Southeast Region Areas to Endure About Four Months a Year When “Feels Like” Temperature Exceeds 105 Degrees

Dangerous Heat to Soar Across Entire US “Breaking” National Weather Service Heat Index Scale, Posing Unprecedented Health Risks

Published Jul 16, 2019

WASHINGTON (July 16, 2019)—Increases in potentially lethal heat driven by climate change will affect every state in the contiguous U.S. in the decades ahead, according to a new report and accompanying peer-reviewed study in Environmental Research Communications, both by the Union of Concerned Scientists, released today. Few places would be unaffected by extreme heat conditions by midcentury and only a few mountainous regions would remain extreme heat refuges by the century’s end.

Without global action to reduce heat-trapping emissions, the number of days per year when the heat index—or “feels like” temperature—exceeds 100 degrees Fahrenheit would more than double from historical levels to an average of 36 across the country by midcentury and increase four-fold to an average of 54 by late century. The average number of days per year nationwide with a heat index above 105 degrees Fahrenheit would more than quadruple to 24 by midcentury and increase eight-fold to 40 by late century.

The analysis, titled “Killer Heat in the United States: Climate Choices and the Future of Dangerously Hot Days” shows a hotter future that’s hard to imagine today. Nearly everywhere, people will experience more days of dangerous heat even in the next few decades. By the end of the century, with no action to reduce global emissions, parts of Florida and Texas would experience the equivalent of at least five months per year on average when the “feels like” temperature exceeds 100 degrees Fahrenheit, with most of these days even surpassing 105 degrees. On some days, conditions would be so extreme that they exceed the upper limit of the National Weather Service heat-index scale and a heat index would be incalculable. Such “off-the-charts” conditions could pose unprecedented health risks.

The analysis calculated the frequency of days with heat index thresholds above 90 degrees Fahrenheit—the point at which outdoor workers generally become susceptible to heat-related illness—as well as above 100 and 105 degrees Fahrenheit, when the National Weather Service (NWS) generally recommends issuing heat advisories and excessive heat warnings, respectively. The number of high heat-index days was calculated by averaging projections from 18 high-resolution climate models between April and October. The report looked at these conditions for three possible futures. The “no action scenario” assumes carbon emissions continue to rise and the global average temperature increases nearly 4.3 degrees Celsius (about 8 degrees Fahrenheit) above pre-industrial levels by century’s end. The “slow action scenario” assumes carbon emissions start declining at midcentury and the global average temperature rises 2.4 degrees Celsius (4.3 degrees Fahrenheit) by century’s end. In the “rapid action scenario,” global average warming is limited to 2 degrees Celsius (3.6 degrees Fahrenheit)—in line with the Paris Agreement. The analysis also examined the number of people in each state that would be exposed to a heat index above 90 degrees Fahrenheit, 100 degrees Fahrenheit, 105 degrees Fahrenheit, or off-the-charts conditions for an average equivalent of at least one week, one month, or two months per year. All population data presented here, including for future projections, is based on the most recent U.S. Census conducted in 2010 and does not account for population growth or changes in distribution.

The U.S. Southeast region, as defined by the latest U.S. National Climate Assessment, would be the hardest hit seeing an average of 96 days per year with a heat index above 100 degrees Fahrenheit, 73 days per year with a heat index above 105 degrees Fahrenheit and 12 “off-the-charts” days per year by the end of the century if no action is taken to reduce global warming emissions, with Florida, Louisiana and Mississippi seeing the largest rise in extreme heat. The sobering results for all Southeast states, assuming no global action to reduce emissions, are below.

