The most otherworldly, mysterious forms of lightning on Earth
Our atmosphere is like one big electrical circuit: Thunderstorms are the batteries that charge it up, and lightning is the current flowing through it. On the ground we see evidence of this circuit when lightning cracks and strikes the ground, or when it lights up deep inside a thundercloud, but high above the clouds lies a secret electrical zoo full of sprites, elves, and jets.
These fantastical terms refer to light displays called transient luminous events or TLEs that occur in Earth's upper atmosphere during thunderstorms. 'TLEs are mysterious, beautiful, and uniquely different from conventional lightning, yet they connect weather, space, and electricity in one dramatic moment. They occur high above the clouds, almost silently, and are invisible to most people—but they reflect powerful processes unfolding deep within thunderstorms,' says Hailiang Huang, a Ph.D. student at the University of Science and Technology of China who studies TLEs.
The very first photographic observations of these events in 1989 captured red flashes streaking across the sky in the blink of an eye. The displays were dubbed red sprites, inspired by characters in Shakespeare's A Midsummer Night's Dream, and a medley of other fairytale names followed, as researchers discovered new types of TLEs. Today, scientists are still working to understand these curious phenomena—what causes them, how often they happen, and what they can tell us about Earth's atmosphere. Red sprites, like these captured in December 2024 in Mississippi, are by far the most common TLE observed by both researchers and photographers. A photographer snapped this image of red sprite lightning in June 2023 in Kansas. Some have described the flashes as looking like carrots or jellyfish.
Just like storm chasing, some photographers have taken to sprite chasing, searching for elusive red sprites and other TLEs above nighttime thunderstorms.
(See rare colorful lightning sprites dance above a hurricane.)
Red sprites have been observed off the coast of Europe and over the U.S. Great Plains, but in 2022, astrophotographers Angel An and Shuchang Dong captured 105 red sprites, the largest number ever seen in a single thunderstorm in South Asia, researchers recently reported in the journal Advances in Atmospheric Science.
'Red sprites are the most iconic [of TLEs],' says Huang, the lead author of the paper.
They flash into existence for just a fraction of a second in a spindly root-like system of red streaks. The phenomenon is caused by positive lightning that strikes the ground, creating an electric field that reaches up into the atmosphere, about 50 to 90 kilometers above Earth.
On the Tibetan Plateau, north of the Himalayas, thunderstorms are very common. The dramatic changes in elevation produce intense convection in the atmosphere and the churning of wet air creates clouds—a rich laboratory for studying TLEs. Yet none had been recorded there until An and Dong's storm imagery in 2022.
Huang and his collaborator Gaopeng Lu, an atmospheric physicist at the University of Science and Technology of China, developed a method to synchronize the videos and photos that An and Dong took on the Tibetan Plateau. Using satellite data and maps of the stars in the night sky to determine the timestamps of each video frame, the team linked around 70 percent of verified sprites to the parent lightning that triggered them.
To Huang, the results demonstrate the scientific value of amateur observations. 'It's exciting that this field brings together professional scientists and passionate amateurs, working side by side to understand something so ephemeral, yet so profound.'
Not only did the photographers capture a significant number of red sprites, the Himalayan storm also featured even rarer TLEs called jets and ghosts. The team found 16 secondary jets, powerful columns of often blue or purple light darting upwards into the sky, and at least four ghosts, green hazy glows that can sometimes hover above red sprites.
'While sprites [and other TLEs] may appear delicate and silent in the upper atmosphere, they are often linked to powerful, sometimes devastating weather systems,' says Huang. 'Understanding them not only satisfies our curiosity about the upper atmosphere, but also helps us learn more about the storms we face here on Earth.'
(Here's the science behind the world's strongest lightning strikes.) A database of transient luminous events
Different types of TLEs vary based on altitude, the type of lightning at play, and the chemicals present in that part of the atmosphere, but the exact causes of each type of TLE are yet to be confirmed. Since 2022, NASA's Spritacular project has tried to capture this variety, also relying on data from amateurs—hundreds of citizen scientists.
