Cleaner East Asian air unmasks a much hotter planet

Research ties China’s anti-pollution efforts to a global spike in warming

University of California - Riverside

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Research reveals a connection between cleaner air and much hotter temperatures worldwide. 

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Credit: 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.”

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Journal

Communications Earth & Environment

DOI

10.1038/s43247-025-02527-3 

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

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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.”

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Journal

Communications Earth & Environment

DOI

10.1038/s43247-025-02527-3 

Article Title

East Asian aerosol cleanup has likely contributed to the recent acceleration in global warming

Article Publication Date

14-Jul-2025

 

Study reveals a plastic ‘death trap’ in birds’ nests

University of East Anglia

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New research reveals the impact of discarded plastic materials on young birds – with chicks dying after becoming entangled in synthetic fibres used to build their nests.

Scientists from the University of East Anglia (UEA) examined the impact of plastics and rope in the nests of land-dwelling birds, using white storks as a case study. As is happening in the oceans due to human plastic pollution, they found that discarded synthetic materials can be a serious hazard on land too.

The study, published today in the journal Ecological Indicators, found human-derived materials were present in 91% of 568 stork nests monitored in Portugal over four years. During a year of weekly checking, 12% (35) of nestlings became entangled, with many of those dying, often due to injuries such as necrosis and limb loss.

Soft plastic, such as plastic bags, was the most prevalent material and found in 65% of the nests. This was followed by synthetic ropes – the main cause of entanglement – found in nearly half (42%) of the nests.

Baler twine, a slow degrading polypropylene rope, accounted for 63% of the entanglements and was present particularly in colonies surrounded by agricultural areas.

The team, including researchers from the University of Montpellier and University of Lisbon, also found that white stork chicks in nests containing a higher number of ropes were more likely to become entangled and had lower survival rates.

The authors warn that as a common indicator species, the entanglement of white storks, particularly in baler twine, highlights a broader environmental issue not limited to that species or Portugal. 

Lead author Ursula Heinze, a postgraduate researcher in the School of Environmental Sciences at UEA, said: “Our findings offer new insights into the extent of nestling deaths caused by entanglement, and highlights the urgent need to remove and replace hazardous materials such as polypropylene baler twine from both agricultural use and the environment, given its harmful impacts on nestlings.

“This study suggests that the threat posed by human-derived materials to terrestrial birds may be far more severe than previously recognised.” 

Co-author Prof Aldina Franco, also from UEA, said: “This is a serious issue. These chicks get entangled in synthetic ropes when they are very young and the ropes slowly strangle their limbs as they grow, mostly legs and feet, leading to necrosis and amputations, they suffer a horrible death.

“Our paper is really timely, it highlights a widespread issue with poorly quantified consequences. In Ukraine, for example, solders are finding nests with fibre optic wires from remote controlled drones. In the UK, several passerines, such as goldfinches and wrens, have also started using different colour polypropylene threads to build their nests. People spotting empty nests at the end of the breeding season may have started to notice this.

“We show that the impact of plastic in the nests can be underestimated because the negative effects of the ropes and other human-produced materials tend to happen in the early life of the chicks, at an average age of two weeks, and the deaths can go unnoticed.

“Our main goal has been to identify the nesting materials that may pose significant risks to terrestrial bird species and pinpoint their origins, in order to develop effective strategies to mitigate these risks to wildlife.”

While the use of human-derived materials in bird nests is well known, previous studies have mainly focused on quantifying their prevalence rather than their direct impacts, such as entanglement deaths.

This is the first comprehensive survey of nestling entanglements in a terrestrial bird species to systematically monitor nests from hatching of the eggs to fledging of the birds, to detect early entanglements and provide more accurate entanglement and mortality rates.

Co-author Dr Inês Catry from the University of Lisbon added: “White storks are known to incorporate discarded human-made materials into their nests, frequently nest near or within human settlements and often forage on organic waste at landfill sites.

“The reasons for using these materials in nest-building are not fully understood, but may relate to their availability and the scarcity of natural ones, while some might also be mistaken for food, being inadvertently incorporated in the nests.

