Dramatic video shows the moment nearly 70 shipping containers fell off a cargo ship Tuesday and were left bobbing in the ocean at the Port of Long Beach in California.
The containers were stationed at Pier G, and belonged to the vessel “Mississippi,” according to a report by FOX LA.
The U.S. Coast Guard set up a 250-yard safety zone as fire and police crews responded, according to the report.
The nearly 70 containers were left floating in the water.
The Port of Long Beach is a U.S. gateway for trans-Pacific trade.
Voted the “Best West Coast Seaport” by industry peers, the port handles trade valued at $300 billion annually and supports 2.7 million jobs across the nation, according to the port’s website.
Dramatic video shows the moment nearly 70 shipping containers fell off a cargo ship in California.
Goods moving through the port originate in, or are destined for, every congressional district in the U.S., according to the port.
Alexandra Koch is a Fox News Digital journalist who covers breaking news, with a focus on high-impact events that shape national conversation.
She has covered major national crises, including the L.A. wildfires, Potomac and Hudson River aviation disasters, Boulder terror attack, and Texas Hill Country floods.
SEATTLE — For decades, scientists believed Prochlorococcus, the smallest and most abundant phytoplankton on Earth, would thrive in a warmer world. But new research suggests the microscopic bacterium, which forms the foundation of the marine food web and helps regulate the planet’s climate, will decline sharply as seas heat up.
A study published Monday in the journal Nature Microbiology found Prochlorococcus populations could shrink by as much as half in tropical oceans over the next 75 years if surface waters exceed about 82 degrees Fahrenheit (27.8 Celsius). Many tropical and subtropical sea surface temperatures are already trending above average and are projected to regularly surpass 86 degrees Fahrenheit (30 Celsius) over that same period.
“These are keystone species — very important ones,” said François Ribalet, a research associate professor at the University of Washington’s School of Oceanography and the study’s lead author. “And when a keystone species decreases in abundance, it always has consequences on ecology and biodiversity. The food web is going to change.”
Prochlorococcus inhabit up to 75% of Earth’s sunlit surface waters and produce about one-fifth of the planet’s oxygen through photosynthesis. More crucially, Ribalet said, they convert sunlight and carbon dioxide into food at the base of the marine ecosystem.
“In the tropical ocean, nearly half of the food is produced by Prochlorococcus,” he said. “Hundreds of species rely on these guys.”
Though other forms of phytoplankton may move in and help compensate for the loss of oxygen and food, Ribalet cautioned they are not perfect substitutes. “Evolution has made this very specific interaction,” he said. “Obviously, this is going to have an impact on this very unique system that has been established.”
The findings challenge decades of assumptions that Prochlorococcus would thrive as waters warmed. Those predictions, however, were based on limited data from lab cultures. For this study, Ribalet and his team tested water samples while traversing the Pacific over the course of a decade.
Over 100 research cruises — the equivalent of six trips around the globe — they counted some 800 billion individual cells taken from samples at every kilometer. In his lab at the University of Washington, Ribalet demonstrated the SeaFlow, a box filled with tubes, wires and a piercing blue laser. The custom-built device continuously pulls in seawater, which allowed the team to count the microbes in real time. “We have counted more Prochlorococcus than there are stars in the Milky Way,” Ribalet said.
Paul Berube, a research scientist at Massachusetts Institute of Technology who studies Prochlorococcus but was not involved in the work, said the breadth of data is “groundbreaking.” And he said the results fit with what is known about the microbe’s streamlined genome, which makes it less adaptable to rapid environmental changes.
“They’re at the very base of the food web, and they feed everything else — the fish eat the things that eat the phytoplankton and we eat the fish,” he said. “When changes are being made to the planet that influence these particular organisms that are essentially feeding us, that’s going to have big consequences.”
To test whether Prochlorococcus might evolve to withstand hotter conditions, Ribalet’s team modeled a hypothetical heat-tolerant strain but found that even those would “not be enough to fully resist the warmest temperature if greenhouse emissions keep rising,” Ribalet said.
He stressed that the study’s projections are conservative and don’t account for the impacts of plastic pollution or other ecological stressors. “We actually tried to put forth the best-case scenario,” Ribalet said. “In reality, things may be worse.”
Steven Biller, an associate professor at Wellesley College, said the projected declines are “scary but plausible.” He noted Prochlorococcus form part of the “invisible forests” of the ocean — tiny organisms most people never think about, but are essential to human survival.
“Half of all photosynthesis is happening in the oceans and Prochlorococcus is a really important part of that,” Biller said. “The magnitude of the potential impact is kind of striking.”
Biller, Berube and Ribalet said that while other microbes may compensate somewhat, the broader risks to biodiversity and fisheries are real.
“We know what drives global warming. There is no debate among the scientific community,” Ribalet said. “We need to curb greenhouse gas emissions.”
He hopes the findings bring more attention to tropical oceans, which could serve as natural laboratories for warming adaptations and as early warning signals for ecological collapse.
“For the first time, I want to be wrong. I would love to be wrong,” he said. “But these are data-driven results.”
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Follow Annika Hammerschlag on Instagram @ahammergram.
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The Associated Press receives support from the Walton Family Foundation for coverage of water and environmental policy. The AP is solely responsible for all content. For all of AP’s environmental coverage, visit https://apnews.com/hub/climate-and-environment
LOS ANGELES — On a recent sunny morning in a channel at the Port of Los Angeles, seven blue steel structures that look like small boats are lowered into the ocean one by one. Attached to an unused wharf on a site that once housed oil tanks, they gently bob up and down with the waves to generate renewable power. Nearby, a sea lion peeks from the water and pelicans and sea gulls soar overhead.
This is the nation’s first onshore wave energy site, and on Tuesday, Eco Wave Power will officially unveil the pilot installation and begin operating. The pilot will generate just a small amount of electricity that can be used locally, but the larger goal is to prove the technology works well enough to expand along 8 miles of breakwater at the port — enough to power up to 60,000 homes.
Co-founder and CEO Inna Braverman said that much power could be a “game changer in terms of clean energy production” for the port and the communities around it. America’s shipping ports have long struggled with dirty air that harms the health of people living nearby.
“We’re starting here in LA, but we hope, aspire and believe that we will be in the United States and in other locations around the world,” she said, standing outside a blue shipping container serving as the project’s power station.
Wave energy is an emerging industry that’s largely still focused on research, demonstration and pilot projects. But the potential is big.
Waves off the coasts of the United States generate enough power to meet roughly one-third of America’s energy needs, according to Department of Energy estimates. Even if only a portion is harnessed, wave energy technologies could help meet the growing demand for electricity being driven in large part by the artificial intelligence race. Wave energy could also complement wind and solar to stabilize the electric grid.
Eco Wave Power installed its technology at the port’s AltaSea ocean institute, a nonprofit that is working in part to advance ocean-based solutions to climate change. Half this pilot project was funded by the oil and gas company Shell.
“It’s the first U.S. project on breakwater, so it opens up the possibility to do that on multiple other ports in the U.S.,” said Rémi Gruet, CEO of the trade association Ocean Energy Europe. “It’s a moment where wave power is starting to turn from innovation projects to actual pilot projects that go toward industrialization and commercialization.”
