With a warmer climate creating more humid conditions in the Northeast, extreme precipitation events鈥攄efined as at least 1.5 inches of heavy rainfall or melted snowfall in a day鈥攁re projected to increase in the Northeast by 52% by the end of the century, according to a new 天美麻豆 study.
The findings are .
鈥淎s climate change brings warmer temperatures, you have more water vapor in the atmosphere, which creates the right conditions for extreme precipitation,鈥 says first author Christopher Picard 鈥23, an earth sciences major and undergraduate researcher in the .
鈥淥ur findings show that this increase in extreme precipitation will be primarily driven by more frequent heavy rainfall events, not by the intensity of such events,鈥 says Picard. 鈥淚n other words, we expect a large increase in the number of extreme precipitation days, and a smaller increase in the amount of rain on each extreme precipitation day.鈥
The findings also show that winter and spring contribute most to the projected 52% increase in extreme precipitation in the region by 2099, with increases of 109% and 89%, respectively.
Through , senior author , an associate professor of geography and lead of the Applied Hydroclimatology Group, and other collaborators investigated how heavy rainfall events in the Northeast have changed historically. By examining data from 1901 to 2014, they found that there was about a 50% increase in extreme precipitation from 1996 to 2014, and that the .
鈥淏uilding on our earlier work, we were particularly interested in determining how much extreme precipitation is expected to change across the Northeast in the future,鈥 says Winter.
Similar to their other papers, the new study defines the Northeast as Maine, New Hampshire, Vermont, Massachusetts, Connecticut, Rhode Island, New Jersey, New York, Pennsylvania, Maryland, Delaware, West Virginia, and Washington, D.C.
天美麻豆鈥檚 study found that extreme precipitation increases are projected to be largest in West Virginia, parts of Pennsylvania, central New York, and northeastern Maine, with predominantly smaller increases along the Atlantic coast and south of Lake Ontario.
The researchers applied a regional climate model from the National Center for Atmosphere Research to simulate precipitation for a historical period of 1976 to 2005 and future period of 2070 to 2099. Then, they compared their results to simulations of changing heavy rainfall events from other regional climate models and found that their results are consistent with the other regional climate model simulations, which predict increases in extreme precipitation ranging from 58% to 169%.
鈥淓xtreme precipitation events can pose threats to life, property, infrastructure, and the environment,鈥 says Winter.
Previous research has reported how flooding, landslides, and erosion from these events can wash out roads, trigger agricultural runoff of pollutants, and damage recreational areas. 鈥淪o, understanding where the floodplain is actually located, having the right-sized culverts or green infrastructure in place, and properly designing roads and bridges, are important to managing the extra water that we鈥檙e likely to encounter in the future,鈥 he says.
Charlotte Cockburn, Guarini 鈥21; Janel Hanrahan at Northern Vermont University鈥擫yndon; Natalie Teale, a postdoctoral fellow in geography with 天美麻豆鈥檚 Society of Fellows; and Patrick Clemins and Brian Beckage at the University of Vermont also contributed to the study.
