Brutal heatwaves gripped both Europe and the United States last week and are forecast to dump searing heat on much of China into late August.
In addition to temperatures spiking above 40 Celsius (104 Fahrenheit), wildfires are raging across southern Europe with evacuations in towns in Italy and Greece.
The searing heat is part of a global pattern of rising temperatures, attributed by scientists to human activity.
Hotter, More Frequent Heatwaves
Climate change makes heatwaves hotter and more frequent. This is the case for most land regions and has been confirmed by the U.N.’s global panel of climate scientists (IPCC).
Greenhouse gas emissions from human activities have heated the planet by about 1.2 Celsius since pre-industrial times. That warmer baseline means higher temperatures can be reached during extreme heat events.
“Every heatwave that we are experiencing today has been made hotter and more frequent because of climate change,” said Friederike Otto, a climate scientist at Imperial College London who also co-leads the World Weather Attribution research collaboration.
But other conditions affect heatwaves too. In Europe, atmospheric circulation is an important factor.
A study in the journal Nature this month found that heatwaves in Europe have increased three-to-four times faster than in other northern mid-latitudes such as the United States. The authors linked this to changes in the jet stream—a fast west-to-east air current in the northern hemisphere.
Fingerprints of Climate Change
To find out exactly how much climate change affected a specific heatwave, scientists conduct “attribution studies.” Since 2004, more than 400 such studies have been done for extreme weather events, including heat, floods and drought—calculating how much of a role climate change played in each.
This involves simulating the modern climate hundreds of times and comparing it to simulations of a climate without human-caused greenhouse gas emissions.
For example, scientists with World Weather Attribution determined that a record-breaking heatwave in western Europe in June 2019 was 100 times more likely to occur now in France and the Netherlands than if humans had not changed the climate.
Heatwaves Will Still Get Worse
The global average temperature is around 1.2C warmer than in pre-industrial times. That is already driving extreme heat events.
“On average on land, heat extremes that would have happened once every 10 years without human influence on the climate are now three times more frequent,” said ETH Zurich climate scientist Sonia Seneviratne.
Temperatures will only cease rising if humans stop adding greenhouse gases to the atmosphere. Until then, heatwaves are set to worsen. A failure to tackle climate change would see heat extremes escalate even more dangerously.
Countries agreed under the global 2015 Paris Agreement to cut emissions fast enough to limit global warming to 2°C and aim for 1.5°C, to avoid its most dangerous impacts. Current policies would not cut emissions fast enough to meet either goal.
A heatwave that occurred once per decade in the pre-industrial era would happen 4.1 times a decade at 1.5°C of warming, and 5.6 times at 2°C, the IPCC says.
Letting warming pass 1.5°C means that most years “will be affected by hot extremes in the future,” Seneviratne said.
Climate Change Drives Wildfires
Climate change increases hot and dry conditions that help fires spread faster, burn longer and rage more intensely.
In the Mediterranean, that has contributed to the fire season starting earlier and burning more land. Last year more than half a million hectares burned in the European Union, making it the bloc’s second-worst forest fire season on record after 2017.
Hotter weather also saps moisture from vegetation, turning it into dry fuel that helps fires to spread.
“The hotter, drier conditions right now, it just makes [fires] far more dangerous,” Copernicus senior scientist Mark Parrington said.
Countries such as Portugal and Greece experience fires most summers and have infrastructure to try to manage them—though both have received emergency EU help this summer. But hotter temperatures are also pushing wildfires into regions not used to them, and thus less prepared to cope.
Climate Change Isn’t the Only Factor in Fires
Forest management and ignition sources are also important factors. In Europe, more than nine out of 10 fires are ignited by human activities, like arson, disposable barbeques, electricity lines or littered glass, according to EU data.
Countries, including Spain, face the challenge of shrinking populations in rural areas, as people move to cities, leaving smaller workforces to clear vegetation and avoid “fuel” for forest fires building up.
Some actions can help to limit severe blazes, such as setting controlled fires that mimic the low-intensity fires in natural ecosystem cycles or introducing gaps within forests to stop blazes rapidly spreading over large areas.
But scientists concur that without steep cuts to the greenhouse gases causing climate change, heatwaves, wildfires, flooding and drought will significantly worsen.
“When we look back on the current fire season in one or two decades’ time, it will probably seem mild by comparison,” said Victor Resco de Dios, professor of forest engineering at Spain’s Lleida University.
(Reporting by Kate Abnett in Brussels; additional reporting by Gloria Dickie; editing by Katy Daigle, Barbara Lewis and Lisa Shumaker)