A key advantage for wave energy is it produces electricity at different times than wind and solar, Gruet said. For example, when the wind stops blowing, wind turbines will stop generating electricity. But waves will carry on for hours and electricity can still be generated that way, he said.
But the cost needs to come down with the help of subsidies, like it has for solar and wind, Gruet added.
The first commercial wave power plant in Europe started operating in 2011 from a breakwater at Mutriku harbor in Spain. An offshore wave energy system came online off the coast of Hawaii in 2016.
California Gov. Gavin Newsom signed a bill in 2023 to promote wave energy development in the state. Eco Wave Power currently has a two-year license to operate the pilot station at the Port of Los Angeles.
As the small blue floats bob up and down, each pushes a cylinder that sends a biodegradable hydraulic fluid through a system of pipes into storage tanks. Pressure in the tanks builds up. That pressure turns a motor, which turns a generator, producing clean electricity.
“The world has waves, 70% percent of the world is covered by ocean,” Terry Tamminen, president and CEO of AltaSea and former secretary of the California Environmental Protection Agency, said at the site of the project.
“And we can harness all of that clean energy now, thanks to things like Eco Wave,” he said.
Braverman said there are dozens of sites along the U.S. coastline, identified through a study paid for by Shell, where her company could harness wave energy to add clean electricity to the grid. She said the technology is easy to adopt because unlike other renewables, this system doesn’t require any land acquisition, it involves repurposing existing structures rather than altering coastlines and it can generate electricity around the clock.
The Eco Wave pilot did require licensing from the Army Corps of Engineers and from the port, but that came in a relatively quick two years, Braverman said.
Eco Wave Power is also working on projects abroad, including Taiwan, India and Portugal, and operating a grid-connected project in Israel. In New Jersey, where legislation is advancing to promote ocean energy development in the state, the company is looking for a site to install a pilot project, with help from elected officials.
Andrea Copping, an expert in marine renewable energy development, thinks Eco Wave Power’s technology can be scaled up successfully. These small marine energy projects are not yet economically competitive with solar or wind, but there are places where they may be a better fit or a solution in cooperation with other energy sources, such as remote coastal communities and islands where diesel deliveries can be very expensive, she said.
“We consider every successful deployment an important milestone in creating this industry,” said Copping, a distinguished faculty fellow in the School of Marine and Environmental Affairs at the University of Washington.
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McDermott reported from Providence, R.I.
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The Associated Press receives support from the Walton Family Foundation for coverage of water and environmental policy. AP’s climate and environmental coverage receives financial support from multiple private foundations. AP is solely responsible for all content. Find AP’s standards for working with philanthropies, a list of supporters and funded coverage areas at AP.org.
The Navy, working with Skydweller Aero, just reached a major milestone in clean-energy aviation. Its solar-powered drone, known as Skydweller, flew for 73 hours straight without needing fuel. The test happened at Stennis, Mississippi, under the leadership of the Naval Air Warfare Center Aircraft Division (NAWCAD).
This breakthrough shows how renewable energy can power long-endurance missions while cutting costs and reducing reliance on fuel.
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The Navy flew a drone nonstop for over three days to test new long-endurance solar-powered autonomous aircraft technology.(Naval Air Warfare Center Aircraft Division)
Navy solar drone proves nonstop endurance
The three-day nonstop flight proved that solar-powered drones can store enough energy during daylight to keep flying through the night. Engineers confirmed that Skydweller not only stayed airborne but also handled real-time autonomous decisions, adapted to turbulent weather and maintained secure communications.
Officials say the drone’s wingspan matches that of a Boeing 747, yet it weighs about as much as a Ford F-150. With solar panels covering its massive wings, Skydweller powers four electric propeller engines during the day while storing extra energy in batteries for night flights.
The Navy, in partnership with Skydweller Aero, recently achieved continuous solar-powered unmanned flight during a nonstop three-day test.(Naval Air Warfare Center Aircraft Division)
Navy expands solar-powered surveillance
NAWCAD leaders say Skydweller will fit into the Navy’s intelligence, surveillance and reconnaissance (ISR) network. Unlike expensive satellites or large drones such as the Global Hawk, Skydweller offers commanders a cheaper option for persistent monitoring. It can hover over an area in what experts call a “pseudo-satellite role,” freeing up more advanced systems for priority missions.
For U.S. Southern Command, Skydweller could help track drug trafficking, border security threats and other maritime challenges. Longer tests are already planned for this summer in the SOUTHCOM region, which covers Latin America and the Caribbean and oversees U.S. military operations in that area.
A solar-powered aircraft sits at Skydweller’s facility at Albacete airport on April 3, 2023, in Albacete, Castilla-La Mancha, Spain.(Rey Sotolongo/Europa Press via Getty Images)
Future of solar-powered flight for Navy missions
While Skydweller has already logged nearly 220 flight hours, engineers believe it could stay airborne far longer. Weather and range limits kept this recent test at 73 hours, but in theory, the aircraft could remain aloft for weeks.
The Department of Defense sees platforms like Skydweller as vital for future conflicts where fuel resupply may not be possible. Renewable-powered drones could solve logistics headaches, especially in contested environments, which essentially means operating in places where enemies can block supply lines and make traditional refueling too risky.
What this means for you
The Navy’s solar drone test is proof that renewable energy can support technologies once thought impossible. If solar power can keep an aircraft in the air for days, similar advances may eventually reach consumer tech, disaster relief and even commercial aviation. Imagine cheaper, cleaner systems that can operate nonstop without fuel.
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The Navy’s solar-powered flight shows how far clean energy technology has come. By proving that drones can fly for days without fuel, the Navy highlights a future where endurance and efficiency go hand in hand. This milestone also points to practical uses beyond defense, from disaster response to global communications. As testing continues, the focus will shift from what is possible to how long these systems can stay airborne and how widely they can be deployed. The next step may redefine how we think about surveillance, security and renewable energy in the skies.
Do you think solar-powered drones will soon replace satellites as the go-to tool for global surveillance? Let us know by writing to us at Cyberguy.com.
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Kurt “CyberGuy” Knutsson is an award-winning tech journalist who has a deep love of technology, gear and gadgets that make life better with his contributions for Fox News & FOX Business beginning mornings on “FOX & Friends.” Got a tech question? Get Kurt’s free CyberGuy Newsletter, share your voice, a story idea or comment at CyberGuy.com.
Marine biologists on Florida’s Space Coast have released June Cleaver, a 230-pound loggerhead turtle, back into the ocean
MELBOURNE, Fla. — She may not wear a pearl necklace like her namesake from the TV show, “Leave it Beaver,” but June Cleaver, the 230-pound loggerhead turtle, nevertheless was happy as a clam to be going home.
Marine biologists on Florida’s Space Coast on Wednesday released June Cleaver back into the ocean before 300 beachgoers following a two-month rehabilitation at the Brevard Zoo’s Sea Turtle Healing Center in Melbourne, Florida.
The turtle was first observed having difficulty laying eggs in Melbourne Beach in June. The Sea Turtle Preservation Society transported her to the Healing Center, and caretakers discovered that she had been hit by a boat. They gave her several CT scans to make sure that the injury to her top shell wasn’t critical, according to the center.
