Integration of max-stable processes and Bayesian model averaging to predict extreme climatic events in multi-model ensembles

TL;DR

This paper introduces MSP-BMA, a novel method integrating max-stable processes with Bayesian model averaging to improve spatial prediction of extreme climate events, demonstrated with Korean rainfall data.

Contribution

The paper presents a new spatial extreme model that combines max-stable processes with Bayesian model averaging, enhancing prediction accuracy without regridding.

Findings

MSP-BMA reduces variance compared to GEV-embedded BMA.

MSP-BMA exhibits less bias inflation.

MSP-BMA eliminates the need for regridding.

Abstract

Projections of changes in extreme climate are sometimes predicted by using multi-model ensemble methods such as Bayesian model averaging (BMA) embedded with the generalized extreme value (GEV) distribution. BMA is a popular method for combining the forecasts of individual simulation models by weighted averaging and characterizing the uncertainty induced by simulating the model structure. This method is referred to as the GEV-embedded BMA. It is, however, based on a point-wise analysis of extreme events, which means it overlooks the spatial dependency between nearby grid cells. Instead of a point-wise model, a spatial extreme model such as the max-stable process (MSP) is often employed to improve precision by considering spatial dependency. We propose an approach that integrates the MSP into BMA, which is referred to as the MSP-BMA herein. The superiority of the proposed method over the GEV-embedded BMA is demonstrated by using extreme rainfall intensity data on the Korean peninsula from Coupled Model Intercomparison Project Phase 5 (CMIP5) multi-models. The reanalysis data called APHRODITE (Asian Precipitation Highly-Resolved Observational Data Integration Towards Evaluation, v1101) and 17 CMIP5 models are examined for 10 grid boxes in Korea. In this example, the MSP-BMA achieves a variance reduction over the GEV-embedded BMA. The bias inflation by MSP-BMA over the GEV-embedded BMA is also discussed. A by-product technical advantage of the MSP-BMA is that tedious `regridding' is not required before and after the analysis while it should be done for the GEV-embedded BMA.