Climate model sees warmer South-East Asia
UK Met Office-led modelling sees ‘extreme rainfall events’ in region’s north
‘More pronounced’ difference between wet and dry seasons also predicted
The project aims to produce detailed climate simulations to aid small islands
According to the model, the region will be generally 2-4 degrees Celsius warmer by 2060 and continue to heat up around 3-5 degrees Celsius until 2100.
The strongest warming will occur in mainland South-East Asia. Extreme rainfall events will occur in the northern part of the region, which covers northern Vietnam, Laos, parts of Thailand and northern Philippines.
From June to August, the region will face significant reduction in rainfall. From September to November, rainfall rates will increase. In the archipelago, the difference between wet and dry seasons will be more pronounced.
The project, called Southeast Asia Climate Analysis and Modelling (SEACAM), was initiated by the Centre for Climate Research Singapore (CCRS) in collaboration with the UK Met Office’s Hadley Centre. Scientists from Brunei, Cambodia, Indonesia, Malaysia, Myanmar, Thailand and Vietnam were involved.
SEACAM and the Met Office have put up a climate change tool website for South-East Asia based on a climate modelling system dubbed PRECIS, which stands for Providing Regional Climate for Impacts Studies.
“One of the main aims of the SEACAM project is to enhance collaboration and capacity-building among South-East Asian countries in climate research,” says Raizan Rahmat, CCRS project coordinator and senior research scientist.
He adds that prior to SEACAM, there had been limited collaborative research in South-East Asia to create climate scenarios in the region.
“Given the geography of South-East Asia, with its complex terrain and maritime characteristics, it was necessary to generate more detailed climate simulation at a higher resolution than that provided by global climate models used in the Intergovernmental Panel on Climate Change reports,” he says.
Unlike global climate models, PRECIS has a higher resolution that can more accurately predict the future climate of the region. Several climate parameters such as temperature and rainfall have been analysed.
Developed by the Met Office, PRECIS is beneficial for smaller islands in South-East Asia because the climate model shows these islands as land masses rather than ocean points. Lands respond to climate change differently from the ocean.
David Hein, a software engineer from the Met Office, says the model is user-friendly. Scientists can simulate regional climate parameters with a mouse click.
“PRECIS allows anyone with a desktop or a PC to be able to run a climate model. It is simply a matter of clicking ‘Run PRECIS’ and PRECIS will produce data which can be used to study possible climate change in the region,” he says.
This piece was produced by SciDev.Net’s South-East Asia & Pacific desk.