Maps of the American West have featured ever darker shades of red over the past two decades. The colors illustrate the unprecedented drought blighting the region. In some areas, conditions have blown past severe and extreme drought into exceptional drought. But rather than add more superlatives to our descriptions, one group of scientists believes it's time to reconsider the very definition of drought.

Researchers from half a dozen universities investigated what the future might hold in terms of rainfall and soil moisture, two measurements of drought. The team, led by UC Santa Barbara's Samantha Stevenson, found that many regions of the world will enter permanent dry or wet conditions in the coming decades, under modern definitions. The findings, published in the Proceedings of the National Academy of Sciences, reveal the importance of rethinking how we classify these events as well as how we respond to them.

"Essentially, we need to stop thinking about returning to normal as a thing that is possible," said Stevenson, an assistant professor in the Bren School of Environmental Science and Management. This idea affects both how we define drought and pluvial (abnormally wet) events and how we adapt to a changing environment.

A drought is when conditions are drier than expected. But this concept becomes vague when the baseline itself is in flux. Stevenson suggests that, for some applications, it's more productive to frame drought relative to this changing background state, rather than a region's historical range of water availability.

To predict future precipitation and soil moisture levels, Stevenson and her colleagues turned to a new collection of climate models from different research institutions. Researchers had run each model many times with slightly different initial conditions, in what scientists call an "ensemble." Since the climate is an inherently chaotic system, researchers use ensembles to account for some of this unpredictability.

The results show a world where certain regions are in permanent drought while others experience perennial pluvial for the rest of the 21st century. The team calculated the year in which average soil moisture will exceed the threshold that defines either a megadrought or a megapluvial. "In other words, at what point do average conditions exceed what we would consider a megadrought if it happened now, [and never return to 'normal']" Stevenson said.

The western United States has already crossed this benchmark, and there are other places headed that way as well, including Australia, southern Africa and western Europe. "But, again, that's if we use today's definition of a drought," Stevenson said.

The authors argue that we need to move away from fixed definitions toward a more nuanced account of drought and pluvial. "Our idea of normal is, in a sense, meaningless when 'normal' is continuously changing," Stevenson added.

Climate models indicate that average soil moisture in many regions will continue to drop. That said, the team's ensembles suggests that soil moisture will continue to experience drought-related variation similar to today, relative to the ever-drier baseline.

The fluctuation highlights the need to consider both long term changes and the usual ups and downs associated with historic droughts and pluvials. "The most important management challenge will be to adjust for the relentless declines in water availability, as this exceeds the expected impact of future megadroughts," said co-author Julia Cole, a professor at the University of Michigan.

Precipitation patterns, on the other hand, will become much more extreme. Warm air holds more moisture than cold air. So as the atmosphere heats up, it'll be able to suck more moisture from dry areas and dump more precipitation on wet regions.

"We wanted to consider both precipitation and soil moisture at the same time because that can be important for water management," Stevenson said. For instance, we will need to adapt infrastructure to more arid conditions in the American West, but that infrastructure will also need to handle more intense rainfall.

"When we talk about being in a drought, the presumption is that eventually the drought will end, and conditions will return to normal," Stevenson said. "But if we're never returning to normal, then we need to adapt all of the ways that we manage water with the expectation that normal will continually be drier and drier every year."

Research Report: "Twenty-first century hydroclimate: A continually changing baseline, with more frequent extremes"

Related Links
University of California - Santa Barbara
Climate Science News - Modeling, Mitigation Adaptation

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