How warm is too warm?
Heat waves are growing more common and severe as Earth's temperature increases. Extreme heat's harmful effects on the human body are a growing worry for scientists and medical professionals. And for good reason: each year in the United States, heat stress is the primary contributor to fatal weather-related incidents. An example from more recent times is the deadly heat wave that wreaked havoc on the U.S. Pacific Northwest last summer.
Weather forecasters use different tools to assess the potential for heat stress. Indeed, measurements of heat stress figure prominently in your daily weather report. In addition to forecasts of temperature and relative humidity, you’ll see something called the heat index, or apparent temperature. The heat index is a measure of what the air temperature feels like to our bodies when relative humidity is factored in. Calculated for shady areas, the heat index reflects how uncomfortable we feel when it’s hot and humid.
Because the heat index requires calibration, it’s a somewhat subjective measurement. In fact, different countries use different versions of it. For this reason, scientists conducting global climate studies are looking increasingly at another measure of heat stress called wet-bulb temperature.
Wet-bulb temperature is the lowest temperature to which an object can cool down when moisture evaporates from it. The lower the wet-bulb temperature, the easier it is for us to cool down. It measures how well our bodies cool down by sweating when it’s hot and humid, and tells us if conditions may be harmful to our health, or even deadly.
Both wet-bulb temperature and heat index are calculated using data on air temperature and humidity -- the two most important factors that affect heat stress. However, wet-bulb temperature is measured using a different technique.
Originally, wet-bulb temperature was measured by wrapping a wet cloth around the bulb of a thermometer and exposing it to air. As water evaporated from the cloth, the thermometer recorded the drop in temperature. The higher the relative humidity, the less moisture evaporated before the bulb and the surrounding air are the same temperature. Today, wet-bulb temperature is typically calculated using measurements from electronic instruments at weather stations.
Wet-bulb temperatures are on the rise around the world, and Earth’s climate has begun to exceed this limit.
Since 2005, wet-bulb temperature values above 95 degrees Fahrenheit have occurred for short periods of time on nine separate occasions in a few subtropical places like Pakistan and the Persian Gulf. They also appear to be becoming more frequent. In addition, incidences of slightly lower wet-bulb temperature values in the 90 to 95-degree Fahrenheit (32 to 35-degree Celsius) range have more than tripled over the 40 years studied by Raymond’s team.
The results have important implications. The hotter it is, the more strain our bodies feel, and the more we need to sweat to cool down. But humid air has less capacity to hold additional moisture, so water evaporates more slowly in humid conditions.
Think about when you step out of a hot shower. Water evaporates off your body and you feel cooler. But if it’s hot or humid (or both) in the room, it’s harder to feel cool. This feeling relates directly to what the wet-bulb temperature is measuring.
As long as the wet-bulb temperature is well below your skin temperature, your body can release heat to your surroundings through radiation and sweating. But as the wet-bulb temperature approaches your core temperature, you lose the ability to cool down. This triggers changes in your body. You dehydrate. Your organs become stressed, especially your heart. Blood rushes to your skin to try to release heat, starving your internal organs. The results can be deadly.
Those most susceptible to high wet-bulb temperatures include the elderly, people who work outside, and those with underlying health issues. People without access to air conditioning are also vulnerable. Air conditioning removes humidity from the air and is the best solution when wet-bulb temperatures get too high. Fans can help sweat evaporate more efficiently, but they’re less effective.
Future Hot Spots
It’s hard to say when we might see global wet-bulb temperatures regularly topping 95 degrees Fahrenheit (35 degrees Celsius). That’s because it’s a complex process that’s happening gradually and unfolding differently in different places. But climate models tell us certain regions are likely to exceed those temperatures in the next 30-to-50 years. The most vulnerable areas include South Asia, the Persian Gulf, and the Red Sea by around 2050; and Eastern China, parts of Southeast Asia, and Brazil by 2070.
The United States isn’t immune, however. Within 50 years, Midwestern states like Arkansas, Missouri, and Iowa will likely hit the critical wet-bulb temperature limit.
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