Canadian researchers solve 12-year mystery of sea star wasting disease
Melanie Prentice, the lead author of a new study, recalls a moment of 'not really believing it' when researchers found a strain of bacteria that was abundant in diseased sea stars and absent in healthy ones.
'My initial reaction was like, 'Okay, so I've done something wrong,'' she said.
Prentice said the team spent months trying to disprove their findings, ultimately confirming they had cracked the code of the disease.
They found the bacterium Vibrio pectenicida is a clear cause of sea star wasting disease.
'(It's) a question that researchers have been trying to answer for about 12 years, so we're beyond thrilled,' said Prentice, a research associate at the Hakai Institute and the University of B.C. department of earth, ocean and atmospheric sciences.
The paper detailing the four-year research project and its findings were published online in the peer-reviewed journal Nature Ecology & Evolution on Monday.
Alyssa Gehman, who helped launch the project in 2021, described the disease as 'gruesome,' causing sea stars to develop lesions, lose their arms and 'disappear into mush' about a week or two after exposure to the pathogen.
It has been especially deadly for sunflower sea stars, killing about six billion of the species that can sprout 24 arms and span up to a metre.
The giant sea stars are now considered functionally extinct across much of their former range off the coast of the continental United States, with losses exceeding 87 per cent in the 'northern refuges' where they still persist, the study said.
The collapse has had cascading impacts, including widespread losses of ecologically, culturally and economically important kelp forests.
'I think we didn't really appreciate how important they were until we lost them,' Prentice said, describing the orange, purple or brown sunflower stars as a 'keystone' species with an outsized impact on their ecosystem.
The giant sea stars are top predators, striking fear into other invertebrates.
'Almost everything that lives on the ground underwater runs away from them when they're coming,' said Gehman, a marine disease ecologist at the Hakai Institute and an adjunct professor at the University of B.C.'s Institute of Oceans and Fisheries.
They keep sea urchin populations in check, in turn ensuring the health of help forests that provide habitat and food for numerous other species.
The devastation of the sunflower sea stars has caused a 'total ecosystem shift,' Prentice said, transforming biodiverse kelp forests into 'urchin barrens.'
The bacterium that causes sea star wasting disease had remained elusive for more than a decade since sea stars were first observed dying in large numbers in 2013. The same bacterium has been known to attack scallop larvae.
Prentice said the breakthrough came after the research team switched from examining diseased tissues to focusing on the sea stars' coelomic fluid, likening it to the blood of the sea star.
Earlier research had involved running the tissues through tiny membrane filters that would have excluded bacteria, which are typically larger than viruses, she explained.
The Hakai Institute team started by replicating the initial experiments, but they weren't able to cause disease in healthy sea stars, she said.
'We were doing everything we could and we were just never ever able to cause disease, and so to us that suggested that the pathogen is larger than a virus.'
However, after pivoting to coelomic fluid, which Prentice described as 'essentially sea water,' the researchers did trigger disease in healthy sea stars.
'That suggested that the pathogen was in that fluid, and so then we just end up working with a much cleaner, easier tissue type to investigate,' she said.
From there, Prentice created a list of all the different microbial species found in wasting sea stars and compare it against the healthy stars in the lab.
'I finally got to a place where I generated these different lists and it was very evident right away that there (were) tons of different Vibrio species within our wasting sea stars and we weren't really seeing that in our healthy sea stars,' she said.
Prentice said she then filtered the genetic data to look at each strain of Vibrio bacteria, which led to their eureka moment with Vibrio pectenicida.
'We just saw it in every single wasting sea star sample, and then we looked at our controls and it was just not in any of them,' she said.
Prentice said other researchers had wished her 'good luck' when she joined the project, but there was skepticism over whether they would solve the mystery.
It felt 'incredible' to be part of a discovery that could help make a meaningful difference in the recovery of sea stars and their ecosystems, she said.
Gehman, too, said she wasn't sure the project would result in a singular answer.
'I thought it would be complicated. I thought there would be multiple things relying on other things,' she said. 'This was much clearer than I was expecting.'
