To Make a Building Healthier, Stop Sanitizing Everything

studying only in the past fifteen years. And as tempting as it might be to dump bleach all over every surface in an attempt to kill COVID nine team, a more serious risk is that attempts to sterilize our surroundings can kill off bacteria critical for human health, which is why there's growing interest in putting bacteria to work cleaning. One company in the space is already worth about sixteen billion dollars, and its microbes are key ingredients in dozens

of home care brands. This episode is brought to you by Principal Financial Group, combining actionable insights with specialized solutions to help you meet your investment goals. Get to know h at Principal dot com. How to heal a building, open the windows, stop the obsessive sanitizing spread some good germs around a building, like a person is only as healthy as its microbiome, Caroline Winter. Four years ago, a doctoral student in architecture asked Luke Leung to help him

come up with a thesis topic. Leung, an engineer whose projects include the world's tallest building, the bird Khalifa in Dubai, proposed the question what is heaven. The student did a lot of research and found that no matter the faith Islam, Judaism, Christianity, heaven is always a place with a garden and running water, recalls Leung, director of the Sustainable Engineering Studio of Skidmore Owings and Meryl the architectural behemoth better known as s

O M SO. Then we started questioning, if that is heaven, what exactly is the place we are living in. In the Western world, humans spend of their time indoors. The average American spends even more than that inside buildings or cars. For years, scientists have sounded the alarm that are disconnect from the outdoors is linked to a host of chronic health problems, including allergies, asthma, depression, irritable bowel syndrome, and obesity.

More recently, experts in various fields have begun studying wide buildings, even those designed to be as germ free as possible, are vectors for disease, not the least COVID nineteen there was a study of more than seventy cases in China, and guess how many people caught the disease outdoors? Leong

asks just two. Early testing following Black Lives Matter protests in Minnesota also suggested that transmission of stars Cove two outside is rare, even when thousands of people gather, talking, yelling, and chanting, at least when mo to those people wear masks. Out of more than thirteen thousand protesters tested, only one point eight percent were positive. Other states showed similar results.

Leon says a misalignment with nature in building design is partly to blame for our scourge of chronic diseases and the current pandemic. The relative lack of airflow and sunlight is an obvious issue. Temperature, humidity, and indoor air pollution also play a role, but there's another less discussed factor, the microbiome of the built environment, which encompasses trillions of microbes,

including bacteria, fungi, and viruses. Until about fifteen years ago, very few scientists and even fewer architects, designers, and engineers paid attention to indore microbes, with the exception of problematic outcropping such as black mold and legion Ella, the bacteria that causes Legionnaire's disease. That changed after the two thousand one anthrax attacks, when letters laced with deadly b acteria were mailed to politicians and the offices of news outlets,

killing five people and infecting seventeen more. Experts at the nonprofit Alfred pce Loan Foundation began contemplating what role buildings might play in mitigating bio terrorism threats. Realizing we knew almost nothing about which microbes exist indoors, the Foundation poured tens of millions of dollars into research. Soon, scientists uncovered

rich ecologies of fast evolving indoor microbe populations. Crucially, most had little overlap with outdoor populations, including salutary species that humans co evolved with over millions of years. Now, with a global pandemic raging, these researchers are suddenly in demand. Our calendar is fairly full, says Kevin van den Wimelenberg, director of the Biology and the Built Environment Center at

the University of Oregon. He used to receive two or three inquiries per week asking for advice on how to improve the health of a building. Now he gets twenty a day. It's everyone from hospitals to large commercial real estate portfolios, to nursing homes in school districts, to personal friends who run a barbershop and are trying to decide whether or not they should blow out the hair of their patrons. Of course, the most urgent microbe related question is where to find stars Cove two and how to

kill it. Beyond that, there are also long term questions. How can we promote indoor microbe populations that don't make us chronically ill or harbor deadly pathogens? Can we actually cultivate beneficial microbes in our buildings the way a farmer cultivates a field. Experts, including Van den Wimelenberg, are confident all this is possible. I really believe our building operators of the future and our designers will be thinking about

how to shape the microbiome, he says. The term microbiome is most often used to refer to the population of microbes that inhabit our body, many of which helped produce vitamins hormones and other chemicals vital to our immune system, metabolism, mood, and much more. In the typical person, microbial cells are as numerous as those containing human DNA and cumulatively way

