Cleaner East Asian air unmasks a much hotter planet
Research ties China’s anti-pollution efforts to a global spike in warming
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Research reveals a connection between cleaner air and much hotter temperatures worldwide.
view moreCredit: Ketut Subiyanto
One of the most pressing mysteries in climate science is why Earth has begun warming faster over the past 15 years. A new international study points to a surprising contributor: cleaner air in East Asia, particularly China.
The study, published in Communications Earth & Environment, found that East Asia’s aerosol reductions contributed about 0.05 degrees Celsius per decade to global temperatures since 2010. This accounts for most of the acceleration in warming observed during this period. The trend persists even after accounting for natural fluctuation events like El Niño.
“When something like the anomalous, record-breaking warmth of 2023 and 2024 happens, climate scientists start to wonder if there’s a factor we’re missing,” said Robert Allen, climatology professor at the University of California, Riverside. “This study was our effort to figure out what that might be.”
Lead author Bjørn Samset, a senior researcher at the Center for International Climate and Environmental Research in Norway, said the answer became increasingly clear through multiple model simulations. “The spike in warming,” he said, “aligns with a dramatic drop in aerosol pollution from China’s skies.”
The findings are based on simulations from eight major climate models. Data came from the Regional Aerosol Model Intercomparison Project, or RAMIP, which includes contributions from modeling centers in the United States, Europe, and Asia.
Since 2010, China has implemented aggressive air quality policies, slashing sulfur dioxide emissions by roughly 75 percent. Before these policies were enacted, pollution was a leading cause of premature death in China.
But fewer cooling aerosols in the atmosphere also mean intensified warming, especially over East Asia. The region is expected to face more extreme heat, shifting monsoon patterns, and possible disruptions to agriculture.
Therefore, Allen calls the cleanup a double-edged sword. “Reducing air pollution has clear health benefits, but without also cutting CO₂, you’re removing a layer of protection against climate change,” he said. “It highlights the need for parallel efforts to improve air quality and reduce greenhouse gas emissions.”
Allen explained that aerosols are short-lived in the atmosphere, so the spike in global temperatures they caused may also subside in the near future.
“Sulfur dioxide and sulfate aerosols have lifetimes of about a week. Once they’re removed, we’ll eventually settle back into a warming rate that’s more consistent with the long-term trend,” Allen added.
The study reinforces that carbon dioxide and methane remain the dominant drivers of long-term climate change. “Our study focused on the recent, dramatic speedup in global warming, which is very concerning but still small compared to the overall, long-term amount of warming from increased CO2 and methane,” Samset said.
Other regions, including South Asia, Africa, and North America, are also beginning to phase out aerosol emissions. RAMIP researchers plan to analyze how these shifts could shape climate trends in the years ahead.
In an attempt to keep climate change below dangerous levels while emissions reductions are pursued, some scientists have proposed mimicking aerosol cooling by injecting particles into the stratosphere. Allen urges caution. “It’s a card we might have to play if we’re pushed into a corner,” he said.
“But it comes with a host of risks, including disrupted rainfall patterns, food insecurity, and political tensions.”
The findings point to what must come next to preserve life on Earth. “Air quality improvements are a no-brainer for public health,” Allen said. “But if we want to prevent the worst impacts of climate change, we have to cut CO₂ and methane too. The two must go hand in hand.”
Journal
Communications Earth & Environment
Article Title
East Asian aerosol cleanup has likely contributed to the recent acceleration in global warming
Article Publication Date
14-Jul-2025
Air pollution cuts in East Asia likely accelerated global warming
University of Reading
The cleanup of air pollution in East Asia has accelerated global warming, a new study published today (Monday, 14 July) in the journal Communications Earth and Environment has found.
Global warming, driven primarily by emissions of greenhouse gases, has been accelerating for the past 15 years, leading to record-breaking surface temperatures. Over the same period, countries in East Asia have made strong efforts to clean up air pollution, which is important for public health. The largest air pollution clean-up has been made in China, where ambient air pollution is responsible for about 1 million deaths a year.
But air pollution has also helped cool the climate. Sulfate aerosols, arising from burning fossil fuels, can shade the Earth’s surface from sunlight. Air pollution has therefore inadvertently held in check some greenhouse gas driven warming. The Intergovernmental Panel on Climate Change (IPCC) assessed that in 2021, aerosols cooled the global surface by 0.4 ºC. This, however, did not take into account the fact that since the early 2010s, China, then a major emitter of key constituents of air pollution, has implemented strict policies to improve air quality.
Bjørn H. Samset, lead author and senior researcher at CICERO Centre for International Climate Research, said: “We have been able to single out the climate effects of air quality policies in East Asia over the last 15 years. Our main result is that the East Asian aerosol cleanup has likely driven much of the recent global warming acceleration, and also warming trends in the Pacific.”
Analysing the climate effects of emissions from a single region is challenging. It requires climate simulations that have not been readily available and updated emissions data that captures the actual pollution reductions in and around mainland China. Using a large set of simulations from eight different climate models, this study shows how a 75 percent reduction in East Asian sulfate emissions partially unmasks greenhouse gas driven warming, and changes how temperatures rise in different parts of the world.
Dr Laura Wilcox, contributing author and associate professor at the National Centre for Atmospheric Science (NCAS) in the University of Reading, said: “The climate effects of air pollution are short-lived, while the impact of carbon dioxide emissions can be felt for centuries. This means that the acceleration of warming due to reductions in air pollution is also likely to be short-lived. We will see an acceleration of warming while the unmasking takes place, and then a return to a greenhouse-gas driven rate of warming as air pollution stabilises.”
Journal
Communications Earth & Environment
Article Title
East Asian aerosol cleanup has likely contributed to the recent acceleration in global warming
Article Publication Date
14-Jul-2025
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