The discovery allows researchers to turn their efforts to deeper questions, including the possible role of warming ocean temperatures and the potential to breed sea stars in captivity to promote disease resistance and spur recovery, she said.
The disease now appears to be seasonal, with outbreaks occurring in the warmer months, suggesting temperature may be a factor, said Gehman, adding she will soon conduct temperature experiments to investigate further.
'Does Vibrio pectenicida grow faster at warmer temperatures and the sea star can sort of survive at the growth rates at cooler temperatures, but when you get to warmer temperatures, they can't, is that what's happening?'
The findings could help researchers understand where sea stars may struggle or survive with climate change in the future, Gehman said.
Prentice said there are 'remnant' populations of sunflower stars along the B.C. coast, and its 'very possible' some could be more resistant to the wasting disease.
She said finding and selectively breeding sea stars with a higher capacity to fight off the disease could produce 'superstar' sea stars for reintroduction in the wild.
'It seems like science fiction sometimes, but people are working on it,' she said.
This report by The Canadian Press was first published Aug. 4, 2025.
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4 days ago
After a decade of death, Canadian scientists say they've found the sea star killer
Scientists say they have found the cause behind the disease that turns vibrant, 24-armed sea stars into puddles of goo. Melanie Prentice, a research scientist at the Hakai Institute, is part of a team that has spent years investigating the cause of this disease. Their research was published on Monday in the journal Nature Ecology and Evolution (new window) . "The agent is a bacteria. It's called Vibrio pectinicida ," Prentice told CBC News. After a decade of these creatures being pushed to the brink of extinction, experts say this is the first step in a road to recovery, not just for this species, but for a critical support in humanity's defence against climate change. Twisted arms that walk away The most affected species are sunflower sea stars, which once boasted a range along the west coast of North America, from Baja California to Alaska. Then, in 2013, a mass die-off occurred from sea star wasting disease. Enlarge image (new window) Alyssa Gehman is seen diving in in the Burke Channel, one of the fiords along B.C.'s Central Coast. She is making notes on sea stars there. Photo: Bennett Whitnell/Hakai Institute And it's a gruesome end. Their arms kind of twist back on themselves, so they get kind of into puzzle pieces, said Alyssa Gehman, a marine disease ecologist who is also part of the Hakai Institute research team. They then tend to lose their arms, and then, their arms will sort of walk away from their bodies. Soon after, Gehman says that lesions form and the sea stars dissolve and die. The paper estimates that more than 87 per cent of sunflower sea stars in northern parts of the west coast have been killed. In the southern habitat ranges, the species is considered functionally extinct. When it first happened, it was just fields and fields of puddles of dying sea star goo, said Sara Hamilton, science co-ordinator for the Oregon Kelp Alliance. Hamilton was not involved in the research. It was like something out of a horror movie. The hunt for the star killer Multiple theories identifying the cause either didn't pan out or were disproven. What the team did in this case was take healthy sea stars into the lab and expose them to infection. They did this over several years to try and isolate the cause. Enlarge image (new window) A wasting sunflower sea star off Calvert Island in B.C. Photo: Grant Callegari/Hakai Institute Gehman explained the process: We take body fluid or tissue from a sick star and then we put that experimentally into other sea stars that we know are healthy. The paper's result was that 92 per cent of these exposures worked in transmitting the disease to the healthy star — killing it within 20 days. These experiments also revealed that Vibrio pectinicida was the most likely culprit. Experts are impressed with the paper's diligence and effort. They didn't just stop when they found one level of evidence — they went and found a second level of evidence and a third level of evidence, said Hamilton, from Oregon Kelp Alliance. Amanda Bates, ocean conservation professor at the University of Victoria, also said there's a pathway — essentially that you isolate disease agents and link them to being a cause of an outbreak — and this research team followed those processes perfectly. Hope for recovery Knowing the cause provides hope for restoration efforts, experts say. Now we can go out and actually do tests and see the actual prevalence of this pathogen in the field, said Gehman. Furthermore, any captive breeding programs that are trying