Fungi and bacteria could be used to build homes one day, new study suggests

Living in a house made of fungi and bacteria may sound like the stuff of science fiction, but researchers are now one step closer to eventually making it a reality, according to a new study.
A research team in Montana grew dense, spongy tangles of mycelium — the rootlike structure that connects fungal networks underground — as a framework to create a living, self-repairing building material.
The ability to create durable, load-bearing structures with living material is still many years away. However, this discovery is an important step toward creating a sustainable alternative to cement, the binding agent in concrete, said Chelsea Heveran, senior author of the study published April 16 in the journal Cell Reports Physical Science.
More than 4 billion metric tons (4.4 billion tons) of cement is manufactured annually, contributing about 8% of global carbon dioxide emissions, according to London-based think tank Chatham House. This means if cement production were a country, it would rank third after China and the United States based on 2023 emissions.
'We asked 'what if we could do it a different way using biology?' That's the vision,' said Heveran, who is an assistant professor of mechanical and industrial engineering at Montana State University Bozeman.
The study authors introduced bacteria capable of producing calcium carbonate — the same chemical compound found in coral, eggshells and limestone — to the fungal mycelium, which served as scaffolds. Through a process called biomineralization, the calcium carbonate hardened the gooey, flexible mycelium into a stiff, bonelike structure.
'We're not the first ones to biomineralize something and call it a building material. … But if you want to keep (the bacteria) alive for longer so that you can do more with them, there's been some challenges involved to extend that viability,' Heveran said. 'So that's why we gave them fungal mycelium scaffolds, because the mycelium is really robust, and in nature, sometimes it biomineralizes (itself).'
The team experimented with letting the fungus, called Neurospora crassa, biomineralize on its own but found that killing it and then adding the microbes helped achieve a stiffer material in less time. The bacteria, called Sporosarcina pasteurii, created crystalline nets of calcium carbonate around the fungal threads after metabolizing urea, which is like food for the bacteria.
While other biomineralized building materials are only considered 'living' for a few days, Heveran said her team was able to keep the microbes active for at least four weeks, and eventually, that period could extend to months or even years.
'We're really excited in our next work to ask the questions 'could we seal a crack in the material?' Or 'could we sense something using these bacteria?' Like, imagine you had poor air quality in your building, and these bricks were your walls. Could they light up to (indicate) that?' Heveran said. 'Before, we couldn't do any of that because the microbes weren't alive enough, but they're very alive now.'
Before being used for homes, fences or other construction, a lot more testing is needed to find a living building material to replace cement, said Avinash Manjula-Basavanna, a bioengineer who was not involved in the study.
'These kinds of experiments are done on a small scale. … They are not necessarily a reflection of the bulk material properties,' said Manjula-Basavanna, who is senior research scientist at Northeastern University in Boston. 'It's not stiffness that people are interested in when it comes to construction materials. It is the strength, (the) load-bearing ability.'
While the strength and durability of living building materials is not on par with concrete yet, Heveran said mycelium is still a promising base. Thanks to its flexibility, the sticky substance could be shaped to include vascular-like channels within beams, bricks or walls.
Much like blood vessels in the human body, cells within living building materials need structures capable of delivering nutrients to stay alive. However, adding these structures into the design of building materials could make them weaker, presenting a challenge for future studies, Manjula-Basavanna said.
'I think in the future, they could be useful for single-story buildings, these smaller structures — it's very much feasible,' Manjula-Basavanna said. 'It might be five to 10 years down the line.'
Fungus is also a potential respiratory hazard, and though killing the mycelium reduces its allergen-producing ability, more research should be done before it's considered safe to inhabit, Heveran said.
'It's very clear to conceptualize a test framework by which the materials need to be strong enough, because those kinds of standards exist already,' Heveran said. 'But we don't have regulatory standards for my bricks that have cells in them.'
It's safe to say you won't see fungus bricks sold at your local home improvement store any time soon.
Heveran's team is just one of many in the country exploring the possibilities of mycelium, which has been used for other, softer items such as packaging and insulation.
Several government agencies are already interested in the possible use cases of living building materials, Heveran said.
'There's a lot of 'ifs' that would have to come into play for the average household to have a cost benefit from this,' Heveran said.
'But for society, it might be a lot cheaper when you're trying to build infrastructure for a community that really needs it, or if you're trying to build infrastructure in space, this might be a lot easier than carting cement and concrete up there,' she explained. 'The possibilities are really exciting to me.'