The scans showed that her wound wasn’t fatal but she needed rehabilitation. While at the center, she laid 113 eggs in a pool. Biologists buried the eggs in the beach where they are incubating, according to the center.
The center said June Cleaver had “diva” tastes in food, preferring squid over the crabs which typically are favored by loggerheads.
This story originally appeared on Grist and is part of the Climate Desk collaboration.
Seen from space, Antarctica looks so much simpler than the other continents—a great sheet of ice set in contrast to the dark waters of the encircling Southern Ocean. Get closer, though, and you’ll find not a simple cap of frozen water, but an extraordinarily complex interplay between the ocean, sea ice, and ice sheets and shelves.
That relationship is in serious peril. A new paper in the journal Nature catalogs how several “abrupt changes,” like the precipitous loss of sea ice over the last decade, are unfolding in Antarctica and its surrounding waters, reinforcing one another and threatening to send the continent past the point of no return—and flood coastal cities everywhere as the sea rises several feet.
“We’re seeing a whole range of abrupt and surprising changes developing across Antarctica, but these aren’t happening in isolation,” said climate scientist Nerilie Abram, lead author of the paper. (She conducted the research while at Australian National University but is now chief scientist at the Australian Antarctic Division.) “When we change one part of the system, that has knock-on effects that worsen the changes in other parts of the system. And we’re talking about changes that also have global consequences.”
Scientists define abrupt change as a bit of the environment changing much faster than expected. In Antarctica these can occur on a range of times scales, from days or weeks for an ice shelf collapse, and centuries and beyond for the ice sheets. Unfortunately, these abrupt changes can self-perpetuate and become unstoppable as humans continue to warm the planet. “It’s the choices that we’re making right now, and this decade and the next, for greenhouse gas emissions that will set in place those commitments to long-term change,” Abram said.
A major driver of Antarctica’s cascading crises is the loss of floating sea ice, which forms during winter. In 2014, it hit a peak extent (at least since satellite observations began in 1978) around Antarctica of 20.11 million square kilometers, or 7.76 million square miles. But since then, the coverage of sea ice has fallen not just precipitously, but almost unbelievably, contracting by 75 miles closer to the coast. During winters, when sea ice reaches its maximum coverage, it has declined 4.4 times faster around Antarctica than it has in the Arctic in the last decade.
Put another way: The loss of winter sea ice in Antarctica over just the past decade is similar to what the Arctic has lost over the last 46 years. “People always thought the Antarctic was not changing compared to the Arctic, and I think now we’re seeing signs that that’s no longer the case,” said climatologist Ryan Fogt, who studies Antarctica at Ohio University but wasn’t involved in the new paper. “We’re seeing just as rapid—and in many cases, more rapid—change in the Antarctic than the Arctic lately.”
While scientists need to collect more data to determine if this is the beginning of a fundamental shift in Antarctica, the signals so far are ominous. “We’re starting to see the pieces of the picture begin to emerge that we very well might be in this new state of dramatic loss of Antarctic sea ice,” said Zachary M. Labe, a climate scientist who studies the region at the research group Climate Central, which wasn’t involved in the new paper.
RODANTHE, N.C. — Strong winds and waves battered Nantucket and Martha’s Vineyard and dangerous rip currents threatened from the Carolinas to New England as Hurricane Erin made its way farther out to sea.
The storm was forecast to cause possible coastal flooding into the weekend along the East Coast but was also expected to lose strength gradually. The National Hurricane Center in Miami reported early Friday that Erin had weakened to a Category 1 hurricane, with maximum sustained winds of 90 mph (150 kph), and was located about 425 miles (680 kilometers) south-southwest of Halifax, Novia Scotia.
Despite being twice the size of an average hurricane, Erin so far has managed to thread the needle through the Atlantic between the East Coast and several island nations, limiting its destructiveness.
On North Carolina’s Outer Banks, waves breached dunes in the town of Kill Devil Hills on Thursday evening, and water and sand pooled on Highway 12.
Although damage assessments were still underway, the low-lying islands appeared to have dodged widespread trouble.
A tropical storm warning was lifted for Bermuda, where residents and tourists had been told to stay out of the water through Friday. Warnings along the coasts of North Carolina and Virginia were also discontinued.
Communities along the mid-Atlantic and southern New England coast could see tropical storm-force wind gusts through early Friday, according to the National Hurricane Center in Miami.
The National Weather Service issued coastal flood warnings for places as far north as the Mid-Atlantic and New England coasts, saying that some roads could be made impassable.
Beaches were closed to swimming Thursday in New York City, but more than a dozen surfers still rode waves at Rockaway Beach in Queens. Scott Klossner, who lives nearby, said conditions were great for experienced surfers.
“You wait all year round for these kinds of waves. It’s challenging, really hard to stay in one place, because there’s a heavy, heavy, heavy rip,” he said. “But this is what surfers want — a hurricane that comes but doesn’t destroy my house? I’ll take that.”
The Outer Banks — essentially sand dunes sticking out of the ocean a few feet above sea level — are vulnerable to erosion. Storm surges can cut through them, washing tons of sand and debris onto roads and sometimes breaking up pavement and creating new inlets.
The dunes and beach took a beating the last two days, but Dare County Manager Bobby Outten said there have been no new inlets with Erin or significant structural damage to homes or businesses.
“All in all it’s not as bad as it could have been,” Outten said. “Hopefully the worst of it is behind us.”
On Jennette’s Pier in Nags Head, where sustained winds reached 45 mph (72 kph), dozens of onlookers snapped photos of the huge waves crashing into the structure amid driving rain.
“This is nature at her best,” Nags Head resident David Alan Harvey said. “I love this. I love these storms.”
Erin has fluctuated in intensity since forming nearly a week ago but remained unusually large, stretching across more than 600 miles (965 kilometers).
So-called Cape Verde hurricanes like Erin, which originate near those islands off the west coast of Africa, cross thousands of miles of warm ocean and are some of the most dangerous to North America.
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Seewer reported from Toledo, Ohio. Associated Press journalists Tammy Webber in Fenton, Michigan; Jeffrey Collins in Columbia, South Carolina; Kathy McCormack in Concord, New Hampshire; Julie Walker in New York; and Leah Willingham in Boston contributed.
___ The Associated Press’ climate and environmental coverage receives financial support from multiple private foundations. AP is solely responsible for all content. Find AP’s standards for working with philanthropies, a list of supporters and funded coverage areas at AP.org.
They are the hurricanes of legend, the bowling balls that cross the entire Atlantic Ocean, menaced ships of yore and make the long, curved lines on the hurricane charts.
Cape Verde storms, named for the group of islands about 450 miles (725 kilometers) off the west coast of Africa, typically form from clusters of thunderstorms that move off the continent and into the Atlantic.
With thousands of miles of ocean water above the 80-degree Fahrenheit (27-degree Celsius) temperature needed to fuel hurricanes, Cape Verde storms are some of the most dangerous that threaten North America. About 85% of all major hurricanes — Category 3 and higher — start out there, according to the National Hurricane Center.
“They are the media stars and certainly get a lot of attention because you can track them for a long time,” said Jeff Masters, a meteorologist for Yale Climate Connections.