Alabama

  • Historically, there have been 81 days per year on average with a heat index above 90 degrees Fahrenheit, the worker safety threshold. This would increase to 127 days per year on average by midcentury and 153 by the century’s end.
  • Historically, there have been 14 days per year on average with a heat index above 100 degrees Fahrenheit. This would increase to 71 days per year on average by midcentury and 106 by the century’s end. Of the cities with a population of 50,000 or more in the state, Daphne-Fairhope, Dothan and Mobile would experience the highest frequency of these days. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 55 per year.
  • By the end of the century, an estimated 4.8 million people would be exposed to a heat index above 100 degrees Fahrenheit for the equivalent of two months or more per year. By limiting warming to 2 degrees Celsius, roughly 3.7 million of those residents would avoid such days of extreme conditions. 
  • Historically, there has been an average of three days per year with a heat index above 105 degrees Fahrenheit. This would increase to 40 days per year on average by midcentury and 79 by the century’s end. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 26 per year.
  • By the end of the century, an estimated 4.8 million people would be exposed to a heat index above 105 degrees Fahrenheit for the equivalent of a month or more per year. By limiting warming to 2 degrees Celsius, nearly 4 million of those residents would avoid such days of extreme conditions.
  • Historically, the state as a whole has experienced zero “off-the-charts” heat days in an average year. This would increase to two days per year on average by midcentury and 11 by the end of the century. Limiting warming to 2 degrees Celsius would cap the frequency of such days at an average of zero per year. 
  • By the end of the century, an estimated 4.5 million people would endure “off-the-charts” heat days for the equivalent of a week or more per year. Historically, fewer than 2,000 people nationwide have experienced such conditions in an average year. By limiting warming to 2 degrees Celsius, all residents would avoid such days of extreme conditions.

Arkansas

  • Historically, there have been 76 days per year on average with a heat index above 90 degrees Fahrenheit, the worker safety threshold. This would increase to 118 days per year on average by midcentury and 144 by the century’s end.
  • Historically, there have been 20 days per year on average with a heat index above 100 degrees Fahrenheit. This would increase to 75 days per year on average by midcentury and 104 by the century’s end. Of the cities with a population of 50,000 or more in the state, Fort Smith, Hot Springs and Pine Bluff would experience the highest frequency of these days. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 63 per year.
  • By the end of the century, an estimated 2.9 million people would be exposed to a heat index above 100 degrees Fahrenheit for the equivalent of two months or more per year. By limiting warming to 2 degrees Celsius, nearly 900,000 of those residents would avoid such days of extreme conditions. 
  • Historically, there has been an average of seven days per year with a heat index above 105 degrees Fahrenheit. This would increase to 51 days per year on average by midcentury and 83 by the century’s end. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 38 per year.
  • By the end of the century, an estimated 2.9 million people would be exposed to a heat index above 105 degrees Fahrenheit for the equivalent of a month or more per year. By limiting warming to 2 degrees Celsius, about 640,000 of those residents would avoid such days of extreme conditions.
  • Historically, the state as a whole has experienced zero “off-the-charts” heat days in an average year. This would increase to four days per year on average by midcentury and 18 by the end of the century. Limiting warming to 2 degrees Celsius would cap the frequency of such days at an average of two per year. 
  • By the end of the century, an estimated 2.9 million people would endure “off-the-charts” heat days for the equivalent of a week or more per year. Historically, fewer than 2,000 people nationwide have experienced such conditions in an average year. By limiting warming to 2 degrees Celsius, nearly all residents would avoid such days of extreme conditions.

Florida

  • Historically, there have been 125 days per year on average with a heat index above 90 degrees Fahrenheit, the worker safety threshold. This would increase to 166 days per year on average by midcentury and 186 by the century’s end.
  • Historically, there have been 25 days per year on average with a heat index above 100 degrees Fahrenheit. This would increase to 105 days per year on average by midcentury and 141 by the century’s end. Of the cities with a population of 50,000 or more in the state, Bonita Springs, Cape Coral and North Port-Port Charlotte would experience the highest frequency of these days. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 87 per year.
  • By the end of the century, an estimated 17.6 million people would be exposed to a heat index above 100 degrees Fahrenheit for the equivalent of two months or more per year. By limiting warming to 2 degrees Celsius, about 570,000 of those residents would avoid such days of extreme conditions. 
  • Historically, there has been an average of four days per year with a heat index above 105 degrees Fahrenheit. This would increase to 63 days per year on average by midcentury and 111 by the century’s end. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 41 per year.
  • By the end of the century, an estimated 17.6 million people would be exposed to a heat index above 105 degrees Fahrenheit for the equivalent of a month or more per year. By limiting warming to 2 degrees Celsius, roughly 5.1 million of those residents would avoid such days of extreme conditions.
  • Historically, the state as a whole has experienced zero “off-the-charts” heat days in an average year. This would increase to two days per year on average by midcentury and 15 by the end of the century. Limiting warming to 2 degrees Celsius would cap the frequency of such days at an average of zero per year. 
  • By the end of the century, an estimated 13 million people would endure “off-the-charts” heat days for the equivalent of a week or more per year. Historically, fewer than 2,000 people nationwide have experienced such conditions in an average year. By limiting warming to 2 degrees Celsius, all residents would avoid such days of extreme conditions.

