Science
Smog in Phoenix and Salt Lake City? The E.P.A. Is Blaming Asia.
For decades, Phoenix has struggled with smog that gets trapped in its bowl-like topography and is detrimental to human health. In 2024, when the city failed to meet a federal air pollution standard, it risked being hit with stricter rules designed to force more aggressive pollution limits.
Then, President Trump returned to the White House. And now the Phoenix-Mesa region has gotten off the hook for an unusual reason: The Trump administration is blaming foreign countries for the pollution.
Without contaminants blowing in from Mexico and Asia, the reasoning goes, Phoenix would have been in compliance with federal pollution limits.
Other regions are now taking up that strategy. Last week, the Environmental Protection Agency accepted similar reasoning to propose that the area around Salt Lake City in Utah get a reprieve from stricter emissions rules governing vehicles, factories and power plants.
These places should not be penalized “due to foreign sources of emissions,” Lee Zeldin, the E.P.A. administrator, said on X. “Federal ozone air quality standards would have been met had it not been for emissions transported into the region from outside the U.S.”
Senator John Curtis, Republican of Utah, hailed the move. “For too long, Utah has faced the prospect of being penalized for air pollution we did not create and cannot control.
”The Utah Petroleum Association also lauded the E.P.A.’s moves. The oil and gas industry has been on the forefront of the move to shift the blame for smog away from local polluters and onto foreign countries.
Some environmental groups and experts say that argument is preposterous.
The Clean Air Act does allow regions to take account of cross-border emissions to avoid penalties for failing to meet federal air quality standards. But it was not meant for pollution from thousands of miles away, they say.
Moreover, accounting for emissions from elsewhere does not excuse local authorities from tackling local sources of pollution, said Abi Vijayan, a former E.P.A. lawyer who is now with the Natural Resources Defense Council, an environmental group.
“You can’t point to some pollution blowing in from thousands of miles away, when there’s a lot more to do to cut local pollution,” Ms. Vijayan said. “This is going to mean more heart attacks, more lung disease, more asthma for the residents of Phoenix.”
The idea that pollution crosses international boundaries isn’t scientifically controversial. Ozone, the main ingredient in smog, is produced when nitrogen oxide combines with volatile organic compounds and is heated by sunlight. It can indeed travel thousands of miles, for example, carried by westerly winds across the Pacific Ocean, or across the border from Mexico.
Phoenix and Utah officials say that explains why, over the last two decades, ozone levels have risen despite local efforts to reduce the pollutants that form the thick haze. Both Phoenix and Salt Lake City have long received “F” grades from the American Lung Association for high levels of ozone.
“We’d done a great job in reducing those local emissions, almost cut them in half, but ozone concentrations were starting to increase again,” said Matthew Poppen, director of environmental planning at the Maricopa Association of Governments, which put together the analysis for the Phoenix metropolitan area. “That got us asking, ‘Hey, what’s going on?’”
Local officials commissioned an analysis that found that pollution from overseas, carried in particular by atmospheric currents in the case of Asia and by summer winds from Mexico, contributed an average of about 15 parts per billion of ozone. That bumped up the area’s average above the 70 parts per billion federal limit. Wildfires, as well as pollution from other states, also had an effect, they said.
The Northern Wasatch Front region in Utah, which includes Salt Lake City, reached a similar conclusion.
“It’s allowed us to understand what we can control locally, what can be done to improve things, but also that we shouldn’t over‑regulate,” said Bryce Bird, air quality chief at the Utah Department of Environmental Quality.
“Other areas in the West are seeing the same thing that we are: added local reductions aren’t resulting in a reduction in ozone,” Mr. Bird said. “There’s something else that’s driving that.”
Some experts doubted the significance of the findings.
“We’ve always known some pollution comes from abroad,” said Daniel Cohan, an expert in atmospheric modeling at Rice University. Still, “the levels that they’re claiming are contributed internationally are not particularly high,” he said.
