Publication Date June 20, 2017 | Pacific Standard

The Science Behind Arizona's Record-Setting Heat Wave

United States
Image: Levi Cowan, Tropical Tidbits
Image: Levi Cowan, Tropical Tidbits

In the Arizona desert, as far back as weather records go, it's never been this hot for this long.

By early Monday afternoon, the temperature was 111 degrees in Tucson, the first in a forecasted series of a record-setting seven consecutive days with highs above 110, the longest streak in city history. (The previous record, should it fall, was six days in a row in 1994.)

In Phoenix, just to the north, temperatures were even hotter. Meteorologists there are expecting temperatures to run as high as 120 degrees on Tuesday and Wednesday, at the apex of the heat wave. The National Weather Service is calling the heat wave "extreme even by desert standards."

HEAT WAVES LIKE THIS ARE QUICKLY BECOMING THE SUREST SYMPTOM OF HUMANITY'S GROWING INFLUENCE ON THE ATMOSPHERE. 

What's an extreme heat wave like in a place that's accustomed to extreme heat? Here's a snapshot of Monday:

  • A Phoenix television station broadcast a live webcam of a 600-pound block of ice.
  • In Sacramento, California, a team of meteorologists successfully baked cookies and fried bacon inside a car, with temperatures inside the car reaching nearly 200 degrees.
  • The United States Border Patrol stepped up safety messages, saying "it is physically impossible for the average person to carry enough water to survive."
  • The National Weather Service also warned against walking pets outdoors, saying that at pavement temperatures above 162 degrees (consistent with air temperatures of 102), skin is instantly destroyed.

Also on Monday, American Airlines canceled 38 flights previously scheduled for Phoenix on Tuesday—simply because it will be too hot to fly. It's not necessarily that the pilots and ground crew will need extra rest, it's that the planes' wings themselves weren't designed to perform under such conditions. Hotter air is thinner, and provides less lift, making it difficult for planes to take off.

As for here in Tucson, where I live, it's so hot right now, I can't think straight. Even indoors, a heat like this consumes you. "Cold" water from the tap is hot to the touch. You feel trapped; your daily routine changes to accommodate the inferno. This morning, it was already 85 degrees at 7:30 a.m. Last night, it didn't drop below 100 until a few minutes before 10 p.m. The last time it was this hot in Tucson, four people died from heat exposure while walking outside. This time around, officials have issued an air-quality advisory to warn of pollution that may become trapped near ground level thanks to the stagnant air.

The atmospheric culprit for the heat is a very intense high pressure, which is itself setting records. Though the statistical databases show this high of high pressure to be an approximately one-in-200-year event, these events have been occurring more often lately—with the last one happening just last year. In short, the background signal of global warming makes the entire atmosphere thinner and less dense, supporting stronger high-pressure centers like the one camped out over Arizona this week, which then tend to get stuck in place—cranking up the thermostat over a multi-state region.

Heat waves like this are quickly becoming the surest symptom of humanity's growing influence on the atmosphere. In Tucson, hot days are getting more common, with more than three weeks of additional days spent at 100 degrees or higher since 1980. The warming influence of more roads and parking lots matters, with urban areas warming faster than rural areas over the past few decades, but cities like Tucson and Phoenix are working on mitigating that effect through efforts like expanding urban forestry and installing more light-colored roofs.

Climate change, on the other hand, is trending in the other direction. A new study released on Monday says that, by 2100, up to 75 percent of people worldwide could be subject to deadly heat waves should global warming continue on its current pace.