But they also are a rare threat. Less than one out of every 10 of the storms crash into the U.S. The rest either fall apart or are curved out to sea by the north and east steering winds that normally prevail over the Atlantic.
Conditions need to be just right for Cape Verde storms to form and grow, keeping them mostly confined to August and September.
Hurricane Erin is a Cape Verde storm. The National Hurricane Center is watching two more clusters of storms to the east of Erin that could develop into tropical storms.
But the atmosphere is too complex to know how strong those storms can be if they develop or whether any of them will threaten the U.S. Forecasters begin to lose confidence in their ability to predict the future of any specific storms more than a week out. It takes at least 10 days for a potential hurricane to cross the Atlantic Ocean.
Cape Verde storms start over Africa where the hot dry air in the Sahara and the hot humid air over the Gulf of Guinea clash and create clusters of thunderstorms that move off the continent.
The warm water is the first ingredient. Hurricanes also thrive with light winds above them that won’t blow the thunderstorms away from the center.
“They are the strongest because they have the most time to develop. The other storms can crash into land too early,” Masters said.)
Researchers have spent the past several years studying the ocean and atmosphere in the far eastern Atlantic to get a better idea of why some storms form and some don’t.
In recent years, scientists have realized that dry air and dust from the Sahara in Africa blown into the Atlantic from the east can lessen the high humidity hurricanes need and inhibit their development. The dust can travel all the way across the ocean and settle on cars and windows on the U.S. East Coast.
“They travel about a mile above the surface, the winds are very strong, and the air is dry and hot. That’s a trifecta that suppresses hurricane activity,” Jason Dunion, a scientist at the University of Miami’s Cooperative Institute for Marine and Atmospheric Studies told the university.
Some years may not see a Cape Verde storm at all. Some can see as many as four or five. But on average about one or two hurricanes a year are classified as Cape Verde storms, according to the National Hurricane Center.
And they aren’t the only storms to hit the U.S. The Weather Channel analyzed hurricanes since 1995 and found only nine of the 60 that struck the U.S. were the ones that track all the way across the Atlantic.
The list of famous Cape Verde hurricanes has a lot of overlap with the list of the most memorable, powerful and deadliest hurricanes.
There is the 1900 Galveston Hurricane that killed about 8,000 people in Texas and the 1928 Okeechobee hurricane that killed 2,500 in Florida. In more recent times, hurricanes Donna in 1960 in Florida, Hugo in 1989 in South Carolina, Andrew in 1992 in Florida, Ivan in Grand Cayman, Alabama and Florida in 2004, Ike in Texas in 2008, Irma in Cuba, Puerto Rico and Florida in 2017 and Florence in North Carolina in 2018 were all Cape Verde storms.
Holly Andrzejewski hadn’t yet welcomed her and her family’s first guests to the Atlantic Inn on Hatteras Island when she had to start rescheduling them — as Hurricane Erin neared North Carolina’s Outer Banks on Tuesday and threatened to whip up wild waves and tropical force winds.
Andrzejewski and her husband purchased the bed-and-breakfast, known as the oldest inn on the island, less than a week ago. By Monday they had brought in all the outdoor furniture and made sure their daughter and her boyfriend, who are the innkeepers, had generators, extra water and flashlights as they stayed behind to keep an eye on the property.
“It’s just one of those things where you know this is always a possibility and it could happen, and you just make the best out of it. Otherwise you wouldn’t live at the beach,” said Andrzejewski, who will also remain on the island, at her home about a 15 minutes’ drive away.
Although the season’s first Atlantic hurricane is expected to stay offshore, evacuations were ordered on barrier islands along the Carolina coast as authorities warned the storm could churn up dangerous rip currents from Florida through the Mid-Atlantic to the New England coast. Tropical storm and surge watches were issued for much of the Outer Banks. Coastal flooding was expected to begin Tuesday and continue through Thursday.
Cars lined up to evacuate via ferry from Ocracoke Island to Hatteras Island, N.C., Aug. 18, 2025, due to the expected impact of Hurricane Erin.
North Carolina Department of Transportation/AP
The evacuations on Hatteras Island and Ocracoke came at the height of tourist season on the thin stretch of low-lying barrier islands that jut into the Atlantic Ocean and are increasingly vulnerable to storm surges. In 2019, Hurricane Dorian caused record amounts of damage in Ocracoke. Last year, Hurricane Ernesto stayed offshore but created high surf and swells.
Tommy Hutcherson, who owns the community’s only grocery store, said the island has mostly bounced back. He’s optimistic this storm won’t be as destructive.
“But you just never know. I felt the same way about Dorian and we really got smacked,” he said.
With Hurricane Erin, there are concerns that several days of heavy surf, high winds and waves could wash out parts of the main highway. Some routes could be impassable for days.
“Don’t go in the water”
Meanwhile, ocean conditions are dangerous off the Outer Banks and the East Coast. The Wrightsville Beach Fire Department, near Wilmington, North Carolina, said officials rescued between 60 and 70 swimmers on Monday. There were no injuries or fatalities recorded.
Beaches along the East Coast have closed to swimming, citing rough waters. Belmar, Bay Head and Island Beach State Park, all in New Jersey, banned swimming because of dangerous surf conditions and strong rip currents.
“I would just say to you, flat out, don’t go in the water,” New Jersey Gov. Phil Murphy said Tuesday. “The fact of the matter is going in the ocean for the next number of days is something you’ve got to avoid.”
The National Weather Service issued a high rip current risk through at least midweek. Wave heights are expected to reach eight to 15 feet, with conditions worsening as the storm moves closer.
There’s a popular T-shirt on Hatteras Island on the North Carolina Outer Banks that says: “One road on. One road off (sometimes)” — poking fun at the constant battle between Mother Nature and a thin ribbon of pavement connecting the narrow barrier island to the rest of the world.
Mother Nature is probably going to win this week. Hurricane Erin is forecast to move hundreds of miles offshore from the islands but the massive storm is still sending waves 20 feet (6 meters) or greater crashing over vulnerable sand dunes.
Officials have ordered evacuations of Hatteras and Ocracoke islands even without a hurricane warning because that tiny ribbon of highway called NC 12 will likely be torn up and washed out in several places, isolating villages for days or weeks.
The 3,500 or so Outer Bankers who live there have handled isolation before. But most of the tens of thousands of vacationers have not.
“We haven’t seen waves of that size in a while and the vulnerable spots have only gotten weaker in the past five years,” said Reide Corbett, executive director of the Coastal Studies Institute, a group of several universities that study the Outer Banks.
In a basic sense, they are sand dunes that were tall enough to stay above the ocean level when many of the Earth’s glaciers melted 20,000 years ago.
The barrier islands in some places are as far as 30 miles (48 kilometers) off mainland North Carolina. To the east is the vast Atlantic Ocean. To the west is the Pamlico Sound.
“Water, water everywhere. That really resonates on the Outer Banks,” Corbett said.
The most built up and populated part of the Outer Banks are in the north around Nags Head and Kill Devil Hills, which aren’t under the evacuation order. South of the Oregon Inlet, scoured out by a 1846 hurricane, is Hatteras Island, where the only connection to the mainland is the NC 12 highway. South of there is Ocracoke Island, accessible only by boat or plane.