to restore sea star populations can now screen and test those populations before putting them back into a risky environment. Enlarge image (new window) Melanie Prentice, a research scientist at the Hakai Institute, is part of a team that has spent years investigating the cause of the sea star wasting disease. Photo: Bennett Whitnell/Hakai Institute Hamilton agrees. That's one of the things we're most worried about with some of these recovery efforts, she said. If we do captive breeding and outplant, we certainly don't want to introduce … a new outbreak of the disease. The lost decade Bates, who has seen this disease as far back as 2009, is cautious about the rush to recovery. While we know disease impacts us as humans, I think we often forget that it impacts wildlife, she told CBC News. "We're a decade on since that really big mass mortality event, and we still don't have pycnopodia [sunflower sea stars] recovering in many places." Hamilton said the reintroduction of sunflower sea stars will be valuable because of what their absence has meant for ecosystems. Sea urchin populations have gone up — which also means kelp forests have been decimated. Urchins are kind of like the goats of the ocean, she said. They'll eat anything, they just mow things down. Enlarge image (new window) A sunflower sea star in the Burke Channel, one of the fiords along B.C.'s Central Coast. The species eats sea urchins, which have been blamed for eating kelp forests along the coast and causing ripple effects along the food chain. Photo: Grant Callegari/Hakai Institute Restoring the sea star means kelp forests might once again thrive. This will likely mean improvements to biodiversity, food, tourism as well as serve as coastline defences against erosion and storms supercharged by climate change. It's definitely our ally in the climate crisis, Prentice said. I think when we're talking about sea star wasting disease, we're not just talking about the sea star species — which we love in their own right — but entire marine ecosystems that have collapsed because of this epidemic. Bridget Stringer-Holden (new window) · CBC News Bridget Stringer-Holden is a 2024 Joan Donaldson CBC News Scholar, currently working as an associate producer. She graduated from UBC's Master of Journalism program and is passionate about science and climate reporting. Her work has been featured in The Globe and Mail, Vancouver Magazine, B.C. Business, The Vancouver Sun, The Georgia Straight and a variety of student papers, podcasts and radio stations. You can reach her at
The Province
5 days ago
- The Province
B.C. researchers now know what's causing billions of sea stars to die
Sea star wasting disease — which causes them to lose their arms and disintegrate into goo — killed off 90 per cent of sunflower sea stars. UBC and Hakai Institute researcher Alyssa Gehman diving in Burke Channel. B.C. researchers have discovered what's causing billions of sea stars to die from a wasting disease. Photo by Bennett Whitnell/Hakai Institute B.C. researchers have unlocked the mystery of why billions of sea stars have died over the past decade from B.C. to Alaska and to Mexico. This advertisement has not loaded yet, but your article continues below. THIS CONTENT IS RESERVED FOR SUBSCRIBERS ONLY Subscribe now to read the latest news in your city and across Canada. Exclusive articles by top sports columnists Patrick Johnston, Ben Kuzma, J.J. Abrams and others. Plus, Canucks Report, Sports and Headline News newsletters and events. Unlimited online access to The Province and 15 news sites with one account. The Province ePaper, an electronic replica of the print edition to view on any device, share and comment on. Daily puzzles and comics, including the New York Times Crossword. Support local journalism. SUBSCRIBE TO UNLOCK MORE ARTICLES Subscribe now to read the latest news in your city and across Canada. Exclusive articles by top sports columnists Patrick Johnston, Ben Kuzma, J.J. Abrams and others. Plus, Canucks Report, Sports and Headline News newsletters and events. Unlimited online access to The Province and 15 news sites with one account. The Province ePaper, an electronic replica of the print edition to view on any device, share and comment on. Daily puzzles and comics, including the New York Times Crossword. Support local journalism. REGISTER / SIGN IN TO UNLOCK MORE ARTICLES Create an account or sign in to continue with your reading experience. Access articles from across Canada with one account. Share your thoughts and join the conversation in the comments. Enjoy additional articles per month. Get email updates from your favourite authors. THIS ARTICLE IS FREE TO READ REGISTER TO UNLOCK. Create an account or sign in to continue with your reading experience. Access articles from across Canada with one account Share your thoughts and join the conversation in the comments Enjoy additional articles per month Get email updates from your favourite authors An international study, published Monday in Nature Ecology and Evolution and led by researchers at the University of B.C., the B.C.