ORAS4 Main Ingredients

GOVST III, Paris Nov 2011 ECMWF What have we learned in the preparation process? Which SST product to use? Which products are available? Criteria for evaluation Assimilation of altimeter: variational implementation of Cooper and Haines in 3Dvar. Non trivial. Sorted. Coastal Covariances: Impact of Assimilation in the Atlantic MOC. Bias correction scheme: estimation of the offline term from Argo period. (Not a problem, a success; It affects the results) How to evaluate ocean reanalyses?

GOVST III, Paris Nov 2011 ECMWF Which SST product to use? Options for Re-analysis OIV2_1x1: (weekly)~1982 onwards OIV2_025_AVHRR(daily)~1982 onwards OIV2_O25_AVHR+AMSR:~2002 onwards Options for Real-Time: As before + OSTIA (from 2008 onwards): Consistency with atmospheric analysis OIV2_025_AVHRR: bias cold in the global mean (regional differences) Bias decreases with time. OSTIA in beween (not shown) Weaker interannual variability Fit to insitu Temperature: bias cold in tropics, better in mid latitudes,. Not clear impact on Seasonal Forecasts DECISION: OIV2_1x1 until 2010, OSTIA thereafter.

GOVST III, Paris Nov 2011 ECMWF Assimilating Altimeter Data Assimilation of sea level anomalies: along track (new) 1.SuperObbing: rms of superobs used to account for representativeness error 2.Remove global sea level prior to assimilation 3.Multivariate relationship: How to project sea level into the subsurface T and S (next) Assimilation of Global Sea Level Trends (from gridded maps) Global sea level is assimilated: FWF=SL_trend obs -SH_trend model Choice of MDT (Mean Dynamic Topography) External Product: Rio9 Tried, but not good results, due to the mismatch between model and Rio9 It needs more work to have an “observation” bias correction For ORAS4: MDT from an assimilation run using T and S Balance relationship between sea level and T/S is a linear formulation of the Cooper and Haines scheme, taking into account the stratification of the water column

GOVST III, Paris Nov 2011 ECMWF Multivariate balance for Altimeter IN NEMOVAR the balance is between sea level and steric height Original formulation of NEMOVAR α ref and β ref are calculated by linearizing the equation of estate using the background T/S values as reference. Comments: i) zref=1500m is arbitrary. An attempt to take into account that baroclinicity is low below this level. Can we account for the vertical stratification more universally? ii) this can lead to increments in model levels with large dz

GOVST III, Paris Nov 2011 ECMWF But Impact on Steric Height not realistic: This problem not so apparent if assimilating T/S and altimeter, but it is still there. Why? Single Obs Experiments: T increment The temperature increment is applied to the thickest model levels

GOVST III, Paris Nov 2011 ECMWF Modifications A):Weighting based on stratification. Use BV frequency to calculate α N and β N instead of equation of state B) Do not double-count balance-salinity corrections

GOVST III, Paris Nov 2011 ECMWF New Balance formulation: Sea Level Altimeter (AVISO) CONTROL ASSIM: TS CONTROL+ALTI ASSIM: TS + ALTI Problem with Steric Height Solved Problem with deep T increments Solved Old New

GOVST III, Paris Nov 2011 ECMWF CONTROL ASSIM: T+S ASSIM: T+S+Alti EQ Central Pacific EQ Indian Ocean TROPICAL PacificGLOBAL Altimeter Improves the fit to InSitu Temperature Data RMSE of 10 days forecast

GOVST III, Paris Nov 2011 ECMWF Assessment of the ORA-S4 re-analysis Choose a baseline: the CONTROL (e.i., no data assim) 1.Assim Intrinsic Metrics Fit to obs (first-guess minus obs): Bias, RMS Error growth (An-obs versus FG-obs) Consistency: Prescribed/Diagnosed B and R This is insufficient to assess a Reanalysis product 2.Spatial/temporal consistency: long time series and spatial maps Time correlation with Mooring currents Correlation with altimeter/Oscar currents Transports (MOC and RAPID): short time series Quite limited records. Not always independent data 3.Skill of Seasonal Forecasts Expensive. Model error can be a problem. 4.Observing System Experiments

GOVST III, Paris Nov 2011 ECMWF Assimilation Statistics: Incremental Analysis Update

GOVST III, Paris Nov 2011 ECMWF Fit To Obs Bias thin lines RMSE thick lines Assimilation improves over the control everywhere. A large part of the improvements comes from the reduction of bias. Note large errors in Extratropics come from WBC and coastal areas, where obs are given little weight

GOVST III, Paris Nov 2011 ECMWF Fit to Obs ORAS4 shows reduced RMSE and bias respect the CNTL, in both T and S The bias is ORAS4 is more stable in time Fit improves with time, both ORAS4 and CNTL :Not only more subsurface obs, but better surface forcing and SST data?.

GOVST III, Paris Nov 2011 ECMWF Fit to ADCP mooring data Some improvement of the Pacific and Atlantic undercurrents, which are still on the weak side.

GOVST III, Paris Nov 2011 ECMWF NEMOVAR re-an: verif. against altimeter data NEMOVAR T+S ORA-S4: NEMOVAR T+S+Alti CNTL NEMO NoObs

GOVST III, Paris Nov 2011 ECMWF Comparison with RAPID derived transports Atlantic MOC at 26N Short time series ORAS4 underestimates the MOC Note the large minima in 2010 and 2011!!

GOVST III, Paris Nov 2011 ECMWF More MOC diagnostics RAPID ORAS4 CNTL In low res model the Florida Strait transport is not so well defined. Assimilation reduction of the FST is proportional to the weight is given to the obs (not shown) Ocean model tends to produce too strong and shallow AABW cell MOC profile

GOVST III, Paris Nov 2011 ECMWF Impact on Of ORAS4 in SST Seasonal Forecasts Anomaly correlation: ORAS4 CNTL Persistence

GOVST III, Paris Nov 2011 ECMWF El Chichon Pinatubo Global Surface Heat Fluxes from Reanalysis

GOVST III, Paris Nov 2011 ECMWF Mean and time variability of ORAS4 oceanic heat transport. (GW2000: Ganachaud and Wunsch 2000) ERA+ASSIM heat flux integral ORAS4 total (whole depth) heat content The time integral of the ERA+ASM surface heat flux results in the evolution of the total ocean heat content Climate Applications

GOVST III, Paris Nov 2011 ECMWF Summary Operational implementation of NEMO/NEMOVAR in forecasting systems and ocean reanalysis Transition from HOPE/OI ORAS4: new Ocean Reanalysis with NEMOVAR Still climate resolution: approx 1x1 degree. Some lessons learns in the preparation process Choice of SST product for reanalysis not trivial. Next is to try OSTIA reanalysis Balance relationship between altimeter and T/S not solved problem. Not trivial. Still room for improvement Improved covariance needed for the assimilation of observations near the coast. How to evaluate an ocean assimilation system and ocean reanalyses product? Evaluation of the ocean reanalysis is a pre-requisite for the interpretation of climate signals Standard assimilation statistics needed but not sufficient for the reanalyses Need information about time variability: sustained time series are very important: (altimeter, moorings, RAPID, other?) Impact on seasonal forecast is a test and a result. What is next? Document system, web pages, papers Higher resolution ocean model and reanalysis(ORCA 025) Sea-Ice model in monthly, seasonal forecast and reanalyses Improved coupling (bulk formula, wave effects, ocean mixed layer) Increased coupling (forecast and analysis)