about two pounds. In recent decades, our personal microbiomes have been altered by factors such as poor dietary habits, arise in caesarean section births, over prescription of antibiotics, over use of disinfectants and other germ fighters, and dwindling contact with beneficial microbes on animals and in nature. According to a study, Americans microbiomes are about half as diverse as those of the young know Mommy, a remote Amazonian tribe. Like our bodies,

the buildings we inhabit are also teeming with microbes. Inhale deeply, writes Rob Dunn, a professor of applied ecology at North Carolina State University, in his book Never Home Alone. With each breath you bring oxygen deep into the alveola of your lungs, along with hundreds of thousands of species. Sit down. Each place you sit, you are surrounded by a floating, leaping, crawling circus of thousands of species. Dune says, more species of bacteria have been found in homes than there are

species of birds and mammals on Earth. In researchers found that indoor air contains nearly equal concentrations of bacteria and viruses. Almost all viruses are harmless, and some may be beneficial over time. These many microbes have adapted to survive and even thrive everywhere, from our pillow cases and toothbrushes to the more extreme climates of our dishwashers, showerheads, ovens, and freezers. Many are derived from humans or likely feed off human debris,

like Pigpin from the comic strip Peanuts. Each of us has a plume of microbes spewing off our body at a rate of about thirty seven million bacteria and eight billion fungal particles per hour. The difference is that our plumes are invisible to the naked eye. Indoors, the impact

is measurable. One study notes that it takes less than twenty four hours for a hotel guest to colonize a room with their personal microbes, erasing all traces of previous guests and making the space microbially identical to their home. Considering our perpetual emanations, it's easy to envision how the coronavirus might spread within a room. A single sneeze discharges roughly thirty thousand microbe filled droplets, traveling it up to

two hundred miles per hour. A cough releases about three thousand droplets, which reach speeds of fifty miles per hour. A simple exhale produces fifty to five thousand droplets. We know that a person infected with influenza releases as many as thirty three viral particles per minute just breathing, and about two hundred million per sneeze. Meanwhile, exposure to just a few hundred stars CoV two particles may be enough

to cause infection. Outdoors are invisible. Plumes almost always dispersed quickly, which is a very good thing in the case of COVID carriers. Any virus that is released into the air is rapidly diluted, moved by wind currents, and spread out across a seemingly infinite space, says Lindsay mar an expert in infectious disease transmission and professor of civil and Environmental engineering at Virginia Tech. It's almost like putting a drop of dye into the ocean versus putting it into a

glass of water. Sunlight also inactivates viruses in as little as five minutes eight minutes. In the case of stars CoV two, a study from the Department of Homeland Security found that the coronavirus can hang around indoors in the dark for hours. Facing an invisible and potentially deadly virus. The understandable impulse has been to whip out some clorox and go to battle, but indiscriminate bleach bombing could backfire. For one thing, mr acted efforts maybe a colossal waste

of time and money. New York City, for example, announced in the spring that for the first time, it was closing the subway system during early morning hours to deep clean every train. It's all theater, says Jack Gilbert, a professor and microbiome researcher at the University of California at San Diego. You bleach the subway, the bleach dries up and becomes inactive. If just one person who has COVID nineteen interacts with that surface, the four hours of cleaning

have no effect. And because we now know stars COVI two is most often transmitted through the air, cleaning efforts seem even more futile. A more serious risk is that attempts to sterilize our surroundings can kill off bacteria critical for human health, or, even worse, inadvertently promote the survival and evolution of more dangerous bugs, including antibiotic resistant superbugs. We should be worried, says Rob Knight, founding director of the Center from Microbiome in a Vation and a professor

of pediatrics at UCSD. If we are over zealously stripping off all the bacteria that would naturally be there, then we may be creating homes for bacteria and maybe even viruses that are harder to remove. No amount of chemicals will get rid of everything, and what's left behind is often undesirable. Microbiologists have swabbed the International Space Station to find out what happens inside an enclosed, supposedly sterile chamber in which every bit of food and equipment has been

disinfected with an especially designed NASA facility. As it turned out, microbes were everywhere, almost all of them human derived. Among the most common were bacteria associated with pecs, stinky feet, and armpits, which is perhaps why the I S S has been described as smelling like a mix of plastics, garbage,