Georgia

  • Historically, there have been 79 days per year on average with a heat index above 90 degrees Fahrenheit, the worker safety threshold. This would increase to 127 days per year on average by midcentury and 153 by the century’s end.
  • Historically, there have been 16 days per year on average with a heat index above 100 degrees Fahrenheit. This would increase to 70 days per year on average by midcentury and 104 by the century’s end. Of the cities with a population of 50,000 or more in the state, Albany, Brunswick, Hinesville and Valdosta would experience the highest frequency of these days. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 54 per year.
  • By the end of the century, an estimated 9.6 million people would be exposed to a heat index above 100 degrees Fahrenheit for the equivalent of two months or more per year. By limiting warming to 2 degrees Celsius, more than 7.7 million of those residents would avoid such days of extreme conditions. 
  • Historically, there has been an average of four days per year with a heat index above 105 degrees Fahrenheit. This would increase to 39 days per year on average by midcentury and 77 by the century’s end. Limiting warming to 2 degrees Celsius above pre-industrial levels could cap the frequency of such days at an average of 26 per year.
  • By the end of the century, an estimated 9.6 million people would be exposed to a heat index above 105 degrees Fahrenheit for the equivalent of a month or more per year. By limiting warming to 2 degrees Celsius, more than 7.9 million of those residents would avoid such days of extreme conditions.
  • Historically, the state as a whole has experienced zero “off-the-charts” heat days in an average year. This would increase to two days per year on average by midcentury and 10 by the end of the century. Limiting warming to 2 degrees Celsius would cap the frequency of such days at an average of zero per year. 
  • By the end of the century, an estimated 4.8 million people would endure “off-the-charts” heat days for the equivalent of a week or more per year. Historically, fewer than 2,000 people nationwide have experienced such conditions in an average year. By limiting warming to 2 degrees Celsius, all residents would avoid such days of extreme conditions.

Kentucky

  • Historically, there have been 41 days per year on average with a heat index above 90 degrees Fahrenheit, the worker safety threshold. This would increase to 91 days per year on average by midcentury and 120 by the century’s end.
  • Historically, there have been six days per year on average with a heat index above 100 degrees Fahrenheit. This would increase to 45 days per year on average by midcentury and 76 by the century’s end. Of the cities with a population of 50,000 or more in the state, Bowling Green, Louisville and Owensboro would experience the highest frequency of these days. Limiting warming to 2 degrees Celsius above pre-industrial could cap the frequency of such days at an average of 33 per year.
  • By the end of the century, an estimated 4.2 million people would be exposed to a heat index above 100 degrees Fahrenheit for the equivalent of two months or more per year. By limiting warming to 2 degrees, Celsius nearly all residents would avoid such days of extreme conditions. 
  • Historically, there has been an average of one day per year with a heat index above 105 degrees Fahrenheit. This would increase to 26 days per year on average by midcentury and 55 by the century’s end. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 17 per year.
  • By the end of the century, an estimated 4.3 million people would be exposed to a heat index above 105 degrees Fahrenheit for the equivalent of a month or more per year. By limiting warming to 2 degrees Celsius, more than 4 million of those residents would avoid such days of extreme conditions.
  • Historically, the state as a whole has experienced zero “off-the-charts” heat days in an average year. This would increase to two days per year on average by midcentury and 10 by the end of the century. Limiting warming to 2 degrees Celsius would cap the frequency of such days at an average of one per year. 
  • By the end of the century, an estimated 3.4 million people would endure “off-the-charts” heat days for the equivalent of a week or more per year. Historically, fewer than 2,000 people nationwide have experienced such conditions in an average year. By limiting warming to 2 degrees Celsius, all residents would avoid such days of extreme conditions.

