3 days ago
Researchers trace drugs and diseases from DNA drifting through city air
DNA is in the air, and scientists are finally learning how to read it.
In Dublin — a city known for its cozy pubs, flowing Guinness, and music that spills into cobbled streets — researchers have discovered something far less visible drifting through the air: traces of cannabis, poppy, and even psychedelic mushrooms.
Not the plants themselves, but their DNA.
A groundbreaking study by scientists at the University of Florida reveals that environmental DNA, or eDNA, vacuumed straight from the air, can offer stunning insights into the world around us. These range from identifying endangered wildlife and tracking human pathogens to detecting allergens and illicit drugs.
'The level of information that's available in environmental DNA is such that we're only starting to consider what the potential applications can be, from humans, to wildlife to other species that have implications for human health,' said David Duffy, Ph.D., lead author of the study and professor of wildlife disease genomics.
Originally designed to study sea turtles, the technique developed by Duffy and his team has since transformed into a powerful tool for decoding the biological fingerprints of nearly any environment, including air, oceans, or forests.
And all it takes is an air filter and a day in the lab to detect signs of nearly every living thing that's grown, passed through, or shed cells nearby.
'When we started, it seemed like it would be hard to get intact large fragments of DNA from the air. But that's not the case. We're actually finding a lot of informative DNA,' Duffy said in a release.
'That means you can study species without directly having to disturb them, without ever having to see them. It opens up huge possibilities to study all the species in an area simultaneously, from microbes and viruses all the way up to vertebrates like bobcats and humans, and everything in between.'
In Dublin, researchers found DNA signatures from hundreds of sources, including human pathogens, bacteria, and allergens like peanut residue and pollen.
In another striking demonstration of eDNA's potential, the researchers were able to trace the origins of bobcats and spiders by analyzing DNA captured from the air in a Florida forest.
This powerful analysis also came with remarkable speed and efficiency. The team showed that a single researcher could process DNA from every species in a given area in just a day, using compact, low-cost equipment and cloud-based software. When trying to save and conserve wildlife, knowing where an animal originates from can be as important as knowing where it currently is.
'It seems like science fiction, but it's becoming science fact,' Duffy said. 'The technology is finally matching the scale of environmental problems.'
The researchers say the implications of the study are vast. The method could help track disease outbreaks, identify endangered species, and even detect drug activity, all silently captured by the breeze.
However, the same tools can also reveal sensitive human genetic information. The researchers have called for ethical guidelines to keep pace with the fast-moving science of study has been published in Nature, Ecology and Evolution.