“There’s nothing really unusual in seeing that level of ozone getting attributed to emissions from other countries,” he said. “These standards are based on air quality levels needed to protect human health. If everyone can point to international sources as a reason why their air doesn’t need to be clean enough, then we’ve undermined the entire meaning of the standards.”
Normally, a failure to meet federal ozone standards would trigger a downgrade in what’s known as the area’s nonattainment status, bringing a wave of tougher environmental regulations, including stricter federal permitting rules and a mandate to conduct more aggressive vehicle emissions testing.
Local industry groups have rallied in support of the effort by Arizona and Utah, highlighting the region’s data center construction boom.
“Arizona is now a global hub for advanced manufacturing and is a highly desirable location for artificial intelligence and computing related industries,” Danny Seiden, president of the Arizona Chamber of Commerce and Industry, said in comments submitted to the E.P.A. in December.
Tougher pollution controls were “not just a regulatory burden for local industries, but also an economic and strategic threat,” he said.
The stakes were high for health too, said Dr. Brian Moench, president of Utah Physicians for a Healthy Environment, a nonprofit organization.
Ozone is a colorless, odorless gas that can harm the lungs, especially in children and older people, and can trigger a host of respiratory and cardiovascular diseases. “Ozone is so potent, it doesn’t take much at all to have a profound impact on people’s health,” Dr. Moench said.
He pointed to a large study that found that being exposed to an increase of just 3 parts per billion of ozone for a duration of 10 years caused a loss of lung function and lung tissue equivalent to what would typically occur from smoking a pack of cigarettes a day for 29 years.
“It doesn’t matter if the ozone came from China,” Dr. Moench said. “If you’re breathing it, it’s doing the same harm as if it came from Salt Lake City.”
Over the past two decades, several other regions had made similar arguments against stricter regulations, including Imperial County, Calif., and El Paso, Texas.
But previous administrations had largely been skeptical. The Biden administration set a high bar for considering such arguments, including proof that the area was already doing everything it reasonably could to reduce pollution domestically. The arguments also tended to come from regions closer to the border.
In March, Senator Mark Kelly, Democrat of Arizona, hosted Mr. Zeldin at an air quality round table of local officials and industry representatives. “A key topic of discussion was the need to modernize E.P.A. guidance and cut red tape for local governments and businesses,” Mr. Kelly later said in a news release.
The following month, during a trip to Utah, Mr. Zeldin announced that he would repeal the Biden administration’s strict guidance, saying he was removing “cumbersome red tape.”
Some researchers pointed out the irony of the United States, currently the second-biggest polluter on the planet, pointing its finger at other countries.
In fact, dirty air from the United States can and does travel abroad, just as the United States receives pollution from across the globe, said Yuhang Wang, a professor in atmospheric science at Georgia Tech.
“What’s blowing in,” he said, “is also blowing out.”
Science
This Cell Feeds, Grows and Reproduces. And It’s Manmade.
Scientists have long dreamed of discovering the alchemy by which chemicals can be turned into life. On Wednesday, a team at the University of Minnesota announced that it had taken a major step toward that vision.
Blending together dozens of ingredients, the researchers have synthesized simple cells that feed, grow, reproduce and compete with one another for food. If these cells are not yet fully alive, they have most of the hallmarks of life.
“Life is not binary,” said Kate Adamala, a synthetic biologist who led the research. “That’s why I’m hesitant to call this ‘alive.’ There’s no clear line, as much as we would love it to be.”
Until now, scientists had never mastered the recipe for a cell that can perform so many functions, said John Glass, a synthetic biologist at the J. Craig Venter Institute in La Jolla, Calif., who was not involved in the study.
“It is dazzling that she has put these things all together,” he said.
Drew Endy, a synthetic biologist at Stanford University, said, “It’s a cell that was built, not born. It’s constructed, but it does what cells do.”
Dr. Adamala named her creation SpudCell, after its potato-like appearance. Rather than patent it, she and Dr. Endy are organizing a community of scientists to focus on making SpudCells more fully alive and adapting them to new kinds of experiments.
