Scientists say airborne DNA detects wildlife, diseases, and even drugs

Source: Earth.com
The air in Dublin carries something far less visible: fragments of DNA. According to a study, genetic material from plants, animals, microbes, and even traces of illicit substances like cannabis and poppy can be found drifting through the city's atmosphere.
This discovery highlights the growing potential of
environmental DNA
(eDNA) – genetic material collected not from the organism itself, but from the surrounding environment. The presence of
airborne DNA
provides new ways to study species diversity, detect disease pathogens, and monitor human activities, all without direct contact.
Environmental DNA: A new era of wildlife and pathogen monitoring
According to earth.com, Professor David Duffy, a wildlife disease expert at the University of Florida, first created tools to study sea turtles by collecting DNA from water, sand, and soil. His team has now expanded their techniques to include air, with astonishing results.
At the Whitney Laboratory for Marine Bioscience, they used simple air filters for several hours or days. These filters were able to collect a lot of high-quality DNA. According to Professor Duffy, this new method lets scientists track all kinds of living things – from tiny microbes and viruses to hard-to-spot animals like bobcats – without needing to touch or disturb them at all.
Air DNA in urban and natural environments
In a real-world application, Duffy's team deployed their airborne DNA collection devices across Dublin. The air filters present detected hundreds of human pathogens, including viruses and bacteria. This has profound implications for public health, allowing early detection of disease outbreaks and better understanding of how infections spread. The technology also has the potential to revolutionize allergen detection, providing more precise identification of particles such as pollen or peanut dust – a valuable tool for both doctors and
public health
officials.
Ethically responsible monitoring
A single researcher can process an air sample's DNA in just one day using compact lab equipment and cloud-based analysis tools. What sets this technique apart is its speed, affordability, and accessibility.
However, with this power comes the need for ethical oversight. Since human DNA is also captured, experts emphasize the need for guidelines on data privacy and responsible sharing. 'It feels like science fiction, but it's quickly becoming science fact,' says Duffy. 'The technology is now ready to meet the scale of global environmental challenges.
Also read |
Teleios: a mysterious sphere floating in the Milky Way

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Time of India

3 days ago

• Time of India

Study says coffee might help you live longer, if you watch the additives

Drinking coffee in the morning may not only give you a morning boost but also potentially tends to increase longevity. Researchers suggest that coffee consumption is linked to a lower risk of death, but the benefits are contingent on how it's prepared. Adding excessive sugar and saturated fat, such as cream, may offset its positive effects, highlighting the importance of mindful coffee consumption to reap its potential benefits. Also, drinking more than 3 cups of coffee a day doesn't provide additional benefits, and the protective effect against heart-related deaths seems to plateau. The aim of the study was to examine the relationship between coffee intake, including the amount of additives- sugar and saturated fat, and mortality among US adults. Study highlights the impact of additives in black coffee According to the research team at the Gerald J. and Dorothy R. Friedman School of Nutrition Science and Policy took a closer look at the study published in the Journal of Nutrition , and found that moderate coffee consumption, defined as 1-2 cups per day, was associated with a lower risk of death, including heart disease. The benefits were most pronounced when coffee was consumed black or with minimal sugar and fat. However, adding large amounts of sugar and saturated fat negated the positive effects, highlighting the importance of moderation in coffee additives. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Dresden: GEERS sucht 700 Testhörer für Hörgeräte ohne Zuzahlung GEERS Undo Professor Fang Fang Zhang, senior author of the study, said, "Coffee is among the most-consumed beverages in the world, and with nearly half of American adults reporting drinking at least one cup per day, it's important for us to know what it might mean for health." Understanding coffee consumption of American adults Researchers tracked participants' coffee habits and linked them to mortality data, classifying coffee types by caffeine level, sugar content (less than 2.5g per cup considered low), and saturated fat content (less than 1g per cup considered low). The study included 46,332 adults aged 20 y and older who completed valid first-day 24-h dietary. recalls. This detailed analysis by the researchers provided insights into how coffee consumption affects mortality risk. Coffee is beneficial, until you add too much sugar Coffee contains beneficial compounds like antioxidants and anti-inflammatory agents that may help protect against diseases and support a longer, healthier life. However, loading up on cream, flavoured syrups, and sugar alters the nutritional balance, effectively transforming a healthy drink into a dessert-like treat. Adding sugar to your coffee may enhance its taste, but it can also diminish its health benefits. This subtlety is important because people often view coffee as simply good or bad. The research suggests that the truth lies between- coffee can be beneficial, but only if consumed in a way that doesn't overpower its natural benefits with excessive additives. Limitations of the study The study relied on self-reported dietary data, which can be influenced by memory and accuracy; that is why the study has some limitations. A person's reported diet may not reflect their long-term habits. Additionally, the study found no significant benefits for decaffeinated coffee. The key takeaway from the study is that coffee itself isn't the issue; rather, it's what you add to it that matters. Also read| 10 common heart health myths that you must know One step to a healthier you—join Times Health+ Yoga and feel the change

Time of India

3 days ago

• Time of India

520-million-year-old 3D preserved tiny fossil has the brain and nerves intact and it is shocking the scientists