'I had been seeing wonderful images captured by the public all around the globe, shared sporadically over the internet and the science community was mostly unaware of these captures,' says Burcu Kosar, an atmospheric physicist at NASA Goddard Space Flight Center who leads the project. 'Spritacular was born to bridge this gap, connecting the public with the science community, by creating the first crowdsourced database of sprites and other TLEs.' In the U.S., transient luminous events have been seen above thunderstorms in the Great Plains and the Midwest. These were snapped in Kansas on June 19, 2020.
Spritacular invites volunteers to submit images they've captured of TLEs all around the world, and they've collected over 700 submissions from almost 900 users across 20 different countries. Participants can also help comb through the database, identifying sprites from users' images or those collected from the International Space Station.
The project aims to collect a broad data set of recorded TLEs, since most of the previous sightings have only been one-offs. If they can collect a large enough amount of observations, then Kosar and her team can start to identify patterns and trends in the data and also study rarer TLEs like ghosts and jets.
Understanding TLEs on Earth could also inform our investigations of other planets. Data from NASA's Juno mission suggests that sprites and mysterious rings of light called elves also occur in Jupiter's atmosphere.
(Does lightning strike on Venus?)
Since TLEs are so fleeting in nature, Kosar and her collaborator József Bór, a TLE researcher at the Institute of Earth Physics and Space Science in Hungary, agree that their project's strength lies in the people of Spritacular. 'I think it is the power of the community which makes Spritacular very strong for TLE-related scientific work,' says Bór. How climate might impact TLEs
The community effort that drives TLE research could help answer one of the most pressing questions around sprites and other TLEs—how climate change may impact their occurrence.
'Rising global temperatures due to climate change will impact thunderstorm intensity and frequency, this will also lead to stronger lightning activity, all of which are precursors for TLE activity,' says Kosar. 'Details are still an active area of research, but studying TLEs could become even more important for tracking how our atmosphere is changing.'
Working with climate and space scientists to understand how changing storm patterns might influence TLE activity globally is next up for the Chinese team, too. For Huang, it's an exciting field to be part of: 'It feels like exploring an atmospheric frontier. Every observation is like capturing a rare and fleeting signal from the edge of space—visually stunning and physically meaningful.'
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
29-06-2025
- Yahoo
Dementia risk 'can be reduced' by herb that's easy to grow in kitchens and gardens
Dementia affects millions of people worldwide, and the numbers are increasing. There is currently an estimated 982,000 people with dementia in the UK, and it is predicted that 1.4 million people will be living with dementia by 2040, according to the Alzheimer's Society. However, new research has emerged that suggests that a common herb that's easy to grow in your kitchen or garden can actually reduce the risk of getting the brain disorder. Rich in natural compounds that support memory and protect brain cells, this everyday plant is gaining attention as a simple yet powerful ally in the fight against dementia. The secret weapon: rosemary. The herb has long been associated with sharper memory and improved mental clarity, and even appeared in Shakespeare's Hamlet, where Ophelia stated: "There's rosemary, that's for remembrance." READ MORE: Scientist reveals that eating this one fruit a day will lower inflammation READ MORE: Early dementia symptom that could show up when you're on holiday But now modern science is exploring whether rosemary can be linked to aiding Alzheimer's disease. In a 2025 study published in Antioxidants, researchers explored the benefits of carnosic acid, which is a natural compound found in rosemary and sage. Carnosic acid is known for its antioxidant and anti-inflammatory properties, which activate the body's natural defence enzymes. However, "pure carnosic acid" is too unstable for direct use as a drug, so a more stable form called diAcCA was developed, which converts to carnosic acid in the gut, reported Scripps Research. Research showed "that when diAcCA was used to treat mouse models of Alzheimer's disease, it achieved therapeutic doses of carnosic acid in the brain and led to enhanced memory and synaptic density, or more synapses (representing the connections between nerve cells), in the brain. "Because the decline of neuronal synapses is also closely correlated to dementia in Alzheimer's disease, this approach could counteract the progression of cognitive decline." A health expert at the Independent also shared that rosemary can enhance mental clarity by boosting blood flow to the brain, delivering more oxygen and nutrients. Its calming aroma has also been linked to reduced anxiety and better sleep, both key for focus and memory. Another study conducted by a team at Northumbria University found a link between rosemary oil, lavender oil and memory performance. A doctor who participated in the study spoke to the BBC and shared: "It turns out that there are compounds in rosemary oil that may be responsible for changes in memory performance. "One of them is called 1,8-cineole - as well as smelling wonderful (if you like that sort of thing) it may act in the same way as the drugs licensed to treat dementia, causing an increase in a neurotransmitter called acetylcholine." The compound 1,8-cineole helps preserve acetylcholine, a vital brain chemical for learning and memory. By protecting this neurotransmitter, rosemary may support cognitive performance, even when we age. The doctor concluded: "The implications of this kind of research are huge, but they don't mean you need to spend your days smelling of rosemary and your night sleeping on a pillow of lavender. "The effects were measurable but modest, and they give us a clue that further research into some of the chemicals in essential oils may yield therapeutics and contribute to our understanding of memory and brain function."