They and their colleagues have founded a nonprofit research organization that Dr. Endy estimates will spend hundreds of millions of dollars on the effort in the next decade. Hundreds of scientists are expected to join.
“We’re going to remember this moment,” said Roseanna Zia, a computational biologist at the University of Missouri who was not involved in the project.
Dr. Adamala and her colleagues posted a 190-page account of their work online. The research is under review for publication in a scientific journal.
Scientists hope synthetic cells can tell them things about life that natural cells cannot, including such basic questions as how many genes are necessary for a minimal form of life.
But synthetic cells also might someday be engineered to do things that natural cells can’t, like making new kinds of medicine or drawing large amounts of carbon dioxide from the atmosphere. In theory, engineered SpudCells might produce a vast range of proteins that natural cells cannot be coaxed to make, or even toxic chemicals like rocket fuel.
Now, “we can think about doing chemistry that we’re barely getting our heads around,” Dr. Glass said.
The trouble with life as we know it: mysterious, messy complexity. Our own DNA contains tens of thousands of genes, as well as millions of molecular switches turning those genes on and off. Scientists barely have a clue as to what many of those pieces of DNA are doing. Often a gene that they think they understand turns out to be performing other jobs than scientists expected.
One way to sidestep this intricacy is to simplify.
In the 1990s, a team led by the late biologist Craig Venter began studying a microbe that had fewer than 1,000 genes. The team, now led by Dr. Glass, went on to strip the microbe’s genome down to 525 essential genes.
In a 2016 paper, the team reported it didn’t know what a third of those genes were doing. Dr. Glass and his colleagues have spent the last decade trying to solve the puzzle, and they still can’t say what 56 of them do.
“There are still significant tasks that every cell has to do that we don’t know,” Dr. Glass said.
Other researchers tackled the problem from the opposite direction. Instead of working from the top down, they moved from the bottom up, seeking to combine lifeless molecules to produce a living cell.
Since the 1990s, several labs have bitten off small pieces of this problem. Some of them have perfected recipes to make hollow bubbles from oily molecules. Others have found ways to encapsulate simple genetic molecules inside those bubbles.
But scientists struggled to put these pieces together into more complex systems, let alone something that could be called a cell.
In recent years, Dr. Adamala took on one of the fundamental challenges: cell division. A natural cell divides with the help of proteins that lock together into a ring anchored to its inner wall. The ring winds itself tighter, pinching the cell in two.
Other proteins act like winches, moving DNA and other molecules into the forming cells, so that they have the ingredients necessary to keep living.
At first, Dr. Adamala tried building a simpler version of the natural system. But then she decided not to mimic real cells at all.
Biophysicists had found that if they stuck proteins on a membrane, they created pressure that made the membrane bend. Dr. Adamala and her team created bubbles that could snag proteins floating around them. When a bubble collected enough proteins, its surface began bending inward until it popped in two.
While the idea was simple, getting it to work in the lab required a year of experiments. “But once it works, it works,” Dr. Adamala said.
That success prompted the team to try to build a synthetic cell in its entirety.
The first step was to create a broth of the molecules necessary for a cell to operate. The recipe ultimately included about a hundred kinds of proteins and simple molecules required for crucial chemical reactions, such as making new proteins from genes.
The researchers also provided their synthetic cell with genes borrowed from a virus and the ubiquitous microbe Escherichia coli. They picked 36 genes for basic jobs like copying DNA.
After mixing these ingredients together into a soup, the scientists added the building blocks of membranes. They spontaneously joined together into bubbles, each engulfing some of the soup.
Many of these bubbles ended up encasing the right mix of genes, proteins and other molecules, and they started carrying out the chemical reactions seen in real cells.
As the new cells floated in flasks, Dr. Adamala and her colleagues added food. The cells slurped up small molecules through channels on their surfaces.