“This study highlights that plastic pollution in terrestrial environments needs to be addressed and solutions to replace or safely discard of hazardous materials are urgently needed.”

In this study, the researchers monitored and photographed 32 white stork colonies and 568 nests in Alentejo and the Algarve, southern Portugal, over four years.

They aimed to quantify the amount and types of potentially hazardous anthropogenic nest materials and their impact on nestling mortality. They also analysed the habitat characteristics and proximity to landfill sites to determine the sources of the materials.

In 2023, they also monitored 93 nests weekly from hatching to fledging to identify vulnerable developmental stages and high-risk materials. Accessing nests where possible with a ladder, they freed the nestlings and removed the materials that had caused the entanglements.

The team found that in 63% of cases, entanglements were caused by ropes, affecting 22 nestlings. The number per nest was highly variable, with some nests having up to 22 ropes. Baler wrap, plastic mesh used to cover hay bales, was found in 13% of nests and caused six nestling entanglements.

‘A death trap in the nest: Anthropogenic nest materials cause high mortality in a terrestrial bird’, Ursula Heinze, Marta Acácio, Aldina Franco and Inês Catry, is published in Ecological Indicators on 14 July.

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Journal

Ecological Indicators

Method of Research

Observational study

Subject of Research

Animals

Article Title

A death trap in the nest: Anthropogenic nest materials cause high mortality in a terrestrial bird

Article Publication Date

14-Jul-2025

 

Philippine scientists warn vs. ‘indirect’ effect of tropical cyclones during monsoon season

Ateneo de Manila University

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Dark skies over the Ateneo de Manila University campus in Quezon City, Philippines, forebode possible rain. A study co-authored by esearchers from the university found that during the “Habagat” or southwest monsoon season from July to September, rains over the western Philippines can be exacerbated by tropical cyclones far to the east of the country that don’t even make landfall. 

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Credit: Aaron R Vicencio / ADMU

Tropical cyclones hundreds of kilometers away from the Philippines are often more responsible for heavy rainfall than those that hit the country directly during the annual “Habagat” or southwest monsoon season from July to September, according to new research.

The findings undermine the widely-held public misconception that only tropical cyclones that directly hit the country pose serious flood risks: while the “direct” effect of tropical cyclones accounts for an average of 15.4 percent of rainfall during the Habagat season, its “indirect” effect contributes more than twice that amount. The remaining 51.5 percent comes from the monsoon itself, without tropical cyclone influence.

Torrential rain pulled in by distant tropical cyclones

An average of 33.1 percent of the rainfall during the southwest monsoon season is caused by tropical cyclones that do not make landfall but enhance the Habagat, pulling in large amounts of moisture from the surrounding seas and turning otherwise moderate monsoon rains into torrential downpours, according to the study. 

The location where a tropical cyclone forms, called its “genesis point”, also impacts the amount of rainfall. It was found that tropical cyclones that form farther away from the Philippines tend to move northeast of Luzon and are thereby more likely to enhance the monsoon.  In contrast, those that form closer to the country often take shorter, westward tracks and thus have a weaker effect on the southwest monsoon.

A striking example of this phenomenon occurred in July 2024, when Typhoon Gaemi (known locally as Super Typhoon Carina) stayed well away from the Philippine landmass but enhanced the southwest monsoon so much that Quezon City recorded nearly a full month’s worth of rain in just 24 hours. The resulting floods across Luzon killed 48 people and caused over 8 billion pesos in damage, despite the typhoon not making landfall.

Over half a century of research data

The researchers from the Ateneo de Manila University; the Manila Observatory; the Philippine Atmospheric, Geophysical, and Astronomical Services Administration (PAGASA); and Japanese partner institutions analyzed 62 years of weather data from 1961 to 2022 and focused on rainfall patterns along the western coast of the Philippines during the peak southwest monsoon season from July to September. 