Louisiana

  • Historically, there have been 108 days per year on average with a heat index above 90 degrees Fahrenheit, the worker safety threshold. This would increase to 147 days per year on average by midcentury and 170 by the century’s end.
  • Historically, there have been 28 days per year on average with a heat index above 100 degrees Fahrenheit. This would increase to 97 days per year on average by midcentury and 129 by the century’s end. Of the cities with a population of 50,000 or more in the state, Hammond, Lake Charles and Mandeville-Covington would experience the highest frequency of these days. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 83 per year.
  • By the end of the century, an estimated 4.5 million people—nearly the entire state population—would be exposed to a heat index above 100 degrees Fahrenheit for the equivalent of two months or more per year.
  • Historically, there has been an average of nine days per year with a heat index above 105 degrees Fahrenheit. This would increase to 64 days per year on average by midcentury and 105 by the century’s end. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 47 per year.
  • By the end of the century, an estimated 4.5 million people would be exposed to a heat index above 105 degrees Fahrenheit for the equivalent of a month or more per year. By limiting warming to 2 degrees Celsius, roughly 60,000 of those residents would avoid such days of extreme conditions.
  • Historically, the state as a whole has experienced zero “off-the-charts” heat days in an average year. This would increase to four days per year on average by midcentury and 19 by the end of the century. Limiting warming to 2 degrees Celsius would cap the frequency of such days at an average of two per year. 
  • By the end of the century, an estimated 4.5 million people would endure “off-the-charts” heat days for the equivalent of a week or more per year. Historically, fewer than 2,000 people nationwide have experienced such conditions in an average year. By limiting warming to 2 degrees Celsius, all residents would avoid such days of extreme conditions.

Mississippi

  • Historically, there have been 92 days per year on average with a heat index above 90 degrees Fahrenheit, the worker safety threshold. This would increase to 134 days per year on average by midcentury and 158 by the century’s end.
  • Historically, there have been 21 days per year on average with a heat index above 100 degrees Fahrenheit. This would increase to 83 days per year on average by midcentury and 115 by the century’s end. Of the cities with a population of 50,000 or more in the state, Gulfport and Pascagoula would experience the highest frequency of these days. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 68 per year.
  • By the end of the century, an estimated 2.9 million people—the entire state population—would be exposed to a heat index above 100 degrees Fahrenheit for the equivalent of two months or more per year. By limiting warming to 2 degrees Celsius, roughly 120,000 of those residents would avoid such days of extreme conditions. 
  • Historically, there has been an average of six days per year with a heat index above 105 degrees Fahrenheit. This would increase to 52 days per year on average by midcentury and 91 by the century’s end. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 38 per year.
  • By the end of the century, an estimated 2.9 million people would be exposed to a heat index above 105 degrees Fahrenheit for the equivalent of a month or more per year. By limiting warming to 2 degrees Celsius, roughly 220,000 of those residents would avoid such days of extreme conditions.
  • Historically, the state as a whole has experienced zero “off-the-charts” heat days in an average year. This would increase to three days per year on average by midcentury and 16 by the end of the century. Limiting warming to 2 degrees Celsius would cap the frequency of such days at an average of one per year.  
  • By the end of the century, an estimated 2.9 million people would endure “off-the-charts” heat days for the equivalent of a week or more per year. Historically, fewer than 2,000 people nationwide have experienced such conditions in an average year. By limiting warming to 2 degrees Celsius, all residents would avoid such days of extreme conditions.