and body odor. Here on Earth, proper hygiene is effective in minimizing exposure to pathogens such as those that cause food poisoning and strep throat, but we tend to go nuclear using harsh chemicals when soap and water could do the job. For years, anti microbials have been added to everything wallpaint, kitchen sponges, underwear, lip gloss. Now we've become more extreme in hopes of zapping stars Cove two straight

out of the air. Some building managers are installing so called bipolar ionization units, even though they may not work against COVID and sometimes generate harmful gases such as the lung irritant ozone. As for the antimicrobial cleaning agents and surface coatings being liberally applied throughout offices and other public spaces, we may be introducing large quantities of poorly understood, potentially poisonous chemicals into our everyday life, as well as speeding

the evolution of disastrous superbugs. The more we use the same anti microbials in different contexts, the more opportunity these microbes have to develop resistance, says Erica Hartman, an engineering professor at Northwestern university who focuses on indoor microbiology and chemistry. If they're developing resistance to the antimicrobial itself, that's not great, because then we've lost an important product in our cleaning arsenal.

But if they also develop resistance to clinically relevant antibiotics of which we have precious view, that's an even bigger concern, and there's evidence that both of those things happen. Wiping out good bacteria along with the bad has also been linked to chronic health problems. One often cited series of studies begun in examined the relationship between cleanliness and disease in the Finnish Russian border region of Karelia, where people

share similar genetics. On the wealthier, cleaner, finished side, people were as many as thirteen times more likely to suffer from inflammatory disorders as on the Russian side, where the majority live in rural homes, keep animals, and cultivate their own gardens. Our pandemic era anti germ crusade may not have a big impact on the already formed microbiomes of adults, but infants and young children, who need exposure to a wide variety of microbes to train their developing immune systems

could be more adversely affected. It's just speculation, but we could see a blip where this generation of kids has more immune related conditions. Knight says, especially in places where people have had to stay quarantined indoors, where kids didn't get to go outside as much. Leong of s O M began thinking about the microbiology of buildings years before the pandemic. It's not something he tends to mention to prospective clients. If you tell a client, let's talk about microbes,

they'll say get out of here. Next, he says, we have to address it carefully. Beyond using organic materials and maximizing access to natural light and outdoor spaces, Leung says lots can be done to make buildings healthier at the microbial level. For safer air, he extols the use of filters designed to eliminate sars Kovi two and other pathogens and contaminants, but he cautions against bipolar ionization technology and

says air shouldn't be sterilized over long durations. Whenever possible, Leung suggests deploying ventilation systems that pump office is full of microbially diverse outdoor air. Among his current projects is the thirty one story we Bank Tower in Shunjun, which upon completion in twenty twenty two, will draw air through trees planted on balconies before it's funneled inside. Sometimes we also open up buildings at night, Leung says, noting that

the outdoor air is first measured for pollutants. During the day people want air conditioning, but when they're gone, you can recharge the building with microbes from outside. Proper ventilation is particularly important in energy efficient buildings, which, like spaceships, are designed to be sealed off from the outside world.

In addition to delivering fresh oxygen and eliminating the brain numbing build up of carbon dioxide, good airflow and filtration reduce exposure to a long list of mostly unregulated and unmonitored chemicals found indoors. These include known carcinogens and endocrine disruptors, which reside in carpets, computers, free floating dust, office chairs, paint, and more. Outdoor pollution also seeps inside buildings and gets trapped,

especially during hours when ventilation systems are turned off. All this means indoor air is often far worse than outdoor air, with levels of some contaminants rising to ten times higher

or more. For businesses, better air quality alone translates to an estimated sixty five hundred to seventy five hundred dollars of added annual productivity per employee, mainly a result of improved wakefulness and acuity, say Joseph Allen and John Macomber, Harvard professors who in April published the book Healthy Buildings. By contrast, they note a study of more than three thousand workers in forty buildings found that fifty seven percent

of all sick leaf was attributable to bad air. Disturbingly, Allan and Macomber also write that up to ninety percent of American schools don't meet the minimum ventilation requirements, and that those standards are already far below optimal in London, Los Angeles, Mumbai and other polluted cities. Outdoor air needs to be heavily filtered before being pumped indoors, and most beneficial outdoor microbes likely don't survive, but in cleaner and

greener areas, simply opening windows has proved effective. After taking antibiotics, you're supposed to eat yogurt to replenish with probiotics, says Mark Fretz, a colleague of Van den Weimelenberg at the University of Oregon, where he's a research assistant professor at the Institute for Health. In the Built Environment, for your buildings,

