Extreme Heat

More frequent, severe, and longer heat waves will increase people’s vulnerability to heat-related health impacts, especially among the elderly, the poor, and those suffering from chronic illness.

Unusually hot summer days and nights have become more common across the contiguous United States over the last few decades.1 Since the 1970s, record-setting daily high temperatures have become more common than record-setting lows across the country, with the record highs outnumbering record lows, on average, by a ratio of 2:1 from 1999 through 2009.1 Climate models predict an increase in the frequency, severity, and length of heat waves in coming decades.1

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Extreme heat, whether in the form of rising long-term average temperatures or punctuated by heat waves, is a global health threat. In the United States, it is already deadlier than all other natural disasters combined, and it will clearly be exacerbated by a changing climate. In response to this growing threat, the Centers for Disease Control and Prevention, the National Oceanic and Atmospheric Administration, and domestic and international partners have created the National Integrated Heat Health Information System (NIHHIS). NIHHIS is designed to better understand health problems associated with extreme heat and determine what information is needed to address them, to develop a robust and science-informed response, and to build capacity and communication networks to improve resilience. Visit Heat.gov for heat-health resources, including current forecasts and predictions and information, case studies, reports, and tools to help reduce health risks due to extreme heat.

Extreme heat-related health effects

Graph depicting extremes in maximum temperature in the contiguous U.S. 1910-2015

The graph shows extremes in maximum temperature in the contiguous United States on an annual basis (January through December) from 1910 to 2015, and was generated by the U.S. Climate Extremes Index graphing tool. Visit the tool to further explore data on extreme temperatures, precipitation, and other indicators.

Extreme heat events are one of the leading weather-related causes of death in the United States—from 1999 through 2009, extreme heat exposure caused more than 7,800 deaths.2 Heat waves are especially hard on children, the elderly, outdoor workers and athletes, economically disadvantaged groups, and those already suffering from chronic illnesses, often resulting in more trips to the hospital.3

Hotter than average days in the summer increase illness and death by compromising the body’s ability to regulate its temperature. This loss of temperature control can result in a cascade of illnesses, including heat cramps, heat exhaustion, heatstroke, and hyperthermia. Even small differences from seasonal average temperatures are associated with increased illness and death. Temperature extremes can also worsen chronic conditions, including cardiovascular, respiratory, and cerebrovascular disease and diabetes-related conditions.3

A man spraying himself with a garden hose during a heat wave

A man seeks relief with a garden hose shower during a heat wave, summer of 2011.

Map depicting the average temperature ranks of the U.S. by climate division

The map shows the average annual temperature (January to December) for 2015 as it compares to the average annual temperature for the period 1895–2015, by NOAA Climate Division, in the contiguous United States. 

In cities, the “urban heat island” effect can increase temperatures from 1.8 to 5.4°F higher than the less developed areas around them.4  An increase in warmer nighttime temperatures means that many people are unable to sufficiently cool down at night, which increases their risk of heat-related illnesses. People who live alone or lack air conditioning are at even greater risk. Urban heat islands, combined with an aging population, poor air quality, and growing urbanization, are projected to increase the vulnerability of people to heat-related health impacts.

Map showing number of days above 100°F, 2080-2099, under a higher emissions scenario

This map shows the average number of days per year locations can expect to exceed 100°F by the end of this century, if greenhouse gas emissions continue increasing. In this potential future, parts of Texas that experienced 10 to 20 days of 100°F weather per year in recent decades may experience more than 100 days over 100° by the end of the century. 

Learn more about heat health for outdoor workers in a story map created by the NIHHIS team. Story maps are web applications that combine maps, images, multimedia content, and narrative text. Open the story map "Protecting Outdoor Workers from Heat Illness" in a new tab/window.

An airman drinks bottled water to stay hydrated

Airman 1st Class Jeffrey Albright drinks water at Nellis Air Force Base, Nevada. Working in near-record temperatures as high as 117°F, airmen must hydrate frequently in order to avoid heat-related injuries such as heat stroke.

Demand for electricity usually increases during heat waves, leading to potential brownouts and blackouts. To meet this demand, utilities sometimes ask urban hospitals to shift to emergency generators to free up electricity. Because many hospital cooling systems are not connected to back-up power generators, brownouts and blackouts can rapidly increase the number of people affected by an extended heat wave, as patients and those seeking refuge from the heat crowd emergency room lobbies.

Some risks associated with extreme heat-related illness and death have decreased in recent decades, possibly due to better weather forecasting, heat early warning systems, and increased access to air conditioning. Deaths and illnesses due to extreme heat events can be prevented, and advances in our understanding of extreme heat risk and and our ability to predict it, in addition to capacity building and communication, could continue to decrease risk.

To this end, the Centers for Disease Control and Prevention and the National Oceanic and Atmospheric Administration launched the National Integrated Heat Health Information System (NIHHIS) in the summer of 2016. NIHHIS facilitates an integrated approach to heat-heath resilience by providing a suite of decision support services that reduce heat-related illness and mitigate other effects of extreme heat. To learn more about extreme heat and how to protect yourself and others, including those most vulnerable, visit Heat.gov.

Featured Tools

Excessive Heat Events Guidebook: This guidebook gives public health officials background information on risks and impacts of Excessive Heat Events (EHEs) so that they can make a rough estimate of potential local health risks from EHEs. The guidebook also provides a menu of notification and response actions to consider when developing or enhancing a local EHE program.

Heat Safety Tool: This mobile application from the Occupational Safety and Health Administration (OSHA) lets outdoor workers and supervisors calculate the heat index for their worksite. Based on the heat index, the app indicates the risk level to outdoor workers. Users can get suggestions about actions to take at different risk levels to protect workers from heat-related illness. The app is available for Android and iPhone devices, in English and Spanish.

Recognizing, Preventing, and Treating Heat-Related Illness: This course from the U.S. Centers for Disease Control and Prevention (CDC) is designed to help coaches, athletic trainers, students, school nurses, parents, teachers, and others understand heat-related illness in student athletes and know how to prevent, as well as treat, it when it occurs. The course includes tools such as heat index charts, a wet bulb globe temperature chart, and sweat rate calculator that helps leaders assess if it’s safe to play.

Banner Image Credit
Sunset. Mohammad Sayem, CC BY-SA 4.0, http://creativecommons.org/licenses/by-sa/4.0, via Wikimedia Commons
Last modified
27 July 2022 - 12:21pm