The ECMWF weak constraint 4D-Var formulation

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Presentation transcript:

The ECMWF weak constraint 4D-Var formulation Patrick Laloyaux, Jacky Goddard, Simon Lang and Massimo Bonavita

Data assimilation and biases In most of the operational data assimilation systems, we assume that we have an unbiased model assimilating biased observations First-guess Observation Error

Data assimilation and biases Departures between observations and first-guess are used to correct the observation bias First-guess Observation Error

Data assimilation and biases First-guess and bias-corrected observations are blended together to produce the analysis (unbiaised) First-guess Observation Analysis Error

Models used for NWP are biased Stratospheric temperature bias: forecasts compared to unbiased observations (observation – forecast) GPS-RO retrieved T AMSU-A Radiosondes Forecast departure 24H  Warm model bias above 10 hPa (0.5°C in 24h)  Cold model bias between 10 hPa and 100hPa (0.5°C in 24h)

Data assimilation and biases A biased model assimilating biased observations First-guess Observation Error

Data assimilation and biases Using departures between observations and first-guess does not correct the observation bias First-guess Observation Error

Data assimilation and biases First-guess and bias-corrected observations produce a biased analysis First-guess Observation Analysis Error

Taking into account model biases in data assimilation Bias-aware data assimilation (weak-constraint 4D-Var, Tremolet, Fisher, Dee, et al.) Constant model error forcing over the assimilation window to correct the model bias Model state Observation bias parameters Model error forcing Introduce additional controls to target an unbiased analysis The model error covariance matrix Q constrains the model error field

Data assimilation and biases A biased model assimilating biased observations First-guess Observation Error

Data assimilation and biases The model error forcing applied in the model integration corrects the bias in the model First-guess Observation Error

Data assimilation and biases The unbiased first-guess is used to correct the bias in the observations First-guess Observation Error

Data assimilation and biases Bias-corrected first-guess and observations produce an unbiased analysis First-guess Observation Analysis Error

Error covariance matrices in weak-constraint 4D-Var Model state Observation bias parameters Model error forcing To disentangle the different sources of error, scale separation is enforced Information spread in B (small scales) Information spread in Q (long scales) Correlation Correlation Distance (km) Distance (km)

Error covariance matrices in weak-constraint 4D-Var Model state Observation bias parameters Model error forcing To disentangle the different sources of error, scale separation is enforced Model state increment (small scales) Model forcing error increment (long scales)

Weak-constraint 4D-Var for the stratospheric temperature bias Model error forcing (Old Q) GPS-RO retrieved T Nov 2017 Feb 2018 Model error forcing (New Q with scale separation) Forecast departure 24H Nov 2017 Feb 2018

Weak-constraint 4D-Var for the stratospheric temperature bias Analysis and first-guess departures with respect to GPS-RO bending angles No model error term Old Q New Q  Significant reduction in the mean error

Weak-constraint 4D-Var for the stratospheric temperature bias Timeseries of first-guess departure (fg_departure = obs – fg -VarBC) for AMSU-A 13 No model error term Old Q New Q  Smaller VarBC correction (thick lines) with new Q

Conclusions 4D-Var developed at ECMWF is getting more sophisticated weak-constraint 4D-Var to take the model bias into account Disentangle the different sources of error is challenging scale separation between B and Q reduce the tropospheric temperature bias Weak-constraint 4D-Var in the troposphere might not be possible properties of biases are different scale separation is more challenging

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