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

CNBC

11 hours ago

• CNBC

Encountered a problematic response from an AI model? More standards and tests are needed, say researchers

As the usage of artificial intelligence — benign and adversarial — increases at breakneck speed, more cases of potentially harmful responses are being uncovered. These include hate speech, copyright infringements or sexual content. The emergence of these undesirable behaviors is compounded by a lack of regulations and insufficient testing of AI models, researchers told CNBC. Getting machine learning models to behave the way it was intended to do so is also a tall order, said Javier Rando, a researcher in AI. "The answer, after almost 15 years of research, is, no, we don't know how to do this, and it doesn't look like we are getting better," Rando, who focuses on adversarial machine learning, told CNBC. However, there are some ways to evaluate risks in AI, such as red teaming. The practice involves individuals testing and probing artificial intelligence systems to uncover and identify any potential harm — a modus operandi common in cybersecurity circles. Shayne Longpre, a researcher in AI and policy and lead of the Data Provenance Initiative, noted that there are currently insufficient people working in red teams. While AI startups are now using first-party evaluators or contracted second parties to test their models, opening the testing to third parties such as normal users, journalists, researchers, and ethical hackers would lead to a more robust evaluation, according to a paper published by Longpre and researchers. "Some of the flaws in the systems that people were finding required lawyers, medical doctors to actually vet, actual scientists who are specialized subject matter experts to figure out if this was a flaw or not, because the common person probably couldn't or wouldn't have sufficient expertise," Longpre said. Adopting standardized 'AI flaw' reports, incentives and ways to disseminate information on these 'flaws' in AI systems are some of the recommendations put forth in the paper. With this practice having been successfully adopted in other sectors such as software security, "we need that in AI now," Longpre added. Marrying this user-centred practice with governance, policy and other tools would ensure a better understanding of the risks posed by AI tools and users, said Rando. Project Moonshot is one such approach, combining technical solutions with policy mechanisms. Launched by Singapore's Infocomm Media Development Authority, Project Moonshot is a large language model evaluation toolkit developed with industry players such as IBM and Boston-based DataRobot. The toolkit integrates benchmarking, red teaming and testing baselines. There is also an evaluation mechanism which allows AI startups to ensure that their models can be trusted and do no harm to users, Anup Kumar, head of client engineering for data and AI at IBM Asia Pacific, told CNBC. Evaluation is a continuous process that should be done both prior to and following the deployment of models, said Kumar, who noted that the response to the toolkit has been mixed. "A lot of startups took this as a platform because it was open source, and they started leveraging that. But I think, you know, we can do a lot more." Moving forward, Project Moonshot aims to include customization for specific industry use cases and enable multilingual and multicultural red teaming. Pierre Alquier, Professor of Statistics at the ESSEC Business School, Asia-Pacific, said that tech companies are currently rushing to release their latest AI models without proper evaluation. "When a pharmaceutical company designs a new drug, they need months of tests and very serious proof that it is useful and not harmful before they get approved by the government," he noted, adding that a similar process is in place in the aviation sector. AI models need to meet a strict set of conditions before they are approved, Alquier added. A shift away from broad AI tools to developing ones that are designed for more specific tasks would make it easier to anticipate and control their misuse, said Alquier. "LLMs can do too many things, but they are not targeted at tasks that are specific enough," he said. As a result, "the number of possible misuses is too big for the developers to anticipate all of them." Such broad models make defining what counts as safe and secure difficult, according to a research that Rando was involved in. Tech companies should therefore avoid overclaiming that "their defenses are better than they are," said Rando.