Each newly discovered fossil adds a page to the history of living beings on Earth, and sometimes, a single page can change what we know so far. All creatures on this planet, including the Arthropods like insects, spiders, and crabs, have evolved into the complex multicellular creatures we know today. Tired of too many ads? go ad free now Their early stages of evolution, especially during the Cambrian period, more than 500 million years ago, are quite difficult to study because only a few fossils from that time are preserved well enough to give a detailed anatomy of their body structures from the past. Most ancient fossils are flat, only two-dimensional imprints, giving us limited views of external shapes. But what if we could look inside an ancient creature to its brain, organs, even nerves that tell us about the evolution in progress? Recently, researchers have found a fossil from the Cambrian period that provides one of the most detailed looks at early arthropod anatomy. Youti Yuanshi fossil is from around 520 million years ago and is preserved in 3D. Despite being no larger than a poppy seed, it has given a look into some extraordinary internal features through advanced imaging techniques. named Organ systems of a Cambrian euarthropod larva, led by Dr. Martin Smith of Durham University, the research team examined Youti yuanshi using synchrotron X-ray tomography at the UK's national facility, Diamond Light Source. This allowed them to create detailed 3D models of the fossil without damaging it. According to Dr. Smith said in a press release, 'When I used to daydream about the one fossil I'd most like to discover, I'd always be thinking of an arthropod larva'. 'But larvae are so tiny and fragile, the chances of finding one fossilized are practically zero—or so I thought!' Unexpected anatomy from half a billion years ago The fossil showed many internal organs, including brain structures, digestive glands, and early signs of a circulatory system. The most surprising part was the traces of nerves leading to the creature's legs and eyes. 'I already knew that this simple worm-like fossil was something special,' Dr. Smith added, 'but when I saw the amazing structures preserved under its skin, my jaw just dropped—how could these intricate features have avoided decay and still be here to see half a billion years later?' This tells about how the arthropods developed over time According to reports by Dr. Tired of too many ads? go ad free now Katherine Dobson of the University of Strathclyde said, 'It's always interesting to see what's inside a sample using 3D imaging, but in this incredibly tiny larva, natural fossilisation has achieved almost perfect preservation.' The fossil's internal brain structure, particularly the protocerebrum, provides important information on how arthropods developed segmented body parts and complex organs. Why does it matter for today's biodiversity? Youti Yuanshi doesn't just show us where insects came from; it helps us understand why biodiversity looks the way it does today. Fossils like this help scientists trace the roots of body plans that are still successful hundreds of millions of years later. It's a powerful reminder of how adaptable and innovative life can be through evolution.

Time of India

3 days ago

• Time of India

Moon's volcanic history trapped in tiny glass beads: A valuable clue for NASA

Source: Astronauts have discovered tiny glass beads , called 'Moon beads,' in lunar soil brought back by the Apollo 17 mission . These beads are valuable to scientists to learn more about the Moon's past. The size of these beads is less than a millimeter, and they were formed 3.3 billion years ago, during volcanic eruptions of the moon. As the molten lava blasted into space, it cooled and solidified instantly, forming tiny glass beads that contain valuable information about the Moon's volcanic history. The orange ones, rich in titanium, provide clues about the Moon's magma and volcanic activity. Scientists are now focusing on the outside of these beads, where tiny minerals reveal clues about ancient volcanic activity. Know about the moon beads discovered The moon beads contain trapped gases that haven't escaped. Studies have found that these beads contain water, challenging the previous notion that the Moon is dry. The moon beads are composed of sphalerite, starting with high iron content at the base and becoming purer zinc towards the top, indicating that volcanic eruption clouds cooled and thinned as the beads travelled. The sparkle on the glass beads comes from tiny mounds of zinc sulfide, just billionths of an inch high. Similar beads have been found from other areas, which have coatings of sodium chloride, gallium, or fluorine, supporting the idea that the eruption clouds contained volatile metals. Despite being only a few hundred atoms thick, these films provide detailed information about pressure, temperature, and gas composition, and also explain why the beads sparkle against the lunar landscape. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Solicite sua Certidão. Envio para todo o Brasil. DocnoBr New instruments reveal insights about moon beads According to the journal published in Icarus ( , Ogliore's lab utilized a NanoSIMS instrument that strikes samples with ions and counts fragments one atom at a time. Microscopes and an atom probe tomography system at partner institutions helped scientists in providing a better picture. Today's advanced equipment can precisely analyse these thin coatings, mapping every element with high detail, unlike earlier Apollo studies that could only note the bead's colour and couldn't inspect coatings thinner than a red blood cell. What moon beads reveal about the lunar history Understanding how volatiles behaved in ancient lunar eruptions can help scientists better model the distribution of resources such as sulfur and zinc on the moon. The tiny mineral coatings provide valuable information about gas flow and volcanic activity, which can be used to calibrate the seismic and orbital data. This is particularly important for NASA's Artemis mission, which aims to land near pyroclastic plains similar to where the beads were found. The beads reveal that the Moon's volcanic past was more dynamic than previously thought, with eruptions ejecting material into space and preserving complex gas chemistry. By analysing the minerals on the bead surfaces, scientists can now study the rapid changes in gas pressure and composition that occurred during these eruptions, providing new insights into volcanic activity in a vacuum Study of the moon beads The study of these lunar glass beads sheds light on the Moon's volcanic past and provides insights into similar processes that might occur on the airless worlds, like Mercury or asteroids. By understanding these processes, scientists can better interpret samples from future missions to other celestial bodies. This broader perspective helps researchers compare the geological histories of different planets and refine their understanding of how planetary bodies interact with volatiles. Further research aims to analyse beads from different core samples to track changes in eruption styles and search for signs of extremely low-pressure eruptions. The Moon still holds many secrets, but continued advancements in technology and collaboration between scientists will help uncover its hidden history. Also read: Astronomers discover high-altitude clouds darkening skies in YSES-1 system