By Kristine Barenholdt Bruun, December 2015
Typhoons, extreme seas, heatwaves and flooding all figure in the harsh outlook for the Asia Pacific region, the Earth’s most vulnerable to global warming.
In 2015, the Asian Development Bank took action, funding a study of six cities, all with a current population of 750,000 or more, aimed at identifying ways of building resilience to climate change and determining the associated costs, benefits and funding. The cities include Ho Chi Minh City (Vietnam), Ulaanbaatar (Mongolia), Suva (Fiji), Mandalay (Myanmar) Colombo (Sri Lanka) and Tbilisi (Georgia).
The end goal is to invest efficiently in a comprehensive low-carbon adaptation plan that focuses on people and health, thus reducing carbon emissions and increasing resilience.
Building resilience into infrastructure
Despite economic growth, much of Asia continues to grapple with an infrastructure deficit and is
struggling to provide power, water and transport systems to meet population needs. For this reason, the study prioritises solutions that include infrastructure and building requirements as part of the overall adaptation process.
“Many of these cities are in emerging economies with massive infrastructure, pollution and efficiency
needs, which is why it makes good sense to combine core future infrastructure needs and climate resilience”, says Stella Whittaker from Ramboll Environ, who works with sustainability and climate change and is a leading force on the study.
Financing adaptation through funding and green bonds
Intended to prevent financial barriers to action, the study will largely focus on how to finance the
“One of the things we will be looking at is climate or green bonds. Using such mechanisms will ensure that investment goes through an independent vetting process and that the funding goes to environmentally friendly projects. The benefits of the projects support both reductions of greenhouse gas emissions and society development at large”, Stella Whittaker explains.
Ramboll and CLIMsystems, which provides advanced modelling systems for assessing climate
impacts, will be working closely on the study, slated for completion in-mid 2016.