New York Post

a day ago

• New York Post

Dog's ashes among dozens to rocket into orbit this weekend

Bone voyage! A beloved dog named Franz will take his final leap this weekend — into Earth's orbit. The yellow labrador's ashes will be on board the inaugural Perseverance Flight from Texas-based Celestis Inc., which is scheduled to launch around 5:30 p.m. Sunday from Vandenberg Space Force Base in Santa Barbara, CA. 4 Franz was like a sibling to Elizabeth Moore before he died at age 13 in October 2020. Celestis, Inc Carrying a total of 166 titanium and aluminum capsules, each about a quarter to a half-inch in size and filled with DNA or cremated remains, the 23-foot-tall SpaceX Falcon 9 rocket will take two trips around Earth's low orbit at a mind-boggling 17,000 mph. The space flight will last about three hours before the rocket — still carrying its priceless payload — re-enters the atmosphere and lands in the Pacific Ocean somewhere between Alaska and Hawaii, according to Celestis CEO and co-founder Charles Chafer. A recovery ship, which was already out at sea Friday in anticipation of the launch, 'will track the incoming rocket, hopefully get a visual on it, and then go pick it up out of the ocean,' Chafer explained. 4 The Texas-based company Celestis Inc.'s inaugural Perseverance Flight will take two trips around Earth's Lower Orbit after blastoff on Sunday. The capsules will first be transported to Germany, then, within two months, distributed back to the families, who each paid a whopping $3,500 to send their loved one to the stars. While the price to send Franz on the voyage was 'a lot more' than the pooch itself, his owner, Harvin Moore, said with a laugh, it was only fitting for the 'space-fanatic' Moore family to send the pup beyond the stratosphere. 'He was the best dog, just so soft and nice and loved hugs,' recalled Moore, 60, who lives in Dripping Springs, Texas, just outside Austin. 4 The Moore family can't wait to watch their beloved pooch go galactic. Celestis, Inc Franz, who was 13 when he died in October 2020, was more like a sibling than a pet to Moore's now 26-year-old daughter, Elizabeth, and son, Quinn, 21, he said. Now, the family can't wait to watch the good boy go galactic. 'The emotional power of being with a group of people who are celebrating the life of a loved one in this way … it's amazing. It's nothing we'll ever forget,' said Moore. 'It's just pure joy.' 4 The Perseverance Flight will carry a total of 166 titanium and aluminum capsules, ranging in size from a quarter to a half-inch, filled with DNA or cremated remains. Celestis, Inc 'Many people whose ashes and DNA are flying are people that always wanted to go to space in their lifetime but were never able to do that. It also helps families move from feelings of grief to joy,' Chafer said. The cremated remains of Wesley Dreyer — an aerospace engineer who helped investigate the cause of the Space Shuttle Challenger's shocking explosion after takeoff on Jan. 28, 1986 — will also be on board the Perseverance Flight, as well as DNA from a living, 3-year-old German boy.

a day ago

NASA spacecraft around the moon photographs the crash site of a Japanese company's lunar lander

CAPE CANAVERAL, Fla. -- A NASA spacecraft around the moon has photographed the crash site of a Japanese company's lunar lander. NASA released the pictures Friday, two weeks after ispace's lander slammed into the moon. The images show a dark smudge where the lander, named Resilience, and its mini rover crashed into Mare Frigoris or Sea of Cold, a volcanic region in the moon's far north. A faint halo around the area was formed by the lunar dirt kicked up by the impact. NASA's Lunar Reconnaissance Orbiter captured the scene last week. The crash was the second failure in two years for Tokyo-based ispace. Company officials plan to hold a news conference next week to explain what doomed the latest mission, launched from Cape Canaveral in January. ___ The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute's Department of Science Education and the Robert Wood Johnson Foundation. The AP is solely responsible for all content.