James Webb telescope spots 'stingray' galaxy system that could solve the mystery of 'little red dots'

1. Space

James Webb telescope spots 'stingray' galaxy system that could solve the mystery of 'little red dots'

News By Shreejaya Karantha published 9 April 2026

A study of the fascinating galaxy system nicknamed "The Stingray" suggests that mysterious little red dots could be a phase in the evolution of galaxies powered by actively feeding black holes, rather than a distinct class of objects.

When you purchase through links on our site, we may earn an affiliate commission. Here’s how it works.

A James Webb Space Telescope view of the lensed galaxy cluster MACS J1149, where the new ‘stingray’ object was detected. (Image credit: ESA/Webb, NASA & CSA, C. Willott (National Research Council Canada), R. Tripodi (INAF - Astronomical Observatory of Rome))

• Copy link
• Facebook
• X
• Whatsapp
• Reddit
• Pinterest
• Flipboard
• Email

Share this article 0 Join the conversation Follow us Add us as a preferred source on Google Newsletter Live Science Sign up for the Live Science daily newsletter now

Get the world’s most fascinating discoveries delivered straight to your inbox.

Become a Member in Seconds

Unlock instant access to exclusive member features.

Contact me with news and offers from other Future brands Receive email from us on behalf of our trusted partners or sponsors By submitting your information you agree to the Terms & Conditions and Privacy Policy and are aged 16 or over.

You are now subscribed

Your newsletter sign-up was successful

Want to add more newsletters?

Delivered Daily

Daily Newsletter

Sign up for the latest discoveries, groundbreaking research and fascinating breakthroughs that impact you and the wider world direct to your inbox.

Signup +

Once a week

Life's Little Mysteries

Feed your curiosity with an exclusive mystery every week, solved with science and delivered direct to your inbox before it's seen anywhere else.

Signup +

Once a week

How It Works

Sign up to our free science & technology newsletter for your weekly fix of fascinating articles, quick quizzes, amazing images, and more

Signup +

Delivered daily

Space.com Newsletter

Breaking space news, the latest updates on rocket launches, skywatching events and more!

Signup +

Once a month

Watch This Space

Sign up to our monthly entertainment newsletter to keep up with all our coverage of the latest sci-fi and space movies, tv shows, games and books.

Signup +

Once a week

Night Sky This Week

Discover this week's must-see night sky events, moon phases, and stunning astrophotos. Sign up for our skywatching newsletter and explore the universe with us!

Signup +

Join the club

Get full access to premium articles, exclusive features and a growing list of member rewards.

Explore An account already exists for this email address, please log in. Subscribe to our newsletter

Astronomers have spotted an intriguing triple-galaxy system, nicknamed "The Stingray," that dates to when the universe was just over 1.1 billion years old. A new analysis of the celestial sea creature has revealed an object that may provide clues about the nature of mysterious cosmic objects dubbed "little red dots" (LRDs).

LRDs were first observed in 2022 by the James Webb Space Telescope (JWST). Astronomers initially proposed that these compact red objects, which seem to permeate the very early universe, could be galaxies that host actively feeding black holes known as active galactic nuclei (AGNs). Alternative LRD theories involve ancient supermassive stars on the verge of collapse and exotic black hole stars.

In the new study, published March 9 in the journal Astronomy & Astrophysics, astronomers reconstructed the recent star formation history of the triple-galaxy stingray. They found that interactions between galaxies may have pushed an AGN into an unusual state resembling a transition into or out of a little red dot. Astronomers dubbed the galaxy that hosts this unusual AGN a ‘transitional little red dot’ (tLRD).

You may like

• Mysterious 'dots' discovered by Webb telescope may be the first stars in the universe on the verge of collapse
• James Webb telescope saw black holes emerging from 'cocoons' near the dawn of time
• James Webb telescope reveals sharpest-ever look at the edge of a supermassive black hole

"We have all the necessary ingredients to produce such a transition: starbursts caused by galaxy interactions, an AGN, and a galaxy (tLRD) whose spectral features match almost all LRD criteria," lead study author Rosa María Mérida, an astrophysicist who studies galaxy formation and evolution at Saint Mary's University in Canada, told Live Science in an email.

The unique system's nickname came from its appearance: In early images, it resembled a stingray with a body, head and tail. However, later analysis revealed that the "tail" was formed by unrelated distant objects and had aligned by chance in the image.

