News Release

Economic cost of weather may total $485 billion in US

Peer-Reviewed Publication

National Center for Atmospheric Research/University Corporation for Atmospheric Research

BOULDER—Everything has its price, even the weather. New research indicates that routine weather events such as rain and cooler-than-average days can add up to an annual economic impact of as much as $485 billion in the United States.

The study, led by the National Center for Atmospheric Research (NCAR), found that finance, manufacturing, agriculture, and every other sector of the economy is sensitive to changes in the weather. The impacts can be felt in every state.

"It's clear that our economy isn't weatherproof," says NCAR economist Jeffrey Lazo, the lead author. "Even routine changes in the weather can add up to substantial impacts on the U.S. economy."

This is the first study to apply quantitative economic analysis to estimate the weather sensitivity of the entire U.S. economy. The research could help policymakers determine whether it is worthwhile to invest in enhanced forecasts and other strategies that could better protect economic activity from weather impacts.

The authors caution that the study should be viewed as an initial estimate, which they plan to refine in subsequent research. Lazo and his colleagues did not calculate additional costs associated with extreme weather events, such as this year's tornado outbreaks, since data on extreme events were not available for the time period covered by their economic model. Nor did they evaluate the possible impacts of climate change, which is expected to lead to more flooding, heat waves, and other costly weather events.

Still, the study concludes that the influence of routine weather variations on the economy is as much as 3.4 percent of U.S. gross domestic product.

The study, with co-authors from the University of Colorado Boulder, Lawrence Berkeley National Laboratory, and Stratus Consulting, is being published in this month's issue of the Bulletin of the American Meteorological Society. The research was supported by the National Science Foundation, which is NCAR's sponsor, and by the National Oceanic and Atmospheric Administration.

-----All sectors, all regions-----

Weather can affect both demand and supply of various sectors, with complex and sometimes countervailing influences on the overall economy. A snowstorm, for example, may disrupt air travel and drive up heating costs while boosting subsequent attendance at ski resorts. A prolonged dry spell can affect supplies of crops while enabling construction projects to remain on schedule.

Previous studies looked at weather influences on particular economic sectors or produced subjective estimates of overall weather impacts. In contrast, Lazo and his colleagues combined historical economic data with economic modeling techniques to produce a detailed analysis of the U.S. economy's sensitivity to temperature and precipitation.

The results indicate that the mining and agriculture sectors are particularly sensitive. Routine variations in weather may take a toll on the mining economy of 14 percent each year, perhaps because of changing demand for oil, gas, and coal. Agriculture ranked second at 12 percent, conceivably because of the many crops that are affected by temperature and precipitation.

Other sensitive sectors include manufacturing (8 percent); finance, insurance, and retail (8 percent); and utilities (7 percent). In contrast, wholesale trade (2 percent); retail trade (2 percent); and services (3 percent) were found to be least sensitive.

The study also concluded that the economy of every state is sensitive to the weather. Although the state-level findings were more subject to error than national findings, the study indicated that New York was most sensitive (a 13.5 percent impact on the gross state product) and Tennessee was least sensitive (2.5 percent). However, sensitivity to weather variation did not seem to follow a particular geographic pattern, and Lazo says more research will be needed to determine why the economies of certain states are more affected by weather variations.

"A key point here is that when aggregated across all 11 sectors, no one part of the country appears significantly more weather sensitive than another region in relative terms," the authors wrote.

The United States as a whole is less sensitive than individual states because economic production can shift from one region to another, according to the study.

-----Putting the pieces together-----

Lazo and his colleagues drew on 70 years of weather records through 2008 from across the contiguous United States. They focused on variations in temperature (heating-degree days and cooling-degree days that denote temperatures above or below 65 degrees), total precipitation, and deviation from average precipitation. They also studied economic indicators for major economic sectors over 24 years, the period for which detailed state-level data were available and consistent for major economic sectors.

They then conducted a regression analysis, a statistical technique for comparing multiple variables, to examine the impacts of weather on 11 nongovernmental sectors of the economy in every state. The team constructed a computer model in which other key variables—labor, capital, and energy—were held constant based on a five-year average.

The researchers produced the estimated range of $485 billion in potential economic impacts by applying their weather sensitivity findings of 3.4 percent to the 2008 U.S. gross domestic product of $14.4 trillion. As the economy grows, costs of weather variability can be expected to increase accordingly.

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The University Corporation for Atmospheric Research manages the National Center for Atmospheric Research under sponsorship by the National Science Foundation. Any opinions, findings and conclusions, or recommendations expressed in this publication are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.

About the article

Title: U.S. Economic Sensitivity to Weather Variability

Authors: Jeffrey Lazo, Megan Lawson, Peter Larsen, and Donald Waldman

Publication: Bulletin of the American Meteorological Society


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