Yahoo
26-06-2025
- Yahoo
The most otherworldly, mysterious forms of lightning on Earth
Our atmosphere is like one big electrical circuit: Thunderstorms are the batteries that charge it up, and lightning is the current flowing through it. On the ground we see evidence of this circuit when lightning cracks and strikes the ground, or when it lights up deep inside a thundercloud, but high above the clouds lies a secret electrical zoo full of sprites, elves, and jets. These fantastical terms refer to light displays called transient luminous events or TLEs that occur in Earth's upper atmosphere during thunderstorms. 'TLEs are mysterious, beautiful, and uniquely different from conventional lightning, yet they connect weather, space, and electricity in one dramatic moment. They occur high above the clouds, almost silently, and are invisible to most people—but they reflect powerful processes unfolding deep within thunderstorms,' says Hailiang Huang, a Ph.D. student at the University of Science and Technology of China who studies TLEs. The very first photographic observations of these events in 1989 captured red flashes streaking across the sky in the blink of an eye. The displays were dubbed red sprites, inspired by characters in Shakespeare's A Midsummer Night's Dream, and a medley of other fairytale names followed, as researchers discovered new types of TLEs. Today, scientists are still working to understand these curious phenomena—what causes them, how often they happen, and what they can tell us about Earth's atmosphere. Just like storm chasing, some photographers have taken to sprite chasing, searching for elusive red sprites and other TLEs above nighttime thunderstorms. (See rare colorful lightning sprites dance above a hurricane.) Red sprites have been observed off the coast of Europe and over the U.S. Great Plains, but in 2022, astrophotographers Angel An and Shuchang Dong captured 105 red sprites, the largest number ever seen in a single thunderstorm in South Asia, researchers recently reported in the journal Advances in Atmospheric Science. 'Red sprites are the most iconic [of TLEs],' says Huang, the lead author of the paper. They flash into existence for just a fraction of a second in a spindly root-like system of red streaks. The phenomenon is caused by positive lightning that strikes the ground, creating an electric field that reaches up into the atmosphere, about 50 to 90 kilometers above Earth. On the Tibetan Plateau, north of the Himalayas, thunderstorms are very common. The dramatic changes in elevation produce intense convection in the atmosphere and the churning of wet air creates clouds—a rich laboratory for studying TLEs. Yet none had been recorded there until An and Dong's storm imagery in 2022. Huang and his collaborator Gaopeng Lu, an atmospheric physicist at the University of Science and Technology of China, developed a method to synchronize the videos and photos that An and Dong took on the Tibetan Plateau. Using satellite data and maps of the stars in the night sky to determine the timestamps of each video frame, the team linked around 70 percent of verified sprites to the parent lightning that triggered them. To Huang, the results demonstrate the scientific value of amateur observations. 'It's exciting that this field brings together professional scientists and passionate amateurs, working side by side to understand something so ephemeral, yet so profound.' Not only did the photographers capture a significant number of red sprites, the Himalayan storm also featured even rarer TLEs called jets and ghosts. The team found 16 secondary jets, powerful columns of often blue or purple light darting upwards into the sky, and at least four ghosts, green hazy glows that can sometimes hover above red sprites. 'While sprites [and other TLEs] may appear delicate and silent in the upper atmosphere, they are often linked to powerful, sometimes devastating weather systems,' says Huang. 'Understanding them not only satisfies our curiosity about the upper atmosphere, but also helps us learn more about the storms we face here on Earth.' (Here's the science behind the world's strongest lightning strikes.) Different types of TLEs vary based on altitude, the type of lightning at play, and the chemicals present in that part of the atmosphere, but the exact causes of each type of TLE are yet to be confirmed. Since 2022, NASA's Spritacular project has tried to capture this variety, also relying on data from amateurs—hundreds of citizen scientists. 'I had been seeing wonderful images captured by the public all around the globe, shared sporadically over the internet and the science community was mostly unaware of these captures,' says Burcu Kosar, an atmospheric physicist at NASA Goddard Space Flight Center who leads the project. 