-based Hakai Institute, and the University of Washington, found that sea star wasting disease is caused by a strain of the bacterium Vibrio pectenicida — one that is related to cholera in humans. Other vibrio species can cause disease in corals and oysters. Sea star wasting disease is considered one of the largest marine epidemics documented, said Alyssa Gehman, senior author of the study and a marine disease ecologist at the Hakai Institute and UBC. Gehman said they estimate about six billion sunflower stars have been lost, and that's just one of 26 species of sea star affected by the disease. Essential reading for hockey fans who eat, sleep, Canucks, repeat. By signing up you consent to receive the above newsletter from Postmedia Network Inc. Please try again This advertisement has not loaded yet, but your article continues below. UBC and Hakai Institute researcher Alyssa Gehman at Marrowstone marine field station in Washington state. Photo by Kristina Blanchflower/Hakai Inst She said the four-year investigation into the cause was challenging because scientists understand very little about sea stars and what types of pathogens they carry. 'The other big challenge is that right after this disease outbreak, it killed many, many sea stars. And to do the type of work that we did, you need to have animals that don't have the disease, and particularly in sunflower stars, right after the big outbreak there were several years where most had died,' she said. 'We lost 90 per cent of the global population of sunflower stars.' She said sunflower stars, now considered a critically endangered species, used to be abundant in B.C. and could be found in places like the waters off Stanley Park. 'Now there's very little chance you will see them.' This advertisement has not loaded yet, but your article continues below. Photos show sunflower sea stars with wasting disease off Calvert Island. Photo by Grant Callegari/Hakai Institute Photos show sunflower sea stars with wasting disease off Calvert Island. Photo by Grant Callegari/Hakai Institute It's a disease that sounds like something out of a horror film. The sunflower stars start twisting their arms before they deflate, said Gehman. 'They can kind of look like a partially deflated balloon. They'll have wrinkles in their in their skin, you can sometimes get lesions, or sort of like holes in their dermis, where their organs will fall out … and then the next stage is they'll lose an arm,' she said. 'The arm will sort of walk away from the body, it's really horrifying.' Then, they will lose the rest of their arms and begin to disintegrate. 'They sort of end up just being a goopy pile of former sea star. It's horrible,' she said. Sea stars are important to the ocean ecosystem because they are what scientists call a keystone species, keeping nature in balance. This advertisement has not loaded yet, but your article continues below. With the loss of sea stars, one of their main food sources — sea urchins — began to thrive and when that happened urchins munched on kelp forests, decimating some of these important carbon sinks. Kelp forests also provide habitat for an abundance of marine life and protect coastlines from storms. Urchin barren in Hakai Pass. With billions of sea stars dying from a wasting disease, urchins thrive and destroy kelp forests. Photo by Grant Callegari/Hakai Institute The team of scientists discovered the bacteria was the cause by conducting a series of challenge studies, where they collected healthy sea stars and quarantined them for two weeks to ensure they were disease free. Then they would collect some from the wild showing signs of the start of the disease and conduct experiments on how it was transmitted. Vibrio bacterium on the plate. B.C. researchers have discovered the cause of billions of sea stars dying from a wasting disease. Photo by Toby Hall/Hakai Institute Now that scientists have identified the pathogen that causes the wasting disease, they can start to look into where it came from and what's causing it. This advertisement has not loaded yet, but your article continues below. 'It's exciting that we have the opportunity to actually look into that. And there's lots of different ways for us to start to piece together what happened, but at this point, we don't actually know where it came from,' said Gehman. Gehman said they believe there is a link between rising ocean temperatures and wasting disease because other species of vibrio are known to thrive in warmer water. Also, she said there have been 'refuge areas' where the outbreaks haven't been as bad and they are in cooler water, such as B.C.'s Central Coast. 