North Carolina

  • Historically, there have been 47 days per year on average with a heat index above 90 degrees Fahrenheit, the worker safety threshold. This would increase to 94 days per year on average by midcentury and 123 by the century’s end.
  • Historically, there have been eight days per year on average with a heat index above 100 degrees Fahrenheit. This would increase to 45 days per year on average by midcentury and 76 by the century’s end. Of the cities with a population of 50,000 or more in the state, Goldsboro, Jacksonville and New Bern would experience the highest frequency of these days. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 33 per year.
  • By the end of the century, an estimated 8.6 million people would be exposed to a heat index above 100 degrees Fahrenheit for the equivalent of two months or more per year. By limiting warming to 2 degrees Celsius, all residents would avoid such days of extreme conditions. 
  • Historically, there has been an average of two days per year with a heat index above 105 degrees Fahrenheit. This would increase to 24 days per year on average by midcentury and 53 by the century’s end. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 15 per year.
  • By the end of the century, an estimated 8.8 million people would be exposed to a heat index above 105 degrees Fahrenheit for the equivalent of a month or more per year. By limiting warming to 2 degrees Celsius, nearly all residents would avoid such days of extreme conditions.
  • Historically, the state as a whole has experienced zero “off-the-charts” heat days in an average year. This would increase to one day per year on average by midcentury and seven by the end of the century. Limiting warming to 2 degrees Celsius would cap the frequency of such days at an average of zero per year. 
  • By the end of the century, an estimated 4.7 million people would endure “off-the-charts” heat days for the equivalent of a week or more per year. Historically, fewer than 2,000 people nationwide have experienced such conditions in an average year. By limiting warming to 2 degrees Celsius, all residents would avoid such days of extreme conditions.

South Carolina

  • Historically, there have been 70 days per year on average with a heat index above 90 degrees Fahrenheit, the worker safety threshold. This would increase to 119 days per year on average by midcentury and 146 by the century’s end.
  • Historically, there have been 14 days per year on average with a heat index above 100 degrees Fahrenheit. This would increase to 64 days per year on average by midcentury and 97 by the century’s end. Of the cities with a population of 50,000 or more in the state, Charleston-North Charleston, Florence and Hilton Head Island would experience the highest frequency of these days. Limiting warming to 2 degrees Celsius above pre-industrial levels century would cap the frequency of such days at an average of 49 per year.
  • By the end of the century, an estimated 4.6 million people would be exposed to a heat index above 100 degrees Fahrenheit for the equivalent of two months or more per year. By limiting warming to 2 degrees Celsius, more than 4.3 million of those residents would avoid such days of extreme conditions. 
  • Historically, there has been an average of five days per year with a heat index above 105 degrees Fahrenheit. This would increase to 36 days per year on average by midcentury and 71 by the century’s end. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 24 per year.
  • By the end of the century, an estimated 4.6 million people would be exposed to a heat index above 105 degrees Fahrenheit for the equivalent of a month or more per year. By limiting warming to 2 degrees Celsius, nearly 4.3 million of those residents would avoid such days of extreme conditions.
  • Historically, the state as a whole has experienced zero “off-the-charts” heat days in an average year. This would increase to two days per year on average by midcentury and 10 by the end of the century. Limiting warming to 2 degrees Celsius would cap the frequency of such days at an average of zero per year. 
  • By the end of the century, an estimated 3.5 million people would endure “off-the-charts” heat days for the equivalent of a week or more per year. Historically, fewer than 2,000 people nationwide have experienced such conditions in an average year. By limiting warming to 2 degrees Celsius, all residents would avoid such days of extreme conditions.

Tennessee

  • Historically, there have been 51 days per year on average with a heat index above 90 degrees Fahrenheit, the worker safety threshold. This would increase to 100 days per year on average by midcentury and 128 by the century’s end.
  • Historically, there have been eight days per year on average with a heat index above 100 degrees Fahrenheit. This would increase to 53 days per year on average by midcentury and 84 by the century’s end. Of the cities with a population of 50,000 or more in the state, Clarksville, Jackson and Memphis would experience the highest frequency of these days. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 40 per year.
  • By the end of the century, an estimated 6.1 million people would be exposed to a heat index above 100 degrees Fahrenheit for the equivalent of two months or more per year. By limiting warming to 2 degrees Celsius, more than 4.9 million of those residents would avoid such days of extreme conditions. 
  • Historically, there has been an average of two days per year with a heat index above 105 degrees Fahrenheit. This would increase to 32 days per year on average by midcentury and 63 by the century’s end. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 21 per year.
  • By the end of the century, an estimated 6.3 million people would be exposed to a heat index above 105 degrees Fahrenheit for the equivalent of a month or more per year. By limiting warming to 2 degrees Celsius, nearly 4.6 million of those residents would avoid such days of extreme conditions.
  • Historically, the state as a whole has experienced zero “off-the-charts” heat days in an average year. This would increase to two days per year on average by midcentury and 11 by the end of the century. Limiting warming to 2 degrees Celsius could cap the frequency of such days at an average of one per year. 
  • By the end of the century, an estimated 5 million people would endure “off-the-charts” heat days for the equivalent of a week or more per year. Historically, fewer than 2,000 people nationwide have experienced such conditions in an average year. By limiting warming to 2 degrees Celsius, all residents could avoid such days of extreme conditions.