'Spritacular was born to bridge this gap, connecting the public with the science community, by creating the first crowdsourced database of sprites and other TLEs.' Spritacular invites volunteers to submit images they've captured of TLEs all around the world, and they've collected over 700 submissions from almost 900 users across 20 different countries. Participants can also help comb through the database, identifying sprites from users' images or those collected from the International Space Station. The project aims to collect a broad data set of recorded TLEs, since most of the previous sightings have only been one-offs. If they can collect a large enough amount of observations, then Kosar and her team can start to identify patterns and trends in the data and also study rarer TLEs like ghosts and jets. Understanding TLEs on Earth could also inform our investigations of other planets. Data from NASA's Juno mission suggests that sprites and mysterious rings of light called elves also occur in Jupiter's atmosphere. (Does lightning strike on Venus?) Since TLEs are so fleeting in nature, Kosar and her collaborator József Bór, a TLE researcher at the Institute of Earth Physics and Space Science in Hungary, agree that their project's strength lies in the people of Spritacular. 'I think it is the power of the community which makes Spritacular very strong for TLE-related scientific work,' says Bór. The community effort that drives TLE research could help answer one of the most pressing questions around sprites and other TLEs—how climate change may impact their occurrence. 'Rising global temperatures due to climate change will impact thunderstorm intensity and frequency, this will also lead to stronger lightning activity, all of which are precursors for TLE activity,' says Kosar. 'Details are still an active area of research, but studying TLEs could become even more important for tracking how our atmosphere is changing.' Working with climate and space scientists to understand how changing storm patterns might influence TLE activity globally is next up for the Chinese team, too. For Huang, it's an exciting field to be part of: 'It feels like exploring an atmospheric frontier. Every observation is like capturing a rare and fleeting signal from the edge of space—visually stunning and physically meaningful.'
National Geographic
26-06-2025
- National Geographic
The most otherworldly, mysterious forms of lightning on Earth
Red spites, a type of transient luminous event or TLE, appear in the upper atmosphere above a thunderstorm in Oklahoma in April 2025. Our atmosphere is like one big electrical circuit: Thunderstorms are the batteries that charge it up, and lightning is the current flowing through it. On the ground we see evidence of this circuit when lightning cracks and strikes the ground, or when it lights up deep inside a thundercloud, but high above the clouds lies a secret electrical zoo full of sprites, elves, and jets. These fantastical terms refer to light displays called transient luminous events or TLEs that occur in Earth's upper atmosphere during thunderstorms. 'TLEs are mysterious, beautiful, and uniquely different from conventional lightning, yet they connect weather, space, and electricity in one dramatic moment. They occur high above the clouds, almost silently, and are invisible to most people—but they reflect powerful processes unfolding deep within thunderstorms,' says Hailiang Huang, a Ph.D. student at the University of Science and Technology of China who studies TLEs. The very first photographic observations of these events in 1989 captured red flashes streaking across the sky in the blink of an eye. The displays were dubbed red sprites, inspired by characters in Shakespeare's A Midsummer Night's Dream, and a medley of other fairytale names followed, as researchers discovered new types of TLEs. Today, scientists are still working to understand these curious phenomena—what causes them, how often they happen, and what they can tell us about Earth's atmosphere. Red sprites, like these captured in December 2024 in Mississippi, are by far the most common TLE observed by both researchers and photographers. A photographer snapped this image of red sprite lightning in June 2023 in Kansas. Some have described the flashes as looking like carrots or jellyfish. Just like storm chasing, some photographers have taken to sprite chasing, searching for elusive red sprites and other TLEs above nighttime thunderstorms. (See rare colorful lightning sprites dance above a hurricane.) Red sprites have been observed off the coast of Europe and over the U.S. Great Plains, but in 2022, astrophotographers Angel An and Shuchang Dong captured 105 red sprites, the largest number ever seen in a single thunderstorm in South Asia, researchers recently reported in the journal Advances in Atmospheric Science. 