The Stingray is made of three galaxies: a Balmer break galaxy that is relatively massive and evolving more steadily, a tLRD, and a satellite star-forming galaxy that is less massive and appears to have joined the system more recently.

Back to the past

Due to observational limitations, the researchers could not definitively determine how the three-galaxy system formed. Instead, they proposed a scenario based on indirect evidence. They did this by reconstructing the galaxies' star formation histories, using data from the Canadian NIRISS Unbiased Cluster Survey, one of the deepest JWST surveys to date.

Sign up for the Live Science daily newsletter now

Get the world’s most fascinating discoveries delivered straight to your inbox.

Contact me with news and offers from other Future brandsReceive email from us on behalf of our trusted partners or sponsorsBy submitting your information you agree to the Terms & Conditions and Privacy Policy and are aged 16 or over.

By comparing these histories across galaxies and incorporating relative stellar masses, the team looked for patterns that might indicate past interactions. For example, if multiple galaxies showed changes in star formation at similar timescales, that could point to a shared event, such as a close encounter. Additionally, lower-mass galaxies with weaker gravity are more susceptible to disturbance, which may trigger bursts of star formation.

The team's analysis suggested that about 100 million years ago, the tLRD galaxy experienced a burst of star formation, which was likely triggered by an interaction with the nearby Balmer break galaxy. The more massive Balmer break galaxy, however, appeared largely unaffected and evolved steadily. Later, around 10 million years ago, the smaller satellite galaxy experienced increased star formation.

"We think this is the moment when the [satellite] galaxy entered the Stingray system," Mérida noted.

What to read next

• 'A real revolution': The James Webb telescope is upending our understanding of the biggest, oldest black holes in the universe
• Oddball 'platypus galaxies' spotted by James Webb telescope may challenge our understanding of galaxy formation
• James Webb telescope breaks own record, discovering farthest known galaxy in the universe

Around that time, some activity was observed in tLRD but not in the Balmer break galaxy. By this stage, tLRD also would have been quite massive, making this behavior difficult to explain through gravitational interactions alone. This raises the question of what drove the activity in tLRD, while the Balmer break galaxy shows little change in its star formation history. This suggests factors beyond simple gravitational interactions may be at work.

The full-size view of galaxy cluster MACS J1149, home of the ‘stingray’. (Image credit: ESA/Webb, NASA & CSA, C. Willott (National Research Council Canada), R. Tripodi (INAF - Astronomical Observatory of Rome))

Part AGN, part LRD

The researchers proposed that the answer may lie in the behavior of the central black hole. Mérida explained that interactions between galaxies can trigger bursts of star formation, but the activation of an AGN can occur later. In this scenario, the earlier encounter may have first sparked star formation and then, with some delay, fueled the black hole in tLRD, pushing the galaxy into its unusual state.

The active black hole in tLRD shows spectral features of a type I AGN characterized by a bright and unobscured core. But it is also compact and bright in ultraviolet light, partly resembling a little red dot. However, it lacks one key spectral signature that almost all observed little red dots have in their light spectrum: a V-shaped feature. So it looks like a mix of both objects but not completely like either.

"This galaxy is strategically in between the little red dot population and compact Type I AGN," Mérida said. Therefore, tLRD is part AGN and part LRD, but it's unclear whether it is entering or exiting the LRD phase.

"The paper supports the idea that at least some little red dots are evolutionary phases rather than a wholly distinct class," Devesh Nandal, a postdoctoral researcher at the Harvard and Smithsonian Center for Astrophysics who was not involved in the study, told Live Science in an email. "The system is physically compact, spectroscopically confirmed, and the authors infer enhanced recent growth in the tLRD and [satellite galaxy]," compared what would be expected from their normal, internal processes, making their interaction-driven interpretation credible. However, while galaxy interactions may trigger or shut down the LRD phase, they do not fully explain the black hole's mass or the LRD phenomenon as a whole, Nandal noted.

What next?

RELATED STORIES

Mysterious 'little red dots' discovered by James Webb telescope may be the first stars in the universe on the verge of collapse

Black hole butterflies? James Webb telescope spots dozens of black hole 'cocoons' in early universe.

Not 'Little Red Dots' or roaring quasars: James Webb telescope uncovers new kind of 'hidden' black hole never seen before

If this transition phase is very short — less than about 5 million years — the chances of spotting a galaxy in that stage are very low, Mérida said. In that case, tLRD might just be a normal AGN. But if the transition lasts longer, astronomers should find many such transitional objects in current galaxy surveys. That means researchers need to do two things: carefully search existing data for more candidates, and improve theoretical models to predict how often these transitions happen and determine how to clearly identify them.

