Skilful predictions of the Asian summer monsoon one year ahead

The interannual variability of the Asian summer monsoon has significant impacts on Asian society. Advances in climate modelling have enabled us to make useful predictions of the seasonal Asian summer monsoon up to approximately half a year ahead, but long-range predictions remain challenging. Here, using a 52-member large ensemble hindcast experiment spanning 1980-2016, we show that a state-of-the-art climate model can predict the Asian summer monsoon and associated summer tropical cyclone activity more than one year ahead. The key to this long-range prediction is successfully simulating El Nino-Southern Oscillation evolution and realistically representing the subsequent atmosphere-ocean response in the Indian Ocean-western North Pacific in the second boreal summer of the prediction. A large ensemble size is also important for achieving a useful prediction skill, with a margin for further improvement by an even larger ensemble. Long-range predictions of the Asian summer monsoon remain challenging due to its complex atmosphere-land-ocean interactions. Here, the authors show that a large ensemble of model simulations can predict the Asian summer monsoon and associated summer tropical cyclone activity more than one year ahead.

Automated summary

The interannual variability of the Asian summer monsoon has significant impacts on Asian society. Advances in climate modelling have enabled useful predictions of the seasonal Asian summer monsoon up to approximately half a year ahead, but long-range predictions remain challenging. Using a large ensemble hindcast experiment, researchers demonstrate that a state-of-the-art climate model can predict the Asian summer monsoon and associated tropical cyclone activity more than one year ahead by successfully simulating El Nino-Southern Oscillation evolution and realistically representing subsequent atmosphere-ocean responses in the Indian Ocean-western North Pacific.