The number of catastrophic floods of the kind that have historically occurred every 50 to 200 years is likely to increase as a result of climate change, according to a UCLA-led study released Monday.
Scientists project that the number of severe floods, the sort that happen every 10 or 20 years, won’t change much for the remainder of the century — the incidence could even decrease in some places — but the number of the most catastrophic floods will likely increase.
Daniel Swain, a UCLA climate scientist and co-author of the study, said the reason for the discrepancy is a logical one: Warming due to climate change can also cause land to dry out — the current drought conditions across western North America are an example — and drier land can absorb more water. But the new research reveals that the phenomenon only goes so far.
“If you have drier watersheds, they have more capacity to absorb the increasing extreme rain,” Swain said. “But above a certain threshold, when you get to the most extreme events, that logic may no longer hold. At a certain point, the precipitation is going to saturate the soil anyway — even the driest soil — and completely overwhelm the watershed.”
The research by scientists at UCLA, the University of Freiburg in Germany and other institutions was published in the journal Communications Earth & Environment.
Because catastrophic floods occur so infrequently, there aren’t many recent examples to observe, and many climate records date back 50 years or less. However, previous research led by UCLA projected that such floods are likely to increase in both frequency and magnitude due to climate change.
In California, for example, the likelihood of what used to be considered a once-in-a-lifetime event, one that could cause up to $1 trillion in damage and force the evacuation of millions of people, has increased has increased by 300% to 400%.
For the new paper, researchers used computer modeling to create multiple plausible versions of climate outcomes — not only for a 40-year period beginning in 2060, but also recreating realistic assumptions about climate data from the period from 1961 to 2000. The models essentially increased the amount of data they could study by 50 times over what was available from history alone.
In addition to the climate projections, the researchers also produced computer-modeled estimates about Bavaria’s hydrological system — the term used to describe a range of natural processes that include the ground’s capacity to absorb moisture. The study focused on a region primarily made up of the German state of Bavaria because it is a location for which good data are available, but the findings very likely pertain to most parts of the world, Swain said.
The researchers built the computer models based on the assumption that there would be no concerted effort to cut greenhouse gas emissions.
Tragically, in mid-July, after the research had concluded, western Germany was hit by a catastrophic flood. In some locations, two months’ worth of rain fell in 24 hours. That flood and flooding at the same time in Belgium, Luxembourg and the Netherlands killed a total of more than 200 people and destroyed nearly 72,000 buildings.
Without more extensive preparation, similar scenarios could play out around the world. Swain said the paper’s findings imply that people may fail to properly prepare for catastrophic disasters if they are only paying attention to less-severe floods and not the more massive ones.
“These are the type of floods that wipe out towns, destroy infrastructure and kill a lot of people,” he said.