The first highways to reach the area were built more than 60 years ago. And the Outer Banks started booming, as it went from quaint fishing villages to what it is now, dotted with 6,000-square foot vacation homes on stilts.
On a nice day, what look like snowplows and street sweeper brushes wait on the side of NC 12 to scoop and sweep away the constantly blowing sand.
When the storms come, water from the ocean or the sound punch through the sand dunes and wash tons of sand and debris on the road. In more extreme cases, storms can break up the pavement or even create new inlets that require temporary bridges.
It cost the North Carolina Department of Transportation more than $1 million a year in regular maintenance to keep NC 12 open during the 2010s. They also spent about $50 million over the decade on repairs after storms.
But the state estimates Dare County, which includes most of the Outer Banks, brings in $2 billion in tourism revenue a year. So the cycle of clean up and repair continues.
It can take time to fix things. Hurricane Isabel in 2003 and Hurricane Irene in 2011 both cut inlets into Hatteras Island and ferries were needed for two months. It can still take days to get NC 12 back open even after more routine Nor’easters.
It’s not just storms that impact the island. As the planet warms and polar ice melts, rising ocean levels threaten the Outer Banks. In a place where most of the land is only a few feet above sea level, every inch of sand counts.
In Rodanthe, which sticks the farthest out into the Atlantic, the churning ocean has swallowed up more than a dozen homes since 2020. Officials think at least two unoccupied homes are likely to be lost if the waves from Erin are as strong as predicted.
Shelli Miller Gates waited tables on the Outer Banks to earn money as a college student in the late 1970s. She remembers houses with no air conditioning, televisions or phones. And she adored it.
“I love the water. I love the wildness of it. It’s the way I want to live my life,” the respiratory therapist said.
It’s a lifestyle embraced by many. The area’s shorthand “OBX” shows up in many places as a source of pride, including the first three letters on license plates issued by the state.
The isolation contributes to a sense of community. Gates has seen people band together countless times when their connection to the outside world is severed. And there is always the allure of getting to live someplace where others just get to visit.
“There’s things everywhere. There’s earthquakes and lizards and floods. Looks at the poor people out in western North Carolina,” Gates said. “There are so many things that can happen to you. I feel like you have to find the place that feels like home.”
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Associated Press Journalist Ben Finley contributed to this report.
New data from the National Oceanic and Atmospheric Administration has scientists ringing alarm bells about the health of the world’s oceans. Seventy-seven percent of the world’s coral reefs have experienced “bleaching-level heat stress” over the last 22 months. Derek Manzello, coordinator of NOAA’s Coral Reef Watch program, joins CBS News to dive deeper into the research.
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In fact, bubble bursts caused by wave energy can release 100,000 metric tons of microplastics into the atmosphere each year. Since dolphins and other marine mammals breathe at the water’s surface, they may be especially vulnerable to exposure.
Where there are more people, there is usually more plastic. But for the tiny plastic particles floating in the air, this connection isn’t always true. Airborne microplastics are not limited to heavily populated areas; they pollute undeveloped regions too.
Our research found microplastics in the breath of dolphins living in both urban and rural estuaries, but we don’t know whether there are major differences in amounts or types of plastic particles between the two habitats.
During these brief permitted health assessments, we held a petri dish or a customized spirometer—a device that measures lung function—above the dolphin’s blowhole to collect samples of the animals’ exhaled breath. Using a microscope in our colleague’s lab, we checked for tiny particles that looked like plastic, such as pieces with smooth surfaces, bright colors or a fibrous shape.
Since plastic melts when heated, we used a soldering needle to test whether these suspected pieces were plastic. To confirm they were indeed plastic, our colleague used a specialized method called Raman spectroscopy, which uses a laser to create a structural fingerprint that can be matched to a specific chemical.
Our study highlights how extensive plastic pollution is—and how other living things, including dolphins, are exposed. While the impacts of plastic inhalation on dolphins’ lungs are not yet known, people can help address the microplastic pollution problem by reducing plastic use and working to prevent more plastic from polluting the oceans.
NASA’s solar-powered Europa Clipper took off Monday from the Kennedy Space Center in Florida. The spacecraft is projected to reach Jupiter by April 2030 and will study one of the planet’s moons. CBS News space consultant Bill Harwood explains what scientists are hoping to accomplish with the mission.
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Russ Lewis has picked up some strange things along the coast of Long Beach Peninsula in Washington state over the years: Hot Wheels bicycle helmets with feather tufts, life-size plastic turkey decoys made for hunters, colorful squirt guns.
And Crocs — so many mismatched Crocs.
If you find a single Croc shoe, you might think somebody lost it out on the beach, he said. “But, if you find two, three, four and they’re different — you know, one’s a big one, one’s a little one — that’s a clue.”
These items aren’t like the used fishing gear and beer cans that Lewis also finds tossed overboard by fishers or partygoers. They’re the detritus of commercial shipping containers lost in the open ocean.
Volunteer beach cleaner Russ Lewis holds detritus of shipping container spills washed up on Washington’s Long Beach Peninsula in Pacific County, Wash., Monday, June 17, 2024.
Lindsey Wasson / AP
Most of the world’s raw materials and everyday goods that are moved over long distances — from T-shirts to televisions, cellphones to hospital beds — are packed in large metal boxes the size of tractor-trailers and stacked on ships. A trade group says some 250 million containers cross the oceans every year — but not everything arrives as planned.
More than 20,000 shipping containers have tumbled overboard in the last decade and a half. Their varied contents have washed onto shorelines, poisoned fisheries and animal habitats, and added to swirling ocean trash vortexes. Most containers eventually sink to the sea floor and are never retrieved.
Stacks of cargo containers at the Port of Antwerp, Belgium.
Virginia Mayo / AP
Cargo ships can lose anywhere from a single container to hundreds at a time in rough seas. Experts disagree on how many are lost each year. The World Shipping Council, an industry group, reports that, on average, about 1,500 were lost annually over the 16 years they’ve tracked — though fewer in recent years. Others say the real number is much higher, as the shipping council data doesn’t include the entire industry and there are no penalties for failing to report losses publicly.
Much of the debris that washed up on Lewis’ beach matched items lost off the giant cargo ship ONE Apus in November 2020. When the ship hit heavy swells on a voyage from China to California, nearly 2,000 containers slid into the Pacific.
Court documents and industry reports show the vessel was carrying more than $100,000 worth of bicycle helmets and thousands of cartons of Crocs, as well as electronics and other more hazardous goods: batteries, ethanol and 54 containers of fireworks.
This combination of Monday, June 17, 2024, photos, shows top row from left, a plastic turkey, a container of tennis balls, a child’s helmet; and bottom row from left, a toy football, a plastic squirt gun and a Crocs shoe, found by Russ Lewis after they washed up on Long Beach Peninsula in Pacific County, Wash.
Lindsey Wasson / AP
Researchers mapped the flow of debris to several Pacific coastlines thousands of miles apart, including Lewis’ beach and the remote Midway Atoll, a national wildlife refuge for millions of seabirds near the Hawaiian Islands that also received a flood of mismatched Crocs.
Scientists and environmental advocates say more should be done to track losses and prevent container spills.