The scientists also put in small bubbles loaded with proteins and other molecules that were too big to fit through the channels. By bumping and fusing into one of these bubbles, the cell could feed on the treats inside.
As the cells fed, they grew. And in just a few hours, they were big enough to divide.
The scientists added a special protein to the flasks, which latched onto the surface of the cells and forced them to bend inward. Once the cells split in two, the pair of new cells kept growing.
Now the SpudCells grew, fed and reproduced. As it turned out, the cells even had a rudimentary ability to evolve.
Dr. Adamala and her colleagues created a mutant version that bound more tightly to the snack-filled bubbles floating around it. To test it, they created a 50-50 mixture of original and mutant SpudCells.
The cells competed for five generations for food. Eventually the mutants outnumbered the originals, suggesting that they were outcompeting the originals for food.
“That’s the shake-the-ground accomplishment here,” said Dr. Zia. Scientists will be able to put various synthetic cells in competition with one another and rapidly develop more sophisticated ones.
For all this evidence of life, SpudCell still has some major shortcomings. For starters, it can’t make the molecular factory that produces new proteins, called a ribosome. The cells can carry all the genes they need to build ribosomes, but for some reason the parts don’t come together.
For now, Dr. Adamala and her colleagues have to feed ready-made ribosomes to SpudCells. This solution has an expiration date, though: SpudCells can keep making proteins through five to 10 generations before they fail as their ribosomes become defective.
“I don’t want to say it dies, but it stops working,” Dr. Adamala said.
When Dr. Adamala showed SpudCell to Dr. Endy last year, he was so awestruck that he decided to help her found Biotic, the nonprofit organization intended to create a community of SpudCell researchers.
“I’m pouring my life’s work into this,” Dr. Endy said. One of the first tasks for Biotic will be to make it easier for other scientists to create SpudCells.
Dr. Adamala can create a fresh batch of them in her own lab in about a day. But that’s only because she has freezers full of purified proteins and an intimate understanding of each step of her recipe. Biotic expects to offer scientists easier recipes and provide the required ingredients.
Dr. Endy hopes that the open-source tools will encourage scientists to collaborate on building new kinds of SpudCells with more of the defining features of life, such as the ability to make their own ribosomes and to divide indefinitely.
“It’s completely doable,” said Dr. Glass.
Biotic researchers are already planning their first meeting, in September in Philadelphia. High on their list of priorities will be formalizing plans to safeguard this area of research.
For now, the synthetic cell can only survive a few generations on a special lab diet. But future versions may be more robust, raising the possibility that someone might someday use SpudCells unethically, perhaps even to make a weapon.
Dr. Endy argues that an open-source research community will be better prepared to prevent that from happening. “We can have these conversations now, as opposed to waiting for somebody else to do it, and then we’re just all reacting,” he said.
Dr. Endy likens SpudCells to a biological version of the Wright flyer, the crude plane that the Wright Brothers used to make the first sustained controlled flight in 1903, ushering in the age of airplanes.
“The Wright flyer flying for 12 seconds doesn’t get you a 737,” Dr. Endy said. “This is just the beginning.”
Science
After bold pledge, EPA shelves microplastics testing in U.S. drinking water
For the next five years, the Environmental Protection Agency has indicated it will not require public water utilities to test for microplastics or pharmaceuticals in drinking water, according to a proposed rule published in the Federal Register.
On Friday, the EPA submitted a list of chemicals it plans to test for under the Unregulated Contaminant Monitoring Rule, a mandatory testing program used to collect information about concerning chemicals in drinking water that could be harming human health. It did not include microplastics or pharmaceuticals.
The omissions come after announcements by EPA Administrator Lee Zeldin earlier this year that his agency was designating microplastics and pharmaceuticals priority contaminants for testing.
“This is a direct response to the concern of millions of Americans who have long demanded answers about what they and their families are drinking every day,” he said at an April news conference with Health and Human Secretary Robert F. Kennedy Jr. at EPA headquarters.
