Melbourne, Nov 15: Risk of exceeding the flood capacity of a dam could be greater due to climate change, a new study conducted in Australia found.
The study concluded that the rainfall model that engineers use to help design critical infrastructure such as large dams and nuclear power plants needed to be updated to account for climate change.
The paper, that appears in the journal Water Resources Research, calculated that estimates of the ‘Probable Maximum Precipitation’ (PMP) – the greatest depth of rainfall possible – for 546 large dams across Australia is expected to increase between 14 and 38 per cent on average due to atmospheric moisture.
The researchers, from University of New South Wales (UNSW) and the University of Melbourne, said existing models of PMP had not been updated for at least 20 years, and more recent meteorological events already showed that the climate was warming and making storms more intense and more frequent.
Lead author Johan Visser, from UNSW Sydney’s Water Research Laboratory, said there were a lot of risks involved with dams, given the amount of water they are holding back.
“Some of the worst floods around the world have been due to extreme storms overwhelming a dam, causing it to fail and release a wall of water downstream,” Visser said.
“Engineers design dams to accommodate the largest flood event that could reasonably be expected to occur at a particular location, known as the Probable Maximum Flood (PMF).
“To work that out, you first need to calculate what is the greatest depth of rainfall meteorologically possible over that area in a certain amount of time, which we call the PMP. The problem is that PMP calculation is based solely on historical data, with no consideration for future climate conditions,” Visser said.
“This means that many large dams constructed decades ago were designed using information representative of a cooler climate,” Visser said.
“The purpose of this research was to analyse whether PMP estimates have changed over the past six decades and how these estimates might change in the future if we take into consideration a potential increase in atmospheric moisture due to known climate change,” Visser said.
The current PMP guidelines for various timeframes and locations across Australia is collated and published by the Bureau of Meteorology, said the study.
“No country in the world has yet updated the operational procedures used to estimate PMPs to account for climate change, and this research provides the first evidence that these procedures need to be reviewed,” University of Melbourne lead collaborator Professor Rory Nathan said.
“Any increase in the PMP estimates will lead to a corresponding change in the PMF, but it will take some time to work out the best way of using these findings to better inform future decision-making.
“There are deep uncertainties involved in assessing the impacts of climate change and this research reinforces the need to consider adaptive management approaches so that we allocate resources progressively over time as our understanding of these increasing risks improve,” Nathan said.
“We are facing a climate crisis and this research adds to the urgency with which we need to curb our carbon emissions,” Nathan said.
The new research, funded by 10 of Australia’s leading water providers and dam owners from across Australia, reanalysed existing meteorological records, added in more up-to-date data from the past 20 years that was not previously included, and then calculated potential changes in the future by incorporating the latest climate scenario modelling from the highly-respected Coupled Model Intercomparison Project Phase 6.
These climate models are used to explore how a range of global socioeconomic choices over the next century will affect greenhouse gas emissions, the study said.
The researchers said they have shown the current method of calculating PMP is likely outdated and that it did not take into consideration the potential consequences of current changes in atmospheric conditions, let alone those predicted into the future.
“This is an important piece of research, not just for Australia, but also across the world. The approach to PMP is developed and recommended by the World Meteorological Organisation and is used more or less consistently by countries around the globe.
“Anybody who is planning to build a large dam needs to think 50 to 100 years ahead, and this research makes clear that future planning now needs to consider the future impacts of climate change on the plausible upper limit of rainfall extremes,” corresponding author of the paper and Professor of UNSW, Ashish Sharma said. (PTI)