A Multi‐model Likelihood Analysis of Unprecedented Extreme Rainfall along the East Coast of Australia

A large stretch of the east coast of Australia experienced unprecedented rainfall and flooding over a two-week period in early 2022. It is difficult to reliably estimate the likelihood of such a rare event from the relatively short observational record, so an alternative is to use data from an ensemble prediction system (e.g., a seasonal or decadal forecast system) to obtain a much larger sample of simulated weather events. This so-called 'UNSEEN' method has been successfully applied in several scientific studies, but those studies typically rely on a single prediction system. In this study, we use data from the Decadal Climate Prediction Project to explore the model uncertainty associated with the UNSEEN method by assessing 10 different hindcast ensembles. Using the 15-day rainfall total averaged over the river catchments impacted by the 2022 east coast event, we find that the models produce a wide range of likelihood estimates. Even after excluding a number of models that fail basic fidelity tests, estimates of the event return period ranged from 320 to 1814 years. The vast majority of models suggested the event is rarer than a standard extreme value assessment of the observational record (297 years). Such large model uncertainty suggests that multi-model analysis should become part of the standard UNSEEN procedure. Return periods derived from observations (Australian Gridded Climate Data; AGCD) and from various decadal forecast systems. The grey dashed line indicates the observed record annual maximum 15-day rainfall total (Rx15day) of 410 mm. image