Zeldin’s announcement was seen at the time as a move to placate the increasingly disgruntled Make America Healthy Again contingent of Trump supporters.
Now the agency says it has no validated or standardized method to test for the plastic particles in drinking water, and wouldn’t be able to develop one before December, when testing is required to begin.
Among the 33 chemicals the EPA will require water utilities to test for are seven PFAS, or forever chemicals, and three pesticide residues.
It will be five years before the EPA proposes another list.
The EPA did not respond to a request for comment.
The agency noted in its proposed rule that it will collaborate with other federal agencies to “evaluate risks and exposures” of microplastics for future monitoring.
Environmentalists reacted with frustration and resignation. They pointed out that the European Union has developed methods to test for the tiny plastic particles, which have been found in people’s blood, brains and lung tissue. California has one in the works.
“The California water board has spent a lot of time and money on how to measure in drinking water,” said Judith Enck, a former EPA regional administrator and president of the anti-plastic environmental group Beyond Plastics. “EPA should give them a call.”
California was required by a 2018 state law to establish a protocol for local water utilities to test for the particles in drinking water. The state has not yet begun reporting its results, but protocols were established in 2021. Blair Robertson, a spokesman for the State Water Resources Control Board, said it’s not “a fully validated, end-to-end regulatory method” yet.
At the April meeting, Zeldin announced that he would place microplastics on what is known as the Contaminant Candidate List, which acts as a preliminary “watch list” of unregulated, priority contaminants in drinking water. Like the mandatory monitoring list, it is updated only every five years. The most recent list was published on April 2 — the day he made his announcement.
“Americans have been ignored as they sound the alarm about plastics in their drinking water,” Zeldin said during the announcement. “That ends today by placing microplastics on the contaminant candidate list for the first time ever. EPA will follow the science, will pursue answers and will hold ourselves to the highest standards to protect the health of Americans.”
There appears to be no clear association between these two lists, although the contaminant list is supposed to inform the monitoring list. Seventy-five chemicals and four chemical groups (microplastics, pharmaceuticals, PFAS chemicals, and disinfection byproducts) were listed on the 2026 contaminant list. Only seven of those chemicals were also on the proposed monitoring list (as well as seven PFAS chemicals).
When Zeldin announced microplastics as “‘a priority contaminant for regulation,’ and called it ‘a historic action on microplastics,’ he made it seem like the administration was going to take microplastics seriously,” said Mary Grant, water policy director for the environmental group Food & Water Watch.
“By not including them, they made it clear they don’t actually have plans to immediately address this crisis by getting the real-world monitoring data that we need right now to really start correcting ourselves,” she said.
Craig Davis, senior director of plastics chemistry at the American Chemistry Council — the nation’s largest trade group for chemical companies — said that while his organization supports microplastic research, it also agrees with the EPA’s decision not to include them in the monitoring list.
“National drinking water monitoring should be based on validated, standardized methods that can produce reliable and comparable data,” said Davis in a statement. He said “limited” national monitoring resources should be focused where data can produce “actionable public health information.”
The public has 60 days to comment once the plan is published in the Federal Register.
Science
Hospital visits for smoke inhalation spiked during Boyle Heights warehouse fire
The number of Angelenos who went to the hospital with throat pain and concerns about smoke inhalation spiked as a fire burned through the massive Lineage cold storage warehouse in Boyle Heights this month, The Times has learned.
The blaze burned for eight days beginning June 17 and involved solar panels, insulation foam and other industrial materials.
During that time, more than three times as many people went to emergency departments within 10 miles of the warehouse mentioning the fire or smoke inhalation compared with the two weeks prior, according to data from the Los Angeles County Department of Public Health obtained through a public records request.
The agency also noted a near doubling of patients mentioning throat pain within five miles of the fire June 21 — 1.9 times the baseline levels.
Usually, fewer than 50 people go to the emergency room each day for throat pain, and fewer than 20 people for smoke inhalation, the department said.