'Red sprites are the most iconic [of TLEs],' says Huang, the lead author of the paper. They flash into existence for just a fraction of a second in a spindly root-like system of red streaks. The phenomenon is caused by positive lightning that strikes the ground, creating an electric field that reaches up into the atmosphere, about 50 to 90 kilometers above Earth. On the Tibetan Plateau, north of the Himalayas, thunderstorms are very common. The dramatic changes in elevation produce intense convection in the atmosphere and the churning of wet air creates clouds—a rich laboratory for studying TLEs. Yet none had been recorded there until An and Dong's storm imagery in 2022. Huang and his collaborator Gaopeng Lu, an atmospheric physicist at the University of Science and Technology of China, developed a method to synchronize the videos and photos that An and Dong took on the Tibetan Plateau. Using satellite data and maps of the stars in the night sky to determine the timestamps of each video frame, the team linked around 70 percent of verified sprites to the parent lightning that triggered them. To Huang, the results demonstrate the scientific value of amateur observations. 'It's exciting that this field brings together professional scientists and passionate amateurs, working side by side to understand something so ephemeral, yet so profound.' Not only did the photographers capture a significant number of red sprites, the Himalayan storm also featured even rarer TLEs called jets and ghosts. The team found 16 secondary jets, powerful columns of often blue or purple light darting upwards into the sky, and at least four ghosts, green hazy glows that can sometimes hover above red sprites. 'While sprites [and other TLEs] may appear delicate and silent in the upper atmosphere, they are often linked to powerful, sometimes devastating weather systems,' says Huang. 'Understanding them not only satisfies our curiosity about the upper atmosphere, but also helps us learn more about the storms we face here on Earth.' (Here's the science behind the world's strongest lightning strikes.) A database of transient luminous events Different types of TLEs vary based on altitude, the type of lightning at play, and the chemicals present in that part of the atmosphere, but the exact causes of each type of TLE are yet to be confirmed. Since 2022, NASA's Spritacular project has tried to capture this variety, also relying on data from amateurs—hundreds of citizen scientists. 'I had been seeing wonderful images captured by the public all around the globe, shared sporadically over the internet and the science community was mostly unaware of these captures,' says Burcu Kosar, an atmospheric physicist at NASA Goddard Space Flight Center who leads the project. 'Spritacular was born to bridge this gap, connecting the public with the science community, by creating the first crowdsourced database of sprites and other TLEs.' In the U.S., transient luminous events have been seen above thunderstorms in the Great Plains and the Midwest. These were snapped in Kansas on June 19, 2020. Spritacular invites volunteers to submit images they've captured of TLEs all around the world, and they've collected over 700 submissions from almost 900 users across 20 different countries. Participants can also help comb through the database, identifying sprites from users' images or those collected from the International Space Station. The project aims to collect a broad data set of recorded TLEs, since most of the previous sightings have only been one-offs. If they can collect a large enough amount of observations, then Kosar and her team can start to identify patterns and trends in the data and also study rarer TLEs like ghosts and jets. Understanding TLEs on Earth could also inform our investigations of other planets. Data from NASA's Juno mission suggests that sprites and mysterious rings of light called elves also occur in Jupiter's atmosphere. (Does lightning strike on Venus?) Since TLEs are so fleeting in nature, Kosar and her collaborator József Bór, a TLE researcher at the Institute of Earth Physics and Space Science in Hungary, agree that their project's strength lies in the people of Spritacular. 'I think it is the power of the community which makes Spritacular very strong for TLE-related scientific work,' says Bór. How climate might impact TLEs The community effort that drives TLE research could help answer one of the most pressing questions around sprites and other TLEs—how climate change may impact their occurrence. 'Rising global temperatures due to climate change will impact thunderstorm intensity and frequency, this will also lead to stronger lightning activity, all of which are precursors for TLE activity,' says Kosar. 'Details are still an active area of research, but studying TLEs could become even more important for tracking how our atmosphere is changing.' Working with climate and space scientists to understand how changing storm patterns might influence TLE activity globally is next up for the Chinese team, too. For Huang, it's an exciting field to be part of: 'It feels like exploring an atmospheric frontier. Every observation is like capturing a rare and fleeting signal from the edge of space—visually stunning and physically meaningful.'
