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'Major issue in climate change':

New modelling predicts the nature of extreme rainstorms in the U.S. is changing
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SASKATOON 鈥 If no changes are made to the rate of global greenhouse gas emissions, storms that used to occur every 20 years on average will instead occur every seven by the end of the century.

Those are the projections based on recent high-resolution climate modelling, which was discussed in a paper published in the peer-reviewed journal Earth鈥檚 Future.

鈥淭his is not only a major issue in climate change, but it鈥檚 a major issue in risk assessment in general,鈥 said one of the study鈥檚 authors, Dr. Simon Papalexiou, assistant professor in the College of Engineering and member of the Global Institute for Water Security at the University of Saskatchewan (USask).

鈥淭he 20-year event is not a very large event 鈥 it's not a catastrophic one like the one that comes on average once every 100 years 鈥 but still events that come once every 20 years can cause damages in infrastructure and crops.鈥

Papalexiou specializes in modelling complex systems and was involved in efforts to verify the state-of-the-art Weather Research and Forecasting (WRF) model. To do this, he crunched hourly rainfall data collected from 3,119 weather stations across the United States over a 13-year period from 2000 to 2013. The projection looks ahead to the years 2071 to 2100 and assumes that greenhouse gas emissions will continue to be the same as they are today, and that the climate will continue to warm.

The model鈥檚 resolution is so granular it can predict hourly precipitation within a four-kilometre radius.

Papalexiou, who also leads research programs within the pan-Canadian Global Water Futures Program, said the ability to hone in on weather patterns in such small areas is more useful than broader climate predictions.

鈥淎 very small area is what, really, people need to know about, isn't it?鈥 he said. 鈥淐ities 鈥 small cities, large cities 鈥攃are less about what's going to happen in a one-degree-by-one-degree region, which means 100 kilometres by 100 kilometres.鈥

The climate model Papalexiou and co-authors worked on stands out because it was verified using hourly rainfall data, as opposed to daily numbers. Unlike daily data, hourly figures capture information about the intensity and duration of storms, which people need to understand in order to make appropriate decisions about infrastructure design.

Projections suggest storms with extreme rain are going to become more frequent, more intense and go through significant changes in seasonality and duration. Taken together, that will affect ecosystems, increase flood risk and threaten societies that have adapted to certain climates.

The greatest intensification of weather events is predicted to occur in the western United States, the Pacific coast, and some parts of the east coast.

Storms are expected to decrease in duration on the Pacific coast, which could reduce the ability of vegetation to intercept and absorb water.

The model projects that storms will happen more evenly throughout the year in the Great Plains and the northern Rockies, defying traditional seasonal trends.

鈥淚n these regions there are major vast grasslands and crop production,鈥 Papalexiou explained. 鈥淣obody knows, if actually these changes in seasonality happen, how this will affect the crop production on these huge vast grasslands.鈥

While Papalexiou describes the WRF model as 鈥渢he best model out there,鈥 he cautions that its predictions will come to pass only if the assumptions it鈥檚 made bear out. If the rate of greenhouse gas emissions changes 鈥 for better or for worse 鈥 that will have an effect on the model鈥檚 predictions.

鈥淲e don't know what scenario will prevail. We don't know what technological advances we're going to have in reducing carbon dioxide,鈥 he said. 鈥淭here are so many factors that we don't know.鈥

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