3 new sea spiders discovered on ocean floor are first known species to feast on methane
Even thousands of feet below the water's surface, no arachnophobe is truly safe from spiders. And, thanks to a recent discovery by a team of scientists, three more species have been added to the list of sea-dwelling arthropods — with the special distinction of being what researchers called "methane-powered."
Three new types of spiders were recently found in deep-sea habitats, far beyond the reach of sunlight, according to research published in the Proceedings of the National Academy of Sciences.
Shana Goffredi, the study's lead author and chair of biology at Occidental College in Los Angeles, told USA TODAY that researchers found the first new species in July 2023 off the coast of Del Mar, California, a beach town about 20 miles north of San Diego.
Scientists then discovered the other new species off the coasts of California and Alaska, Goffredi said, adding they live between 600 and 1,200 meters below the surface.
Some are as large as a grain of rice, according to the professor. Others, much larger.
"They belong to an interesting group of sea spiders that have only ever been found at very specialized habitats on the seafloor called methane seeps," Goffredi said. Some species also live at hydrothermal vents, or geothermally heated mineral-rich springs on the sea bottom.
"Because they are localized to these specialized habitats, we had a suspicion that they were tied to the high-energy compounds that emanate from the seafloor in those locations," Goffredi continued. "By conducting shipboard experiments, we were able to show definitively that they use methane, through bacterial epibionts that live on their exoskeleton. By farming them, and then consuming them, they take advantage of a nutritional resource that is not common in the animal kingdom."
As of Friday, June 20, scientists said they continued to study the spiders' complete role in the ecosystem.
"We don't yet know their full role in their ecosystem just yet. It's pretty hard to do behavioral observations in the deep sea," Goffredi said. "But no doubt they are a prey source for other organisms and they probably help distribute organic carbon to other areas of the seafloor."
By growing what researchers called "a crop of methane-oxidizing bacteria" that consume methane molecules on their exoskeleton, the spiders help the planet's larger ecosystem by acting as a biological filter to prevent methane from escaping from the deep sea.
Natalie Neysa Alund is a senior reporter for USA TODAY. Reach her at nalund@usatoday.com and follow her on X @nataliealund.
This article originally appeared on USA TODAY: Scientists discover new sea spider species that eats methane
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Associated Press
an hour ago
- Associated Press
3M Young Scientist Challenge Announces 2025 National Finalists
ST. PAUL, Minn. and CHARLOTTE, N.C., June 25, 2025 /3BL/ - 3M (@3M) and Discovery Education (@DiscoveryEd) today announced the 2025 3M Young Scientist Challenge ( #YoungScientist ) top 10 finalists. As the nation's premier middle school science competition, the annual 3M Young Scientist Challenge invites students in grades 5-8 to compete for an exclusive mentorship with a 3M scientist, a $25,000 grand prize, and the chance to earn the title of 'America's Top Young Scientist.' The top 10 2025 3M Young Scientist Challenge finalists are as follows (in alphabetical order by last name): 'For 18 years, the 3M Young Scientist Challenge has empowered middle school students to bring science to life,' said Torie Clarke, 3M's executive vice president and chief public affairs officer. 'This year, the nation's brightest young minds have once again reimagined what's possible. Congratulations to each of the top 10 finalists! I can't wait to see how you make the world a better place.' To learn more about the 3M Young Scientist Challenge and meet the 2025 finalists, visit Challenge detailsThis year's finalists – 10 students ranging in age from 11-14 – identified an everyday problem and submitted a one- to two-minute video on their proposed scientific solution. Their proposals fall under an expanded set of entry categories, including robotics, home improvement, automotive, safety, AR/VR, and climate technology. An esteemed group of judges, including 3M scientists and leaders in education from across the country, evaluated entries based on creativity, scientific knowledge, and communication effectiveness. Next stepsEach of the 10 finalists will participate in an exclusive summer mentorship program with a 3M scientist. These mentors will provide guidance and advice to help advance their finalist's solution. Then, from Oct. 13-14, each finalist will travel to the 3M Innovation Center in St. Paul, Minn., for the final interactive competition. At 3M, each finalist will participate in a series of challenges, including a presentation of their completed innovation, and be scored independently by a panel of judges. The grand prize winner will be announced, and they will receive $25,000, a unique destination trip, and the title of America's Top Young Scientist. Previous winnersPrevious challenge finalists and 3M scientists have collaborated to create solutions for a wide variety of real-world problems, including cybersecurity, coral reef health, water conservation, food waste, alternative energy sources, energy consumption, air pollution, and transportation efficiency. The 2024 winner – 14-year-old Sirish Subash from Snellville, Georgia. – created PestiSCAND, a handheld device designed to detect pesticide residues on produce using a non-destructive method. The innovation employs spectrophotometry, which involves measuring how light of various wavelengths is reflected off the surface of fruits and vegetables. A machine-learning model then analyzes this data to determine the presence of pesticides. Now in its eighteenth year, the 3M Young Scientist Challenge continues to inspire and challenge middle school students to think creatively and apply the power of STEM to discover real-world solutions. Former America's Top Young Scientists have given TED Talks, filed patents, founded nonprofits, made the Forbes 30 Under 30 list, and exhibited at the White House Science Fair. These young innovators have also been named TIME Magazine's Kid of the Year; featured in The New York Times Magazine, Forbes, and Business Insider; and appeared on national television programs such as Good Morning America, The Kelly Clarkson Show, and more. In addition, a 3M Young Scientist Challenge Alumni Network was formed in fall 2022 and includes more than 100 former challenge winners, finalists, and mentors, who take part in networking opportunities and more. 