the yogurt is essentially opening your window. In twenty twelve, researchers compare them acrobiomes of a hospital room in Portland, Oregon, with operable windows with one in which windows were permanently sealed. It was very difficult to find a hospital that even had an operable window, Frets says. Opening the window, it turned out, resulted in far more microbial diversity throughout the room, including species found on plants and leaves. Notably, there was

also a significantly lower chance of encountering pathogens. Side note, Potted plants also seed indoor spaces with valuable natural microbes, and they measurably improve human happiness, physical and mental health, and even original thinking, but they barely improve air quality. Another means of achieving healthier air is humidification, currently an

extreme rarity in North America. As any office worker who struggled through a dry and overheated winter season knows, most of our commercial buildings in the US are not humidified. Leung says, and that's why the pandemic could get even worse this winter. Not only does sufficient moisture in the air allow the human immune system to function at its best, but it also gloms onto viral particles so they decay

and drop to the floor more quickly. According to some calculations, viruses in dry air can survive six times as long as those in buildings with the relative humidity of about forty percent. Of course, building interventions alone can't eliminate the risk of stars covey to contagion, so it's best to keep social distancing and wearing masks. In the meantime, scientists at universities and start ups are racing to develop microbial censors for air filters, building services, waste water, and even

indoor air. We have tools to help us see the unseen, Van der Weimelenburg says. For now, those detection tools are in their infancy, relying on the arduous process of repeatedly collecting samples and transporting them to labs for testing. Gilbert

has ambitious plans for microby interventions in buildings. Trained as a microbial ecologist and with experience working on soils, plants, and marine systems, He was initially skeptical when he learned the Sloane Foundation was promoting something called the Microbiology of the Built Environment. I thought it was a joke, Gilbert says, I'll admit it. I thought there can't be much microbiology in the built environment, so why would anyone be interested.

Then in the winter of twenty twelve, he got a visit from Paula Olsouski, a program director for the Sloan Foundation. At that point, he was a professor at the University of Chicago, and when the meeting was over, a blizzard had descended on the city. I offered to drive her back to her hotel because I had a car that could handle the snow, Gilbert recalls, but it was snowing so heavily that the drive took two and a half hours,

and in that time she convinced me. Now at the forefront of microbiome research human and environmental, Gilbert was even permitted to sample President Obama's microbiome in twenty sixteen. He's not allowed to disclose the results. When the pandemic hit, Gilbert quickly redirected much of his research funding towards studying stars Cove two. He has one project together with Night's lab to see how the virus travels through hospitals where it most often takes up residence, and whether it piggybacks

on nefarious bacteria, as the influenza virus often does. He also has a second, more counterintuitive study under way in an undisclosed California hospital. Gilbert is investigating whether adding harmless basilis bacteria into medical facilities reduces the prevalence of pathogens,

including multi drug resistant bacteria and viruses. If you don't have anything on a freshly disinfected surface and you cough your virus laden bacteria onto the table, it will survive there, Gilbert says, But if there's a high enough abundance of Bacillus, then the bacillus will outcompete and exclude other pathogens that land on the surface. Similar studies have been done in the past with encouraging findings, but Gilbert's is more rigorous.

The idea of putting bacteria to work cleaning isn't as far fetched as it might sound. In the nineteen forties, a Danish company called Novozymes started selling environmental microbes for decontaminating wastewater. In the nineteen eighties and nineties. It also contracted with the US government on a large scale bioremediation project to help clean up the Exxon Valdez oil tanker spill.

About the same time, Novozymes sent researchers looking for bugs that might help clean home septic tanks, restaurant grease traps, pet stains, and much more. Among their best finds were grease and odor cutting bacteria discovered in the outdoor grill sites of Virginia parks and the kitchen of a Florida restaurant. Today, Novozymes is worth about sixteen billion dollars, and its microbes

are key ingredients in dozens of home care brands. These include the likes of Aunt Fanny's micro Cosmic Probiotic powered multi surface cleanser and Counterculture Probiotic Cleaning Tonic we clean the way Nature has been cleaning for four billion years with probiotics, reads counter Cultures website. The idea is to deploy an army of microbes that eat away at dirt, debris, and organic matter, also degrading the stuff left in cracks