“Just because it may seem ‘out of sight, out of mind,’ doesn’t mean there aren’t vast environmental consequences,” said marine biologist Andrew DeVogelaere of California’s Monterey Bay National Marine Sanctuary, who has spent more than 15 years studying the environmental impact of a single container that was found in sanctuary waters.
“We are leaving time capsules on the bottom of the sea of everything we buy and sell — sitting down there for maybe hundreds of years,” he said.
This year’s summer winds washed thousands of plastic pellets ashore near Colombo, Sri Lanka, three years after a massive fire aboard the X-Press Pearl burned for days and sank the vessel a few miles offshore.
The disaster dumped more than 1,400 damaged shipping containers into the sea — releasing billions of plastic manufacturing pellets known as nurdles as well as thousands of tons of nitric acid, lead, methanol and sodium hydroxide, all toxic to marine life.
Hemantha Withanage remembers how the beach near his home smelled of burnt chemicals. Volunteers soon collected thousands of dead fish, gills stuffed with chemical-laced plastic, and nearly 400 dead endangered sea turtles, more than 40 dolphins and six whales, their mouths jammed with plastic. “It was like a war zone,” he said.
Cleanup crews wearing full-body hazmat suits strode into the tide with hand sieves to try to collect the lentil-size plastic pellets.
The waterfront was closed to commercial fishing for three months, and the 12,000 families that depend on fishing for their income have only gotten a fraction of the $72 million that Withanage, founder of Sri Lanka’s nonprofit Centre for Environmental Justice, believes they are owed.
“Just last week, there was a huge wind, and all the beaches were full of plastic again,” he said in mid-June.
Lost container contents don’t have to be toxic to wreak havoc.
In February, the cargo ship President Eisenhower lost 24 containers off the central California coast. Some held bales of soon-waterlogged cotton and burst open. Debris washed ashore near Monterey Bay National Marine Sanctuary, a federally protected area.
The ship’s captain informed the U.S. Coast Guard, which worked with the National Oceanic and Atmospheric Administration and California State Parks to remove the debris. Each bale was too heavy to drag away — instead they had to be cut up, each filling two dump trucks.
“A rancid soggy mess,” said Eric Hjelstrom, a chief ranger for California State Parks. “If tidal pools get filled with cotton, that can block out sunlight and harm a lot of organisms.”
One bale landed in an elephant seal nursery, surrounded by baby seals. “You have to be careful how to approach it – you don’t want to injure the seals,” Hjelstrom said. A marine mammal specialist gently escorted 10 pups away before the bale was removed.
Although the operators of the President Eisenhower helped pay for cleanup, neither California nor federal authorities have ordered the company to pay any penalties.
As for the metal shipping containers, only one was spotted on a U.S. Coast Guard overflight, and it had vanished from sight by the time a tugboat was sent to retrieve it, said Coast Guard Lt. Chris Payne in San Francisco.
When shipping containers are lost overboard, “Most of them sink. And a lot of times, they’re just in really deep water,” said Jason Rolfe of NOAA’s Marine Debris Program.
This image from video provided by the Monterey Bay Aquarium Research Institute shows fish and other sea life around a shipping container lost from the cargo vessel Med Taipei during a storm in February 2004, found around 1,280 meters (4,200 feet) below the surface of the Monterey Bay National Marine Sanctuary in California on Dec. 12, 2013. (MBARI via AP)
/ AP
Most sunken containers — some still sealed, some damaged and open — are never found or recovered.
The Coast Guard has limited powers to compel shipowners to retrieve containers unless they threaten a marine sanctuary or contain oil or designated hazardous materials. “If it’s outside our jurisdiction,” said Payne, “there’s nothing that we can do as the federal government to basically require a company to retrieve a container.”
The long-term impact of adding on average more than a thousand containers each year to the world’s oceans — by the most conservative estimates — remains unknown.
Scientists at Monterey Bay Aquarium Research Institute in California are studying the cascade of changes wrought by a single container found by chance on the seabed.
Their research team was operating a remote-control vehicle at 4,200 feet (1,280 meters) below the surface to study deep-sea corals in 2004 when they were surprised to encounter a metal box. “It’s just serendipity that we found it,” said marine ecologist Jim Barry. Despite multiple spills in nearby shipping lanes, “It’s the only container that we know exactly where it landed.”
“The first thing that happens is they land and crush everything underneath them,” said DeVogelaere, who studied the sunken container. By changing the flow of water and sediment, the container completely changes the micro-ecosystem around it — impacting seafloor species that scientists are still discovering.
“The animals in the deep have felt our presence before we even knew anything about them,” he said.
Labels showed the container came from the Med Taipei, which had lost two dozen boxes in rough seas on a journey between San Francisco and Los Angeles. In 2006, the ship owners and operators reached a settlement with the U.S. Department of Justice to pay $3.25 million for estimated damages to the marine environment.
More than 80% of international trade by volume arrives by sea. All this cargo travels on increasingly vast ships.
“On the modern big ships, it’s like a high-rise building,” said Jos Koning, a senior project manager at MARIN, a Netherlands-based maritime research organization that studies shipping risks.
Today’s largest cargo vessels are longer than three football fields, with cranes required to lift containers and stack them in towering columns. When the industry took off some 50 years ago, ships could hold only about a tenth of the freight that today’s behemoths carry. According to the insurer Allianz, container ship capacities have doubled in just the last two decades.
Greater size brings heightened risks. The largest ships are more difficult to maneuver and more prone to rolling in high waves. And there’s a greater chance that any single box could be damaged and crushed — a destabilizing accident that can send an entire stack of containers cascading into the sea.
In February, the marine insurer Gard published a study based on six years of their claims that showed 9% of ultra-large ships had experienced container losses, compared to just 1% of smaller vessels.
Accidents are often linked to cargo that has been inaccurately labeled, weighed or stored. Investigators determined that the X-Press Pearl’s devastating spill near Sri Lanka, for instance, was the result of a fire that likely started from a poorly stacked container that was leaking nitric acid.
But cargo ship operators don’t have the capacity to verify all container weights and contents, and instead must rely on information that shippers provide.
“It’s just completely impractical to think that you can open every container,” said Ian Lennard, president of the National Cargo Bureau, a nonprofit that works with the U.S. Coast Guard to inspect seagoing cargo.
In a pilot study, the group found that widespread mislabeling and improper stowage meant that nearly 70% of shipping containers arriving in the U.S. with dangerous goods failed the bureau’s safety inspection.
“Despite all these problems, most of the time it arrives safely,” Lennard said.
But when there is a crisis — a ship hits rough weather, or a container carrying a chemical ignites in summer heat — accidents can have catastrophic impacts.
How often do shipping container spills happen? There’s no clear answer.
Existing tracking efforts are fragmented and incomplete. Although a few shipwrecks and disasters grab headlines, like the March crash of a cargo ship into a Baltimore bridge, much less is known about how often containers are lost piecemeal or away from major ports.
To date, the most widely cited figures on lost shipping containers come from the World Shipping Council. The group’s membership, which carries about 90% of global container traffic, self-reports their losses in a survey each year.