'The 3M Young Scientist Challenge exemplifies the power of nurturing student curiosity by preparing students for the future, today. We are delighted to celebrate these young scientists for their commitment to solving real-world problems with innovation, creativity, and ingenuity,' said Amy Nakamoto, Executive Vice President of Marketing and Corporate Partnerships at Discovery Education. The award-winning competition supplements the 3M and Discovery Education program Young Scientist Lab, which provides no-cost dynamic digital resources for students, teachers, and families to explore, transform, and innovate the world around them. All the resources are also available on Discovery Education Experience, the essential companion for engaged PreK-12 classrooms. ### About 3M3M (NYSE: MMM) believes science helps create a brighter world for everyone. By unlocking the power of people, ideas and science to reimagine what's possible, our global team uniquely addresses the opportunities and challenges of our customers, communities, and planet. Learn how we're working to improve lives and make what's next at About Discovery EducationDiscovery Education is the worldwide edtech leader whose state-of-the-art, Pre-K-12, digital solutions support learning wherever it takes place. Through award-winning multimedia content, instructional supports, innovative classroom tools, and strategic alliances, Discovery Education helps educators deliver powerful learning experiences that engage all students and support higher academic achievement on a global scale. Discovery Education serves approximately 4.5 million educators and 45 million students worldwide, and its resources are accessed in over 100 countries and territories. Through partnerships with districts, states, and trusted organizations, Discovery Education empowers teachers with essential edtech solutions that inspire curiosity, build confidence, and accelerate learning. Explore the future of education at ContactsTim Post 3MEmail: [email protected] Grace MaliskaDiscovery EducationEmail: [email protected] Visit 3BL Media to see more multimedia and stories from Discovery Education
Bloomberg
an hour ago
- Bloomberg
What Makes Axiom 4 Truly Historic?
Astronauts from the US, India, Poland and Hungary are on their way to the ISS after SpaceX's successful launch of the Axiom 4 mission. Here's what sets it apart. (Source: Bloomberg)
Medscape
2 hours ago
- Medscape
Photo App Could Spot Anemia in Seconds
Artificial intelligence (AI) plays an increasingly prominent role in the workplace, and health researchers are exploring its potential to improve the diagnosis and treatment of diseases. In this context, the company Sanguina Inc., based in the US, has developed an app called Ruby Health, designed to help detect anemia using just a photo of a patient's fingernails. Currently available for Android and iOS devices in the US, the app's effectiveness was detailed in a study published by Sanguina's research team in the journal PNAS . The study and the companion tool grew out of an academic project launched in 2015 by Wilbur Lam, Erika Tyburski, and Rob Mannino. 'The development was rigorous. The idea came from the fact that, for decades, we have known that patients with anemia have paleness in some parts of the body, such as their fingernails, so we thought about the possibility of a noninvasive method, such as an app, to measure this paleness without having to draw blood,' said Lam, a researcher at Emory University School of Medicine in Atlanta, Georgia. Since its launch in 2021, Ruby Health has registered 1.4 million users in the US upload fingernail photos to estimate hemoglobin (Hgb) levels and may manually enter the lab results. Researchers then compare estimated Hgb with blood-test values to gauge accuracy. Among individuals with Hgb between 7 g/dL and 17 g/dL, the mean absolute error was ±0.72 g/dL. Using an Hgb cutoff of 12.5 g/dL to define anemia, the application demonstrated a sensitivity of 89% and a specificity of 93%. For Lam, this tool is promising. 'Based on the values entered, when calibrated, our app works similarly to blood-based methods. With 'homemade' methods, there is always the concern that they do not translate to what is tested in the lab, but we demonstrated the usability of the platform by replicating data in a closed clinical environment and in the real world,' he said. The platform's personal records feature allows for the personalization of treatment tips for patients, and geolocation data helps map cases for the application of public policies and the allocation of treatment resources. However, Ruby Health has limitations: It does not detect very low Hgb levels (< 7 g/dL) and cannot identify the type of anemia the patient has, which is crucial for determining treatment. 'Anemia is not a disease itself but a condition secondary to many illnesses,' said Helena Zerlotti Wolf Grotto, MD, professor of Clinical Pathology at Universidade Estadual de Campinas, Campinas, Brazil, laboratory-hematology consultant, and member of the Brazilian Association of Hematology. 'To determine the cause of anemia, it is necessary to perform tests, evaluate the patient's history and perform a physical examination, since treatment involves comprehensive care,' she said. The gold standard for diagnosing anemia remains the complete blood count, which identifies the type of anemia and its possible causes. 'Screening tests like this app could be useful in remote or resource‐limited areas,' Grotto added. However, in the United States, the app was more widely adopted in areas with higher average incomes, better access to primary care, and a higher proportion of Black residents. In Brazil, Grotto sees limited benefit in urban centers with broad access to laboratory tests, as the public health system already provides robust anemia testing. She is also concerned about accuracy in Black patients, since AI tools often lack adequate training to identify darker skin tones, which could hinder the app's functionality among Brazilians or other mixed-race populations. However, Lam stated that the app's algorithm has been tested on different skin tones and that nails have a lower amount of melanin, which minimizes the variability in skin color from one person to another. Although not 100% accurate, the app can be used to indicate the possibility of a person having anemia in certain cases, according to experts. The developers themselves have stated that it is not suitable for emergency clinical decision-making. 'The market is full of innovations, but we must remain critical before assuming they will solve every problem,' Grotto said.
