Ensemble forecasts depend on representations of model uncertainties. Here, we introduce a model uncertainty representation where a novel approach is taken to the established methodology of perturbing model parameters. The Stochastically Perturbed Parametrisations (SPP) scheme applies spatially and temporally varying perturbations to 20 parameters and variables in the ECMWF IFS model. The perturbed quantities are chosen from the IFS parametrisations of (a) turbulent diffusion and subgrid orography, (b) convection, (c) clouds and large-scale precipitation, and (d) radiation. The perturbations are drawn from prescribed distributions.

Numerous configurations of SPP are compared in experiments with the ECMWF ensemble forecasts at TL399 resolution up to 15 day lead times. Halving the standard deviations of the perturbations considerably reduces the ensemble spread. Smaller variations of the standard deviations lead to minor changes to the ensemble spread. Experiments with different space and time correlations for the perturbations suggest optimal correlation scales of 2,000 km and 72 h. SPP displays a lower skill for upper air variables in the medium range than the current operational model uncertainty scheme Stochastically Perturbed Parametrisation Tendencies (SPPT) for a given set of fixed initial state perturbations. However, in short ranges the two schemes display a similar skill. Moreover, verification against surface observations shows SPP is more skilful than SPPT in 2 m-temperature for the first couple of forecast days. We show that the direct perturbation of cloud (and radiation) processes in SPP has a greater impact on radiative fluxes than the indirect perturbation via SPPT. SPP also produces a better model climate for a range of variables when comparing long model integrations with the two schemes, indicating the potential advantage of a physically consistent model uncertainty representation. A comparison of the tendency perturbations introduced by SPP and SPPT suggests that the two schemes represent different aspects of model uncertainty.

1 aOllinaho, P.1 aLock, Sarah-Jane1 aLeutbecher, Martin1 aBechtold, Peter1 aBeljaars, Anton1 aBozzo, Alessio1 aForbes, R.M.1 aHaiden, Thomas1 aHogan, Robin1 aSandu, Irina uhttps://www.ecmwf.int/node/16682