A larger sample size of such "in-between" objects and a better understanding of how long the AGN spends in active and quiet phases can establish the new results more robustly, Nandal said. A clear distinction between how the black hole is currently feeding and how the black hole originally formed is also crucial, he said. For example, the black hole may have already existed as a massive seed from a supermassive star or other origin; in that case, the LRD-like activity we observe now likely reflects later fueling or dust obscuration rather than the black hole forming from scratch.

The team plans to conduct follow-up studies on The Stingray and other LRDs found in the Canadian NIRISS Unbiased Cluster Survey. If confirmed, this transitional object would support the idea that little red dots are not a separate class of objects but a temporary phase in the evolution of a black hole system, with their behavior controlled by their surroundings.

Article Sources

Mérida, R. M., Gaspar, G., Asada, Y., Sawicki, M., Omori, K. C., Willott, C. J., Martis, N. S., Muzzin, A., Noirot, G., Rihtaršič, G., Sarrouh, G. T. E., & Tripodi, R. (2026). The rise and fall of little red dots could be driven by the environment. Astronomy and Astrophysics, 707, A212. https://doi.org/10.1051/0004-6361/202557594

What do you know about black holes? Test your knowledge with our black hole quiz!

TOPICS James Webb Space Telescope Shreejaya KaranthaLive Science contributor

Shreejaya Karantha is a science writer specializing in astronomy, covering topics such as the sun, planetary science, stellar evolution, black holes, and early universe cosmology. Based in India, she works as a writer and research specialist at The Secrets of the Universe, where she contributes to scripts for research-based and explainer videos. Shreejaya holds a bachelor's degree in science and a master's degree in physics with a specialization in astrophysics.

View More

You must confirm your public display name before commenting

Please logout and then login again, you will then be prompted to enter your display name.

Logout Read more Astronomy James Webb telescope reveals sharpest-ever look at the edge of a supermassive black hole    Black Holes 'A real revolution': The James Webb telescope is upending our understanding of the biggest, oldest black holes in the universe    Astronomy James Webb telescope breaks own record, discovering farthest known galaxy in the universe    Astronomy Oddball 'platypus galaxies' spotted by James Webb telescope may challenge our understanding of galaxy formation    Astronomy James Webb telescope solves mystery of 'forever young' vampire stars from the dawn of time    Astronomy James Webb telescope spots 'failed stars' in a breathtaking cluster near Earth — Space photo of the week    Latest in Space Comets 'RIP, Comet MAPS': Watch the superbright sungrazer become a 'headless wonder' after being ripped apart by the sun    Space Exploration There's an issue with the Artemis II heat shield, but NASA isn't worried. Here's why.    Comets How to see Comet PanSTARRS as it brightens in the night sky this week    The Moon 'So much magic': Artemis II shares first images from the far side of the moon, including new 'Earthset' and total eclipse in space    Space Exploration The Artemis II astronauts have just flown farther from Earth than any humans in history    Space Exploration Artemis II moon flyby begins: How to watch and what to know    Latest in News Comets 'RIP, Comet MAPS': Watch the superbright sungrazer become a 'headless wonder' after being ripped apart by the sun    Space Exploration There's an issue with the Artemis II heat shield, but NASA isn't worried. Here's why.    Reproductive Health 'No one knows what they are': Researchers discover new type of cell that's seen only during pregnancy    The Americas 16th-century silver coin discovered near Strait of Magellan marks the spot of a doomed Spanish colony    Climate change Western states face above-normal wildfire threats this summer. New maps reveal which areas are most at risk.    Quantum Computing Scientists create new type of encryption that protects video files against quantum computing attacks    LATEST ARTICLES

1. 1'RIP, Comet MAPS': Watch the superbright sungrazer become a 'headless wonder' after being ripped apart by the sun
2. 2Scientists create new type of encryption that protects video files against quantum computing attacks
3. 3There's an issue with the Artemis II heat shield, but NASA isn't worried. Here's why.
4. 4Western states face above-normal wildfire threats this summer. New maps reveal which areas are most at risk.
5. 5Science history: Doctor hypothesizes that 'transmissible proteins' can cause disease, contradicting a 'central dogma' of molecular biology — April 9, 1982