Projected future changes in rainfall in Southeast Asia based on CORDEX\u2013SEA multi-model simulations

Fredolin Tangang,John L Mcgregor,Mohd Syazwan Faisal Mohd,Jing Xiang Chung,Nikulin Grigory,Faye Cruz,Patama Singhruck,Liew Juneng,Sheau Tieh Ngai,Armelle Reca Remedio ,William Cabos ,Ardhasena Sopaheluwakan,Jerasorn Santisirisomboon,Hirokazu Sasaki ,Phan Van Tan,Dodo Gunawan,Thanh Ngo‐Duc ,Edvin Aldrian,Supari Supari,Gemma Narisma,Ahmad Fairudz Jamaluddin,Hongwei Yang,David Hein-Griggs,Ester Salimun,Pankaj Kumar

doi:10.1007/s00382-020-05322-2

Abstract

This paper examines the projected changes in rainfall in Southeast Asia (SEA) in the twenty-first century based on the multi-model simulations of the Southeast Asia Regional Climate Downscaling/Coordinated Regional Climate Downscaling Experiment–Southeast Asia (SEACLID/CORDEX–SEA). A total of 11 General Circulation Models (GCMs) have been downscaled using 7 Regional Climate Models (RCMs) to a resolution of 25 km × 25 km over the SEA domain (89.5° E–146.5° E, 14.8° S–27.0° N) for two different representative concentration pathways (RCP) scenarios, RCP4.5 and RCP8.5. The 1976–2005 period is considered as the historical period for evaluating the changes in seasonal precipitation of December–January–February (DJF) and June–July–August (JJA) over future periods of the early (2011–2040), mid (2041–2070) and late twenty-first century (2071–2099). The ensemble mean shows a good reproduction of the SEA climatological mean spatial precipitation pattern with systematic wet biases, which originated largely from simulations using the RegCM4 model. Increases in mean rainfall (10–20%) are projected throughout the twenty-first century over Indochina and eastern Philippines during DJF while a drying tendency prevails over the Maritime Continent. For JJA, projections of both RCPs indicate reductions in mean rainfall (10–30%) over the Maritime Continent, particularly over the Indonesian region by mid and late twenty-first century. However, examination of individual member responses shows prominent inter-model variations, reflecting uncertainty in the projections.

Highlights

The Southeast Asia (SEA) region, which comprises least developed and developing countries, has been frequently impacted by climate-related disasters such as floods and droughts (Hijioka et al 2014)
The atmospheric circulation over Southeast Asia is largely modulated by the Asian-Australian monsoon, in which the migration of the Intertropical Convergence Zone (ITCZ) and monsoon trough influences the rainfall distribution over the region (Chang et al 2005; Robertson et al 2011; Waliser and Gautier 1993)
It is necessary to evaluate the performance of the models in simulating the monsoonal circulation, which could be represented by the low-level circulation during DJF and JJA for the winter and summer monsoon circulations over Southeast Asia, respectively (Chang et al 2005)

Summary

Introduction

The Southeast Asia (SEA) region, which comprises least developed and developing countries, has been frequently impacted by climate-related disasters such as floods and droughts (Hijioka et al 2014). The Working Group II of the Intergovernmental Panel on Climate Change (IPCC) Fifth Assessment Report indicated significant knowledge gap on impacts of future climate change on critical sectors in SEA (Hijioka et al 2014), which could partly be attributed to the unavailability of high-resolution multi-model climate simulations in the region

Results

Discussion

Conclusion