and crevices. Last year, even Wreckett benk Kisser introduced a probiotic cleaner called vo which the company says will help contribute to the balancing of the home microbiome. Going a step further, scientists are studying whether salubrious environmental microbes can be introduced into urban homes to reduce the prevalence of inflammatory diseases. In Finland, one group seeded the doormats of city dwellers with about thirty grams of forest soil so

residents could drag outdoor microbes inside. The six month experiment showed the rugs did shift the indoor air to include more outdoor microbes. Next, the researchers want to run a large scale study to see whether forest soil impacted rugs can improve the immune systems of infants and young children. Another finished group is bypassing the rugs and simply smearing infants with a soil preparation to find out if there are health benefits. So far, no one knows exactly which

outdoor microbes are beneficial or how much exposure is best. Still, a number of startups are marketing bacteria sprays for homes and businesses. Belgium based take Air advertises an air enricher that disperses soil and ocean derived microbes through existing ventilation systems to create a natural and protective biosphere for your building users. Clients include a Belgian chain of Gems and

a housing project in Antwerp. Another front runner, Better Air in Israel sells the world's first organic air and surface probiotic, a freestanding microbe mister that retails for four dollars refill cart ridges are It's only a matter of time before these technologies become better understood and more widespread. There's absolutely fascinating research to be done. Gilbert says, I want to maybe engineer basilis so it has properties that can stimulate

the immune systems of people in a room. Vann Wimelenberg is also hopeful. There's no reason this stuff can't work. He says, we're already heavily manipulating the microbes in our buildings, just not deliberately. On a Tuesday afternoon in June, Leung takes my call while teaching his eighteen year old son to drive. Asked about the probiotic air enhancers, he laughs, it actually says a lot about human beings. He says. We've created buildings so sterile that now we have to

buy nature and spray it back in. That's how silly we are. Perhaps the pandemic will serve as a wake up call. This is our chance to right our wrongs of the past two years, he says, speaking of restoring our relationship with soils, plants, and animals. It won't be easy. Over the next forty years, the total amount of indoor square footage will roughly double worldwide, reports science journalist Emily

Anthus in her book The Great Indoors. Given the horrors of COVID, many businesses and building managers will also work their hardest to sanitize indoor environments like never before, perhaps

causing unintended consequences. In the meantime, the climate crisis is compounding potential health risks, as flooding, wildfires, and men made disasters destroy the natural world, exposing us to dangerous new diseases while annihilating the microbes we likely need to prevent widespread chronic illness, not to mention those we may need as medicines already. Leung says, urban air is often depleted of healthful natural bacteria in the winter time, when the

leaves are gone from trees. Do you know what the main thing is you find an urban air? He asks, Microbes from animal feces. Still, the pandemic may be changing our perspective on indoor life and even physically altering our microbiomes. Although some people are cleaning too much, eating more junk food, and drinking more alcohol, prescriptions for antibiotics are markedly down from last year, according to the Centers for Disease Control

and Prevention. One explanation is a decrease in non covid illnesses as a result of social distancing, and though people aren't mingling as much or sharing microbes, which can be beneficial when pathogens aren't involved, those lucky enough to live where they aren't required to hold up indoors are spending more time in nature. I mean, I see neighbors outside I didn't even know existed, and they're working in dirt that they're pretending is a garden, what microbiome expert says.

As businesses allow employees to work from home, many are also abandoning urban life for greener settings. But winter is upon us and the pandemic is surging once again as more people move indoors. If we don't adjust our lifestyle and start making our buildings healthier from a microbial standpoint, now, Leung says, we'll get hit even harder. If you think this pandemic is bad, wait another fifty years when we have a much older population and much higher healthcare costs.

In the not so distant future, he warns, three interrelated factors will increasingly affect our well being. Climate change, chronic health problems, and more pandemics. We're going to have to design for that, Leung says. And it's going to be important to bring humans and nature together again like in heaven. And that is one of our feature stories in this

week's Bloomberg Business Week magazine. Check out more stories in the current issue of Bloomberg Business Week on news stands, online at Bloomberg dot com and on the Bloomberg Terminal. I'm Carol Master, and be sure to check out Bloomberg Business Week Radio Monday Friday at two pm Wall Street Time on Bloomberg Radio. You can also catch us on our daily podcast feed. Find that at Bloomberg dot com,

Apple Podcasts, or wherever you download your podcast. Watch us too on YouTube search Bloomberg Global News