'So if the sea stars are in cooler water, it seems like consequences of the disease is lower,' she said, adding more research is needed to understand how temperature plays a role in the wasting disease. This advertisement has not loaded yet, but your article continues below. The team can also start to look into a cure. Gehman said there has been success with coral in using probiotics to fight off disease so that might be one avenue for exploration with sea stars. She said scientists in the U.S. are breeding and raising sunflower stars in the lab in an attempt to try to find stars that are resistant to this pathogen. 'If we find resistant stars, and we're able to raise them, maybe we can help the populations survive into the future,' she said. Pycnopodia sea stars in Burke Channel. B.C. researchers have discovered what's causing billions of sea stars to die from a wasting disease. Photo by Bennett Whitnell/Hakai Institute The study was also in collaboration with the Nature Conservancy, the Tula Foundation, the U.S. Geological Survey's Western Fisheries Research Center, and the Washington Department of Fish and Wildlife. ticrawford@ Read More
Winnipeg Free Press
5 days ago
- Winnipeg Free Press
Scientists say they have solved the mystery of what killed more than 5 billion sea stars
WASHINGTON (AP) — Scientists say they have at last solved the mystery of what killed more than 5 billion sea stars off the Pacific coast of North America in a decade-long epidemic. Sea stars – often known as starfish – typically have five arms and some species sport up to 24 arms. They range in color from solid orange to tapestries of orange, purple, brown and green. Starting in 2013, a mysterious sea star wasting disease sparked a mass die-off from Mexico to Alaska. The epidemic has devastated more than 20 species and continues today. Worst hit was a species called the sunflower sea star, which lost around 90% of its population in the outbreak's first five years. 'It's really quite gruesome,' said marine disease ecologist Alyssa Gehman at the Hakai Institute in British Columbia, Canada, who helped pinpoint the cause. Healthy sea stars have 'puffy arms sticking straight out,' she said. But the wasting disease causes them to grow lesions and 'then their arms actually fall off.' The culprit? Bacteria that has also infected shellfish, according to a study published Monday in the journal Nature Ecology and Evolution. The findings 'solve a long-standing question about a very serious disease in the ocean,' said Rebecca Vega Thurber, a marine microbiologist at University of California, Santa Barbara, who was not involved in the study. It took more than a decade for researchers to identify the cause of the disease, with many false leads and twists and turns along the way. Early research hinted the cause might be a virus, but it turned out the densovirus that scientists initially focused on was actually a normal resident inside healthy sea stars and not associated with disease, said Melanie Prentice of the Hakai Institute, co-author of the new study. Other efforts missed the real killer because researchers studied tissue samples of dead sea stars that no longer contained the bodily fluid that surrounds the organs. But the latest study includes detailed analysis of this fluid, called coelomic fluid, where the bacteria Vibrio pectenicida were found. 'It's incredibly difficult to trace the source of so many environmental diseases, especially underwater,' said microbiologist Blake Ushijima of the University of North Carolina, Wilmington, who was not involved in the research. He said the detective work by this team was 'really smart and significant.' Now that scientists know the cause, they have a better shot at intervening to help sea stars. Prentice said that scientists could potentially now test which of the remaining sea stars are still healthy — and consider whether to relocate them, or breed them in captivity to later transplant them to areas that have lost almost all their sunflower sea stars. Scientists may also test if some populations have natural immunity, and if treatments like probiotics may help boost immunity to the disease. Such recovery work is not only important for sea stars, but for entire Pacific ecosystems because healthy starfish gobble up excess sea urchins, researchers say. Wednesdays What's next in arts, life and pop culture. Sunflower sea stars 'look sort of innocent when you see them, but they eat almost everything that lives on the bottom of the ocean,' said Gehman. 'They're voracious eaters.' With many fewer sea stars, the sea urchins that they usually munch on exploded in population – and in turn gobbled up around 95% of the kelp forest s in Northern California within a decade. These kelp forests provide food and habitat for a wide variety of animals including fish, sea otters and seals. Researchers hope the new findings will allow them to restore sea star populations — and regrow the kelp forests that Thurber compares to 'the rainforests of the ocean.' ___ 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.