Over 16 years of collected data through 2023, the group said an average of 1,480 containers were lost annually. Their recent figures show 650 containers were lost in 2022 and only about 200 last year.
Elisabeth Braw, senior fellow with the Atlantic Council’s Transatlantic Security Initiative, said self-reported surveys miss the full picture.
For example, not included in the 2023 tally were 1,300 containers from the cargo ship Angel, which sank near Taiwan’s Kaohsiung port. That’s because the ship’s operators aren’t members of the World Shipping Council.
Lloyd’s List Intelligence, a maritime intelligence company that’s tracked thousands of marine accidents on container ships over the past decade, told AP that underreporting is rampant, saying ship operators and owners want to avoid insurance rate hikes and protect their reputations.
Marine insurers, which are typically on the hook to pay for mishaps, likely have access to more complete data on losses – but no laws require that data to be collected and shared publicly.
World Shipping Council president and CEO Joe Kramek said the industry is researching ways to reduce errors in loading and stacking containers, as well as in navigating ships through turbulent waters.
“We don’t like when it (a container loss) happens,” said Kramek. “But the maritime environment is one of the most challenging environments to operate in.”
Earlier this year, the United Nations’ International Maritime Organization adopted amendments to two global ocean treaties aimed at increasing transparency around lost shipping containers. Those changes, expected to take effect in 2026, will require ships to report losses to nearby coastal countries and to authorities where the vessel is registered.
But with no enforceable penalties, it remains to be seen how extensively operators will comply.
Alfredo Parroquín-Ohlson, head of cargo in the IMO’s maritime safety division, said, “We just encourage them and tell them how important it is, but we cannot be a police.”
It’s not just environmentalists who worry. Some lost containers float for days before sinking — endangering boats of all sizes, from commercial vessels to recreational sailboats.
The sporting body World Sailing has reported at least eight instances in which crews had to abandon boats because of collisions with what were believed to be containers. In 2016, sailor Thomas Ruyant was 42 days into a race around the world when his sailboat’s hull split from a sudden crash with what appeared to be a floating container.
“It gives me the shivers just thinking about it,” he said in a video dispatch from his damaged boat as he steered toward shore.
In Sri Lanka, the consequences of the X-Press Pearl accident linger, three years after the ship went down.
Fishermen have seen stocks of key species shrink, and populations of long-lived, slow-reproducing animals such as sea turtles may take several generations to recover.
For his part, Lewis, the volunteer beach cleaner in Washington state, said he wonders about all the debris he doesn’t see wash up on his shores.
“What’s going to happen when it gets down deep and, you know, it just ruptures?” he said. “We know we’ve got a problem on the surface, but I think the bigger problem is what’s on the seafloor.”
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Larson and Wieffering reported from Washington, D.C. Bharatha Mallawarachi contributed reporting from Colombo, Sri Lanka.
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This story was supported by funding from the Walton Family Foundation and the Howard Hughes Medical Institute’s Science and Educational Media Group. The AP is solely responsible for all content.
Witnesses testified that the company that operated an experimental deep-water submersible that imploded, killing five people, put profits over safety and ignored warning signs before the disaster. Several company officials, meanwhile, spoke of the explorer spirit and taking calculated risks to push humankind’s boundaries.
Those different viewpoints emerged as the Coast Guard panel on Friday wraps up two weeks of testimony on the Titan disaster last year. The panel is tasked with determining why the carbon-fiber submersible was lost 12,500 feet (3,810 meters) deep on the ocean floor near the wreck of the Titanic.
Testimony painted contrasting images of greed and hubris as OceanGate sought out well-heeled clients for its submersible made from carbon fiber — a material that was untested at such depths — versus modern-day explorers who carefully considered risks as they sought to open the deepest depths of the world’s oceans to more people.
Guillermo Sohnlein, who helped found OceanGate with Stockton Rush, described the lofty goal “to give humanity greater access to the ocean, specifically the deep ocean.” Using carbon fiber for the pressure hull was hardly a novel idea, he said, and noted Rush himself was the first human to test the design.
But former operations director David Lochridge said the company was committed only to profit making.
“The whole idea behind the company was to make money,” he testified. “There was very little in the way of science.”
Witnesses could not even agree on what to call the wealthy clients who paid $250,000 for the experience. Some said they were simply passengers, even though OceanGate called them “mission specialists” who were given tasks.
Killed in the implosion were Rush and four others including Paul-Henri Nargeolet, who was director of underwater research for RMS Titanic, which holds the legal rights to salvage the wreck of the ship. Nargeolet’s family is suing for more than $50 million, accusing the sub’s operator of gross negligence.
The carbon-fiber pressure hull of Titan was the subject of much of the discussion. An expert witness, Roy Thomas, senior principal engineer at the American Bureau of Shipping, testified that carbon-fiber may be strong and light, but that it’s tricky to manufacture. Carbon fiber also is “susceptible to fatigue failure” under repeated pressurization and salt water can weaken the material in multiple ways, he said.
Coast Guard officials noted at the start of the hearing, held in South Carolina, that the submersible had not been independently reviewed, as is standard practice.
Witnesses testified they had heard loud cracking sounds in past descents. And scientific director Steven Ross said that, on a dive just a few days before the Titan imploded, the vessel became unstable because of a ballast problem, causing passengers to tumble and crash into a bulkhead.
During its final dive on June 18, 2023, the crew lost contact after an exchange of texts as it descended. One of the last messages from Titan’s crew to the Polar Prince support ship before the submersible imploded stated, “all good here.” The crew of Polar Prince, meanwhile, grew increasingly concerned.
Ships, planes and other equipment assembled for a rescue operation about 435 miles (700 kilometers) south of St. John’s, Newfoundland. Wreckage of the Titan was subsequently found on the ocean floor about 330 yards (300 meters) off the bow of the Titanic, Coast Guard officials said.
Wreckage of theTitan’s innovative carbon fiber hull was found separated into three distinct layers, US National Transportation Safety Board engineer Donald Kramer has told a Coast Guard hearing into the fatal implosion of the OceanGate submersible in 2023.
Although Kramer would not offer an opinion on what caused the hull to delaminate into separate layers, he testified to multiple problems with the hull, beginning with its manufacture in 2020.
Using samples of carbon fiber saved from its construction, as well as dozens of pieces recovered from the seabed, the NTSB gave the most complete picture to date of the experimental nature of the Titan’s hull.
After the Titan’s first hull was found to have a crack and delamination following deep dives in 2019, OceanGate switched manufacturers to replace it.
The new manufacturer, Electroimpact, used a multistage process to wind and cure the five-inch-thick hull in five separate layers. Each layer would be baked at high temperature and pressure before being ground flat, having an adhesive sheet added, and another layer built on top. The idea of this multistep process was to reduce wrinkles in the final hull that the company believed had caused test models to fail short of their design depths.
However, Kramer testified that the NTSB found several anomalies in the fresh hull samples. There was waviness in four of the five layers, and wrinkles that got progressively worse from layer to layer. The NTSB also found that some layers had porosity—gaps in the resin material—four times larger than specified in the design. It also recorded voids between the five layers.
On Monday, Roy Thomas, a materials expert from the American Bureau of Shipping, told the hearing: “Defects such as voids, blisters on surface, and porosity can weaken carbon fiber, and under extreme hydrostatic pressure can accelerate the failure of a hull.”
