Abstract
Due to strong mean state‐biases most coupled models are unable to simulate equatorial Atlantic variability. Here, we use the Kiel Climate Model to assess the impact of bias reduction on the seasonal prediction of equatorial Atlantic sea surface temperature (SST). We compare a standard experiment (STD) with an experiment that employs surface heat flux correction to reduce the SST bias (FLX) and, in addition, apply a correction for initial errors in SST. Initial conditions for both experiments are generated in partially coupled mode, and seasonal hindcasts are initialized at the beginning of February, May, August and November for 1981–2012. Surface heat flux correction generally improves hindcast skill. Hindcasts initialized in February have the least skill, even though the model bias is not particularly strong at that time of year. In contrast, hindcasts initialized in May achieve the highest skill. We argue this is because of the emergence of a closed Bjerknes feedback loop in boreal summer in FLX that is a feature of observations but is missing in STD.
Highlights
Initial conditions for SST are generally good in the tropical Pacific for the dynamical hindcasts (Fig. S2)
There are no consistent differences between STD and FLX hindcasts
Hindcasts that are started during August and November retain high skill until the end of the hindcasting period, not better than persistence
Summary
Initial conditions for SST are generally good in the tropical Pacific for the dynamical hindcasts (Fig. S2).
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