In the four rainiest years on record—1962, 1972, 2012, and 2018—rainfall totals soared above 2,000 millimeters during the monsoon season. On average, the largest share of rainfall came from the indirect effects of tropical cyclones, with up to 41.5 percent of the total rainfall attributed to their monsoon-enhancing effects. These tropical cyclones never made landfall, yet ended up saturating Luzon and parts of Visayas with flood-inducing rains.

Call for improved tropical cyclone, monsoon monitoring

Moreover, by distinguishing between rainfall caused by the monsoon, as well as the direct, and indirect effects of tropical cyclones, the researchers hope to improve the way we anticipate extreme weather. Understanding these distinctions is crucial for local governments and disaster response agencies, especially as climate change increases the unpredictability of both tropical cyclones and seasonal rainfall.

The study highlights the need to monitor not only a tropical cyclone’s approach, but also its formation and interaction with the monsoon system. This knowledge is critically important to Filipinos in flood-prone regions, such as Metro Manila, Zambales, Ilocos, and Palawan.

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Journal

Atmospheric Research

DOI

10.1016/j.atmosres.2025.108273 

Method of Research

Observational study

Subject of Research

Not applicable

Article Title

Influence of tropical cyclones, southwest monsoon, and tropical cyclone-enhanced southwest monsoon on rainfall variability over the western coast of the Philippines

 

Measuring air pollutants in real time: ERC proof of concept grant for TU Graz physicist

Birgitta Schultze-Bernhardt receives funding from the European Research Council for the development of a portable device that measures several pollutants simultaneously in a fraction of a second.

Graz University of Technology

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Birgitta Schultze-Bernhardt during a laboratory experiment at the Institute of Experimental Physics at Graz University of Technology.

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Credit: Lunghammer - TU Graz

Volatile air pollutants such as nitrogen dioxide and ozone are only monitored loosely in the EU. Separate devices are used for each individual pollutant, and real-time monitoring is not possible. Birgitta Schultze-Bernhardt from the Institute of Experimental Physics at Graz University of Technology (TU Graz) would like to simplify and significantly improve these measurements. In her MULTI TRACE research project, she is developing a portable device that can determine the concentration of several gaseous pollutants in ambient air with the utmost accuracy within fractions of a second. The heart of the system is a laser-based dual-comb spectrometer, which Birgitta Schultze-Bernhardt developed with funding from an ERC Starting Grant in the predecessor project ELFIS. In order to take the technology closer to real-world application, the European Research Council is funding the MULTI TRACE project for 18 months with a Proof of Concept Grant totalling 150,000 euros.

“The development of state-of-the-art sensor technologies and measuring methods is a research focus at TU Graz. The university management warmly congratulates Birgitta Schultze-Bernhardt on this Proof of Concept Grant,” says Andrea Höglinger, Vice Rector for Research at TU Graz. “I am delighted that she will now be transferring the results of her basic research into practical applications.”

Molecules absorb frequencies of laser light

The compact measuring device screens the air to be tested with laser light, which is in turn reflected back by a retroreflector. The molecules in the air absorb parts of the colour spectrum of the laser light. As each gaseous substance absorbs the frequencies of the laser light in a different way, the researchers can recognise which pollutants are present and in what concentration. In the future, the device will automatically analyse the frequency values and display the pollutant concentrations.

“Laser technology has developed very quickly in recent years. Today, we can carry out measurements in almost any environment and in situations relevant to everyday life that were only possible in the laboratory a few years ago,” says Birgitta Schultze-Bernhardt. “The technology has also become much more compact. It is therefore realistic that we will be able to produce a portable device within a year and a half and test it in various real-life environments.” Tests are planned in urban areas as well as in industrial and forest areas.

Three pollutants at the same time

The device developed as part of the MULTI TRACE programme will measure three pollutants simultaneously – these include ozone and nitrogen dioxide. “Basically, our measuring principle can be used to detect any conceivable pollutant, whether gaseous, liquid or solid – provided it is translucent,” says Birgitta Schultze-Bernhardt.

The potential fields of application for the technology are diverse. Industrial companies could monitor the air quality in their production facilities, and authorities would have the opportunity to collect data on pollution levels in cities at a high level of temporal resolution. There are also possible applications in medicine. Doctors could collect evidence of possible diseases associated with the concentration of certain molecules in exhaled air.