OceanGate did not make any additional test models using the new multistage process.
The NTSB was able to recover many pieces of the carbon fiber hull from the seafloor, one still attached to one of the submersible’s titanium end domes. In a report issued simultaneously with Kramer’s testimony, the NTSB noted that there were few, if any, full-thickness hull pieces. All of the visible pieces had delaminated into three shells: the innermost of the five layers, a shell made of the second and third layers, and another with the fourth and fifth layers. Like an onion being peeled, the hull had largely separated at the adhesive joining the layers.
Debris of the Titan submersible on the seabed after imploding, captured on film by a remotely operated vehicle.Photograph: Reuters
After they left, the Titan was rebuilt with a new hull that was never tested to industry norms nor certified by an independent third-party agency. Patrick Lahey, CEO of submersible maker Triton Submarines, said that certifying a novel hull was not only possible but essential for safety.
“We were developing and certifying the deepest diving sub in the world at the same time they were developing this amateurish contraption,” he testified. “There was absolutely no reason they couldn’t have got it certified.”
A History of Troubled Titanic Missions
OceanGate’s first missions to the Titanic in 2021 were beset with problems, including the Titan’s forward titanium dome falling off after a dive, worrying readings on the acoustic monitoring system, and a thruster failing at 3,500 meters’ depth. One Coast Guard evidence slide showed 70 equipment issues requiring correction from the season’s dives. Things improved slightly the following year, with only 48 recorded issues. But these included dead batteries extending a mission from around seven to 27 hours, and the sub itself being damaged on recovery.
One dive in 2022 ended with a mysterious loud bang and cracking noise upon surfacing. Antonella Wilby, an OceanGate engineering contractor, was so worried about this bang she considered alerting OceanGate’s board of directors. She testified that another employee warned her that she risked being sued if she did so. “Anyone should feel free to speak up about safety without fear of retribution, and that is not at all what I saw,” she said. “I was entirely dismissed.”
On the Titan’s penultimate dive in 2023, contractor Tym Catterson admitted to failing to carry out a safety check; the Titan was left listing at a 45-degree angle for an hour, piling up those on board.
Conflicting Views on the Carbon Fiber Hull
There was conflicting testimony on the safety of the Titan’s unique carbon fiber hull. Dyer pointed out that carbon fiber could be a good fit for deep submersibles, and Nissen was adamant that computer modeling and the acoustic monitoring warning system meant that it could be used indefinitely. Lochridge, Catterson, and former HR director Bonnie Carl were all far more skeptical about the hull’s design and implementation. But all three acknowledged that they were not engineers.
Next week’s appearances by Nissen’s successor, Phil Brooks, more submersible engineers, and a carbon fiber expert from Boeing should address many of these questions. In particular, testimony next Wednesday from an engineer at the National Transportation Safety Board’s Materials Laboratory about the Titan’s wreckage may identify the physical cause of the implosion.
Where Was the Coast Guard?
At several points, investigators pointed out that the Titan should have been inspected by the US Coast Guard before carrying paying passengers. None of those questioned could say why it was not, despite OceanGate apparently contacting the Coast Guard on multiple occasions to provide notice of its underwater operations.
Lochridge also testified that OSHA had told him in 2018 that it had communicated his safety complaints to the Coast Guard. At least one of the five US Coast Guard witnesses being called next week is based in the Puget Sound, near OceanGate’s headquarters, and may be able to speak to this.
US Coast Guard Rear Admiral John Lockwood, who joined OceanGate’s board in 2013, is not on the witness list. Lochridge and Carl testified that Lockwood’s role was to provide oversight and smooth interactions with the Coast Guard.
Missing Witnesses
Nor is Lockwood the only notable absentee from the witness box. Multiple witnesses this week testified to the key roles of OceanGate employees, including Wendy Rush, Scott Griffith, and Neil McCurdy, in making crucial business, regulatory, and operational decisions throughout OceanGate’s history and on the day of the accident. None are being called to testify. Nor have any of the hulls’ manufacturers been called. The Coast Guard has not provided a reason for this other than to deny that it is because those witnesses would have asserted their Fifth Amendment rights to refuse to answer questions.
The US Coast Guard’s Titan submersible hearing kicked off with a startling revelation.
“I told him I’m not getting in it,” former OceanGate engineering director Tony Nissen said to a panel of Coast Guard investigators, referring to a 2018 conversation in which CEO Stockton Rush allegedly asked Nissen to act as a pilot in an upcoming expedition to the Titanic.
“It’s the operations crew, I don’t trust them,” Nissen told the investigators. “I didn’t trust Stockton either. You can take a look at where we started when I was hired. Nothing I got was the truth.”
Nissen’s testimony, which focused on the design, building, and testing of OceanGate’s first carbon fiber submersible, was a dramatic start to nearly two weeks of public testimony in the US Coast Guard Marine Board of Investigation’s hearings into the fatal June 2023 implosion of the Titan. Its five occupants, including Rush, all likely died instantly.
Before Nissen took the stand, the Coast Guard presented a detailed timeline of OceanGate as a company, the development of the Titan submersible, and its trips to the wreck of the Titanic, resting nearly 3,800 meters down in the north Atlantic. These slides revealed new information, including over 100 instances of equipment failures and incidents on the Titan’s trips in 2021 and 2022. An animated timeline of the final few hours of the Titan also included the final text messages sent by people on the sub. One sent at about 2,400 meters depth read “all good here.” The last message, sent as the sub slowed its descent at nearly 3,400 meters, read “dropped two wts.”
The Coast Guard also confirmed reports that the experimental carbon fiber sub had been stored in an outdoor parking lot in temperatures as low as 1.4 degrees Fahrenheit (–17 Celsius) in the run-up to last year’s Titanic missions. Some engineers worried that water freezing in or near the carbon fiber could expand and cause defects in the material.
Nissen said that almost from when he joined OceanGate in 2016, Rush kept changing the company’s direction. A move to certify the vessel with an independent third party fell by the wayside, as did plans to test more scale models of the Titan’s carbon fiber hull when one failed early under pressure. Rush then downgraded titanium components to save money and time. “It was death by a thousand cuts,” Nissen recalls.
He faced tough questioning about OceanGate’s choice of carbon fiber for a hull and its reliance on a newly developed acoustic monitoring system to provide an early warning of failure. One investigator raised WIRED’s reporting that an outside expert Nissen hired to assess the acoustic system later had misgivings about Rush’s understanding of its limitations.
“Given the time and constraints we had,” Nissen said, “we did all the testing and brought in every expert we could find. We built it like an aircraft.”
Nissen walked the Coast Guard board through deep-water testing in the Bahamas in 2018, during which he says the sub was struck by lightning. Measurements on the Titan’s hull later showed that it was flexing beyond its calculated safety factor. When a pilot subsequently found a crack in the hull, Nissen said, he wouldn’t sign off on another dive. “I killed it,” he testified. “The hull is done.” Nissen was subsequently fired.
Throughout history, there have been several notable spills — oil in the ocean, molasses in Boston, and the New York Times reminds us Tuesday of the legacy of the Great Lego Spill of 1997.
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