Amplification of Risks to Melbourne's Water Supply at 1.5°C and 2°C
Climate and Energy College
187 Grattan St
T: (03) 8344 4124
See more events from
Human-induced climate change poses a major threat to the reliable water supply in many highly populated regions. Dr. Ben Henley will discuss research that evaluates risks to the water supply under projected shifts in the climate at the Paris Agreement warming levels.
Modelling the primary surface water sources for Melbourne, Australia, the research projects that the risk of severe water supply shortage to the climate-dependent portion of the system increases substantially as global warming increases from 1.5 °C to 2.0 °C. Risks are further exacerbated by increases in water demand but substantially ameliorated by supply augmentation from desalination. It is demonstrated that reductions in precipitation, rising temperature and growth in water demand combine to substantially amplify the risk of severe water supply shortage under near-term global warming in the absence of a climate-independent supply. This risk amplification is not as apparent in assessments based on meteorological drought alone.
With the diminishing opportunity of meeting the 1.5 °C Paris target, the study highlights the need to accelerate greenhouse gas mitigation efforts to reduce risks to climate dependent water supply systems.