 

Swiss genome of the 1918 influenza virus reconstructed

Evolutionary medicine

University of Zurich

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Emergency hospital in Zurich's Tonhalle during the so-called “Spanish flu” in November 1918.

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Credit: Schweizerisches Nationalmuseum, Inventarnummer LM-102737.46

Researchers from the universities of Basel and Zurich have used a historical specimen from UZH’s Medical Collection to decode the genome of the virus responsible for the 1918–1920 influenza pandemic in Switzerland. The genetic material of the virus reveals that it had already developed key adaptations to humans at the outset of what became the deadliest influenza pandemic in history.

New viral epidemics pose a major challenge to public health and society. Understanding how viruses evolve and learning from past pandemics are crucial for developing targeted countermeasures. The so-called Spanish flu of 1918–1920 was one of the most devastating pandemics in history, claiming some 20 to 100 million lives worldwide. And yet, until now, little has been known about how that influenza virus mutated and adapted over the course of the pandemic.

More than 100-year-old flu virus sequenced

An international research team led by Verena Schünemann, a paleogeneticist and professor of archaeological science at the University of Basel (formerly at the University of Zurich) has now reconstructed the first Swiss genome of the influenza virus responsible for the pandemic of 1918–1920. For their study, the researchers used a more than 100-year-old virus taken from a formalin-fixed wet specimen sample in the Medical Collection of the Institute of Evolutionary Medicine at UZH. The virus came from an 18-year-old patient from Zurich who had died during the first wave of the pandemic in Switzerland and underwent autopsy in July 1918.

Three key adaptations in Swiss virus genome

“This is the first time we’ve had access to an influenza genome from the 1918–1920 pandemic in Switzerland. It opens up new insights into the dynamics of how the virus adapted in Europe at the start of the pandemic,” says last author Verena Schünemann. By comparing the Swiss genome with the few influenza virus genomes previously published from Germany and North America, the researchers were able to show that the Swiss strain already carried three key adaptations to humans that would persist in the virus population until the end of the pandemic.

Two of these mutations made the virus more resistant to an antiviral component in the human immune system – an important barrier against the transmissions of avian-like flu viruses from animals to humans. The third mutation concerned a protein in the virus’s membrane that improved its ability to bind to receptors in human cells, making the virus more resilient and more infectious.

New genome-sequencing method

Unlike adenoviruses, which cause common colds and are made up of stable DNA, influenza viruses carry their genetic information in the form of RNA, which degrades much faster. “Ancient RNA is only preserved over long periods under very specific conditions. That’s why we developed a new method to improve our ability to recover ancient RNA fragments from such specimens,” says Christian Urban, the study’s first author from UZH. This new method can now be used to reconstruct further genomes of ancient RNA viruses and enables researchers to verify the authenticity of the recovered RNA fragments.

Invaluable archives 

For their study, the researchers worked hand in hand with UZH’s Medical Collection and the Berlin Museum of Medical History of the Charité University Hospital. “Medical collections are an invaluable archive for reconstructing ancient RNA virus genomes. However, the potential of these specimens remains underused,” says Frank Rühli, co-author of the study and head of the Institute of Evolutionary Medicine at UZH.

The researchers believe the results of their study will prove particularly important when it comes to tackling future pandemics. “A better understanding of the dynamics of how viruses adapt to humans during a pandemic over a long period of time enables us to develop models for future pandemics,” Verena Schünemann says. “Thanks to our interdisciplinary approach that combines historico-epidemiological and genetic transmission patterns, we can establish an evidence-based foundation for calculations,” adds Kaspar Staub, co-author from UZH. This will require further reconstructions of virus genomes as well as in-depth analyses that include longer intervals.

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Journal

BMC Biology

DOI

10.1186/s12915-025-02282-z 

Method of Research

Experimental study

Subject of Research

People

Article Title

An ancient influenza genome from Switzerland allows deeper insights into host adaptation during the 1918 flu pandemic in Europe

Article Publication Date

14-Jul-2025