Virginia

  • Historically, there have been 31 days per year on average with a heat index above 90 degrees Fahrenheit, the worker safety threshold. This would increase to 75 days per year on average by midcentury and 106 by the century’s end.
  • Historically, there have been five days per year on average with a heat index above 100 degrees Fahrenheit. This would increase to 33 days per year on average by midcentury and 60 by the century’s end. Of the cities with a population of 50,000 or more in the state, Fredericksburg, Richmond and Williamsburg would experience the highest frequency of these days. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 23 per year.
  • By the end of the century, an estimated 6.9 million people would be exposed to a heat index above 100 degrees Fahrenheit for the equivalent of two months or more per year. By limiting warming to 2 degrees Celsius, all residents would avoid such days of extreme conditions. 
  • Historically, there has been an average of one day per year with a heat index above 105 degrees Fahrenheit. This would increase to 17 days per year on average by midcentury and 41 by the century’s end. Limiting warming to 2 degrees Celsius above pre-industrial levels would cap the frequency of such days at an average of 10 per year.
  • By the end of the century, an estimated 7.3 million people would be exposed to a heat index above 105 degrees Fahrenheit for the equivalent of a month or more per year. By limiting warming to 2 degrees Celsius, nearly all residents would avoid such days of extreme conditions.
  • Historically, the state as a whole has experienced zero “off-the-charts” heat days in an average year. This would increase to one day per year on average by midcentury and five by the end of the century. Limiting warming to 2 degrees Celsius would cap the frequency of such days at an average of zero per year. 
  • By the end of the century, an estimated 3.2 million people would endure “off-the-charts” heat days for the equivalent of a week or more per year. Historically, fewer than 2,000 people nationwide have experienced such conditions in an average year. By limiting warming to 2 degrees Celsius, all residents would avoid such days of extreme conditions.

The report clearly shows how actions taken, or not taken, within the next few years to reduce emissions will help determine how hot and humid our future becomes. If the goal of the Paris Agreement is met and future global average warming is limited to 2 degrees Celsius, by late century the United States would see half the number of days per year, on average, with a heat index above 105 degrees Fahrenheit, and almost 115 million fewer people would experience the equivalent of a week or more of “off-the-charts” heat days. The longer the U.S. and other countries wait to drastically reduce emissions, the less feasible it will be to realize the “rapid action scenario” analyzed.

Governors and state legislators have begun moving toward 100 percent clean energy and Congress is considering a range of energy and climate policies—including renewable energy standards, climate resilient infrastructure and innovation incentives, which may see bipartisan support—that could help keep the worst at bay. Economists have also advised putting a price on carbon emissions to properly account for damages from the fossil-fuel-based economy and signal intentions to protect the environment.

In addition, the report includes a range of preparedness recommendations for governments, including: investing in heat-resilient infrastructure; creating heat adaptation and emergency response plans; expanding funding for programs to provide cooling assistance to low- and fixed-income households; directing the Occupational Safety and Health Administration (OSHA) to set up protective occupational standards for workers during extreme heat; requiring utilities to keep power on for residents during extreme heat events; and investing in research, data tools and public communication to better predict extreme heat and keep people safe.

To view the report PDF, click here.

Spreadsheets with our data on extreme heat are available and can be sorted by city, by county, by state, by region and by population

To get the results for your city or county by using our interactive widget, click here.

To use the interactive mapping tool, click here. The map allows you to learn more about extreme heat in specific counties. When you zoom in, the maps become more detailed.

For all other materials, including regional press releases, our methodology document and Spanish-language materials, click here

To listen to the latest UCS “Got Science” podcast on this new report, click here.