Hurricanes are expected to get more intense and destructive, as global temperatures rise and homeowners in Texas, Louisiana, Mississippi, and Alabama are expected to bear the brunt of it, according to a new study published in the journal Risk Analysis.

Wind losses for homeowners in the Southeastern coastal states could be 76 percent higher by the year 2060 and 102 percent higher by 2100.

University of Illinois civil engineer Eun Jeong Cha and her colleague Chi-Ying Lin used machine learning to simulate the impact of future hurricanes on wooden single-family homes with concrete masonry in Texas, Louisiana, Mississippi, Alabama, Florida, Georgia, South Carolina, and North Carolina. Over the last decade, these states have been hit hard by destructive storms like Hurricane Irma (2017) and Hurricane Helene (2024). Helene’s estimated total costs – which included damages from record-breaking flooding in western Carolina – were $78.7 billion.

“These states experience the highest hurricane activity and associated wind-related losses in the U.S.,” said Cha. “They represent a critical region for understanding how climate change may alter hurricane risk, especially given their large coastal exposure and growing population centers.”

Cha’s simulation of future losses from increasing hurricane winds and rainfall utilizes projections based on the worst-case scenario of global warming from the Intergovernmental Panel on Climate Change (IPCC).

Known as RCP8.5, this scenario represents the highest possible greenhouse gas emissions in the absence of policies to combat climate change. It estimates that the earth’s average global surface temperature will be 2.0° C higher by 2065 and 3.7° C higher by 2100 (relative to the 1986-2005 baseline).

“The worst-case scenario is widely used to explore high-impact possibilities for long-term planning and resilience studies,” Cha said. “We view it as a stress-test scenario for hurricane wind risk.”

Under this scenario, the simulation projected that, in the eight southeastern coastal states:

• Losses from wind and rain-ingress (when water enters a building) will be 49-76 percent higher by 2060 and 71-102 percent higher by 2100.
• Hurricane wind speeds in Texas will be 14 percent higher in the 2050s compared to present-day levels.
• Texas will experience the highest increase in expected losses, followed by the region of Louisiana, Mississippi, and Alabama.

In addition, inland counties, such as Charleston, South Carolina, may experience a relatively large percentage increase in projected risk.

At the county level, Cha and her colleagues found variations of hurricane risk associated with climate change, along with differences in regional preparation for hurricane wind hazards.

The increasing vulnerability of the county of Charleston, South Carolina, may stem from a combination of projected increases in hurricane intensity, low historical exposure, and infrastructure that has not been stress-tested under more extreme wind and rain conditions.

Within a state, climate change impact varies from coastal to inland counties,” said Cha. “The discrepancies we found emphasize the necessity of vast regional risk assessment for federal- and state-level resource allocation and risk mitigation planning, considering the impact of climate change.”

New Insurance Models Needed to Account for Heavier Rainfall

Hurricane winds account for over 40 percent of storm-related losses in the residential sector, causing $14 billion in expected annual costs to the U.S. economy, according to a 2019 report from the Congressional Budget Office. Yet most hurricane models used by insurance companies fail to consider the impact of climate change.

Rain-ingresses are often overlooked in risk assessments, Cha said, adding that this was the reason her study considered damages from both stronger winds and heavier rain from future hurricanes in the southeastern coastal states.

Another study recently published in Risk Analysis focused on the connection between extreme rainfall and extreme insurance claims. Yue Shi, a PhD candidate at the Norwegian School of Economics conducted a study of how extreme rainfall and climate-related events affect home insurance claims.

Like Cha, she found increasing risk over time and significant geographical differences, pointing to a need for new insurance models as the climate gets wetter.

Accurately estimating hurricane hazards and resulting losses is essential, Cha added.

“Our findings contribute significantly to our understanding of climate change impacts on hurricane risks, providing valuable insights for policymakers, urban planners, and the insurance industry.”

Society for Risk Analysis. (2025, May 21). Wind-related hurricane losses for homeowners in the southeastern U.S. could be nearly 76 percent higher by 2060. ScienceDaily. Retrieved June 3, 2025 from www.sciencedaily.com/releases/2025/05/250521124607.htm