The hospitalization data was tracked through the department’s syndromic surveillance project, which monitors trends in what people report when they come to emergency departments in L.A. County, as well as diagnosis codes noted by providers. The system is not as comprehensive as full patient health records, and clinicians may not always include key words about “fire,” “smoke” or other circumstantial information in their diagnoses, the public health department said.
As such, it “cannot capture the true number of [emergency department] visits related to symptoms from the fire and likely underestimates the true burden of fire related symptoms,” the department said.
Perhaps unexpectedly, the department said it did not note a substantial increase in asthma, acute respiratory symptoms or chronic obstructive pulmonary disease-related emergency department visits during the fire.
But even these preliminary findings are concerning, experts said. The fire is believed to have started on the solar array on the roof of the 500,000 square-foot building, which housed 85 million pounds of frozen food. It then reached an ammonia line, prompting two brief shelter-in-place orders for nearby residents.
Over the next week, the fire continued to burn through dense insulation foam within the building’s walls and other unknown industrial materials, blanketing much of L.A. in acrid smoke. Residents in downtown L.A., northeast L.A., Burbank, the San Gabriel Valley and many other parts of the city and county reported seeing and smelling the fumes.
The South Coast Air Quality Management District issued multiple warnings about unhealthy levels of PM 2.5, or fine particulate matter. The city and county opened two smoke respite shelters in the immediate area so that people could breath cleaner air.
It is still unclear what exactly was in the smoke that people breathed in. Industrial fires release far more materials than the burned wood smoke that is emitted during wildfires.
“The makeup of the smoke can include toxic chemicals, fine particles and other serious risks to lung health depending on fire conditions and what is burned,” Will Barrett, assistant vice president for nationwide clean air policy at the American Lung Assn., said as the fire was burning. Children and elderly people are particularly at risk.
David Eisenman, director of the UCLA Center for Public Health and Disasters, said urban industrial fires also can represent a hazard that standard PM 2.5 warnings don’t always address. Those advisories are “blunt instruments” that don’t adequately capture emissions from burning man-made goods — or convey that the source of pollution may include burning batteries or toxic refrigerants, he said.
The fact that initial numbers don’t show a spike in asthma attacks is “somewhat reassuring,” Eisenman said. But “people may have gone to their primary care doctors, which this would not capture. This data deserves follow up.”
The air district and the U.S. Environmental Protection Agency deployed air monitors to assess particulate matter, airborne toxic metals and other harmful compounds during the early days of the blaze. The air district said it didn’t find significant levels of air toxics during the first two days of the fire, although it did record significantly elevated concentrations of particulate matter within the plume downwind.
Some of the measurements it took with mobile monitors, which are five-minute snapshots, also showed increased bromine and chlorine, which often are found when buildings burn and were at levels “below short-term health-based exposure thresholds,” the air district said. It began continuous PM 2.5. monitoring at two nearby elementary schools on the third day.
The L.A. Fire Department said it detected low-levels of toxic hydrogen fluoride on the second day of the fire, which can be a byproduct of burning lithium-ion batteries.
Lineage, the tenant-operator of the warehouse, said no concentrations of ammonia were detected in the air at any time.
“There’s no doubt this fire has had a huge impact on the local community, and we are committed to showing up in every way we can,” company officials wrote in a statement last week. They said Lineage worked closely with the Fire Department during the blaze and delivered masks, air purifiers and other supplies to the community, and will work to ensure the fastest cleanup possible.
The long-term health effects of the fire and its smoke probably won’t be known unless researchers conduct a follow-up study, said Eisenman of UCLA.
For example, there may have been delayed pulmonary effects from the hydrogen fluoride and burning insulation foam that — when combined with the elevated PM 2.5 levels in a dense urban environment — produced health effects that didn’t show up in the emergency room data.
“They will show up in increased primary care office visits and exacerbations of chronic disease over the next few weeks,” he said. “So from a public health standpoint, this fire is not over.”
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