Heavy rains set off flash flooding in the mountains of southwestern Virginia and eastern Tennessee on July 12. Rivers quickly inundated homes and a campground, swept away cars and blocked access to damaged communities with mudslides and debris.
In June, flooding had hit mountains in the Western U.S., where rain combined with melting snow can be particularly destructive. Storms dumped up to 5 inches of rain over three days in and around Yellowstone National Park, rapidly melting snowpack. As the rain and meltwater poured into creeks and then rivers, it became a flood that damaged roads, cabins and utilities and forced more than 10,000 people to evacuate.
The Yellowstone River shattered its previous record and reached its highest water levels recorded since monitoring began almost 100 years ago.
Although floods are a natural occurrence, human-caused climate change is making severe flooding events like these more common. I study how climate change affects hydrology and flooding. In mountainous regions, three effects of climate change in particular are creating higher flood risks: more intense precipitation, shifting snow and rain patterns and the effects of wildfires on the landscape.
Warmer air leads to more intense precipitation
One effect of climate change is that a warmer atmosphere creates more intense precipitation events.
This occurs because warmer air can hold more moisture. The amount of water vapor that the atmosphere can contain increases by about 7% for every 1.8 degrees Fahrenheit (1 degree Celsius) of increase in atmospheric temperature.
The latest assessment report published by the Intergovernmental Panel on Climate Change shows how this pattern will continue in the future as global temperatures continue to rise.
More rain, less snow
In colder areas, especially mountainous or high-latitude regions, climate change affects flooding in additional ways.
In these regions, many of the largest historical floods have been caused by snowmelt. However, with warmer winters due to climate change, less winter precipitation is falling as snow, and more is falling as rain instead.
This shift from snow to rain can have dramatic implications for flooding. While snow typically melts slowly in the late spring or summer, rain creates runoff that flows to rivers more quickly. As a result, research has shown that rain-caused floods can be much larger than snowmelt-only floods, and that the shift from snow to rain increases overall flood risk.
The transition from snow to rain is already occurring, including in places like Yellowstone National Park. Scientists have also found that rain-caused floods are becoming more common. In some locations, the changes in flood risk due to the shift from snow to rain could even be larger than the effect from increased precipitation intensity.
Changing patterns of rain on snow
When rain falls on snow, as happened in the recent flooding in Yellowstone, the combination of rain and snowmelt can lead to especially high runoff and flooding.
In some cases, rain-on-snow events occur while the ground is still partially frozen. Soil that is frozen or already saturated can’t absorb additional water, so even more of the rain and snowmelt run off, contributing directly to flooding. This combination of rain, snowmelt and frozen soils was a primary driver of the Midwest flooding in March 2019 that caused over $12 billion in damage.
In lower-elevation regions, rain-on-snow events may actually become less likely than they have been in the past because of the decrease in snow cover. These areas could still see worsening flood risk, though, because of the increase in heavy downpours.
Compounding effects of wildfire and flooding
Changes in flooding are not happening in isolation. Climate change is also exacerbating wildfires, creating another risk during rainstorms: mudslides.
With the uptick in wildfires due to climate change, more and more areas are exposed to these risks. This combination of wildfires followed by extreme rain will also become more frequent in a future with more warming.
Global warming is creating complex changes in our environment, and there is a clear picture that it increases flood risk. As the Yellowstone area and other flood-damaged mountain communities rebuild, they will have to find ways to adapt for a riskier future.
Frances Davenport is a postdoctoral research fellow in atmospheric science at Colorado State University.
This article is republished from The Conversation. Read the original article.