Tag Archives: coast

Groundbreaking Discovery: Giant Squid DNA Uncovered in Deep Canyon Off Australia’s Coast

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Utilizing environmental DNA (eDNA) from depths exceeding 4 km off the coast of Western Australia’s Ningaloo, researchers have identified an astounding 226 species spanning 11 major animal groups. This includes remarkable finds like the giant squid, which hasn’t been previously documented in the region, as well as species believed to be new to science.

When a giant squid, measuring 10 to 12 feet long, approaches Medusa’s e-jelly lure, it realizes the e-jelly is not bait and retreats. Image credit: Edie Widder and Nathan Robinson.

“Our findings underscore the vast unknowns within Australia’s deep sea ecosystems,” stated Dr. Georgia Nester, the lead researcher from Curtin University, now enrolled at the University of Western Australia.

Dr. Nester and her team from the Schmidt Ocean Institute’s R/V Falco conducted a survey of the Cape Ranges and Croats submarine canyon, roughly 1,200 km north of Perth, collecting over 1,000 samples from depths as deep as 4,510 m.

Employing eDNA techniques, they documented the species inhabiting these deep-sea environments without direct observation or capture.

Among their significant discoveries was evidence of the giant squid (Architeuthis dux), detected across six separate samples from both the Cape Mountains and Cloetes Valley, alongside pygmy sperm whales (Kogia breviceps) and beaked whales (Ziphius cavirostris).

“Only two previous records of giant squid exist in Western Australia, with no sightings for over 25 years,” noted Dr. Lisa Kirkendale from the Western Australian Museum.

“This marks the first detection of a giant squid using the eDNA protocol along the coast of Western Australia and represents the northernmost record of Architeuthis dux in the eastern Indian Ocean.”

Overall, researchers recorded a total of 226 species from 11 major animal groups, which included rare deep-sea fish, cnidarians, echinoderms, squid, marine mammals, and many more.

They also identified numerous species in Western Australian waters, such as the sleeper shark, previously unrecorded, as well as the faceless cask eel (Typhronus) and thin snaggletooth (Ladinastes demus).

“While the discovery of giant squid captivates public imagination, it’s part of a broader ecological puzzle,” explained Dr. Nester.

“We found numerous species that don’t align with existing records, indicating a significant scope of deep-sea biodiversity that remains to be uncovered.”

Curtin University researcher Dr. Zoe Richards noted, “eDNA has the potential to revolutionize how scientists explore and conserve deep-sea environments.”

“These ecosystems are vast, remote, and costly to study, yet they confront increasing threats from climate change, fishing, and resource extraction.”

“eDNA offers a scalable, non-invasive method to gain essential insights into the organisms residing there, crucial for informed conservation efforts.”

“You can’t protect what you don’t know exists. The sheer volume of discoveries, including megafauna, emphasizes that we have much to learn about marine life in the Indian Ocean.”

The team’s findings are published in the journal Environmental DNA.

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Georgia M. Nester et al. 2026. Environmental DNA reveals diverse and expanding biodiversity in underwater canyons in the eastern Indian Ocean. Environmental DNA 8 (2): e70261; doi: 10.1002/edn3.70261

Source: www.sci.news

Discover the Omnivorous Rodent-like Mammal that Thrived Along the Pacific Coast During the Age of Dinosaurs

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Paleontologists have unveiled a remarkable discovery—a new species of multituberculous mammal from the genus Simolodon based on fossils found in Baja California, Mexico.

Illustration of Simolodon de Sosai holding fruit on a tree. Image credit: Andrei Atutin.

The newly identified mammal, Simolodon de Sosai, roamed the region that is now Mexico approximately 75 million years ago, during the Cretaceous period.

This ancient creature was about the size of a golden hamster, weighing around 100 grams.

It likely foraged on the ground and in trees, primarily consuming fruits and insects.

According to Professor Gregory Wilson Mantilla, a paleontologist at the University of Washington and curator of vertebrate paleontology at the Burke Museum, “Genus Simolodon was quite prevalent during the Late Cretaceous, the final chapter of the dinosaur era.”

Fossils of Simolodon have been uncovered across Western North America, stretching from western Canada to Mexico.

This new species, Simolodon de Sosai, represents an ancestor of those that survived the mass extinction event.

“Its relatively small size and omnivorous diet likely contributed to its survival advantages,” said Professor Mantilla.

Fossilized remains of Simolodon de Sosai, including parts of its skeleton such as teeth, skull, jaw, femur, and ulna, were discovered in the El Gallo Formation of Baja California in 2009.

This specimen is considered the most complete mammal known from the Mesozoic era in Mexico and one of the best-studied representatives of simolodontans, a significant group of multituberculates from North America.

“Fossil discoveries here are rare when compared to other regions,” explained Professor Wilson Mantilla.

The discovery of more than just teeth for Simolodon de Sosai enhances understanding of its anatomical features and locomotion.

This contributes to a broader comprehension of the genus and its ecological niche, providing insights into the multituberculate lineage.

Research indicates that the local mammalian fauna of El Gallo is currently represented by 16 specimens, including three multituberculates, one metatherian, and one eutherian.

“While additional sampling is necessary, the existing mammalian fauna appears to exhibit the highest biogeographic similarity to the native fauna of Terlingua in West Texas,” the researchers noted.

The findings were published in a recent paper in the Journal of Vertebrate Paleontology.

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Gregory P. Wilson Mantilla et al. New skull and postcranial remains of Simolodon (Mammalia, Polytuberculata, Cymolodontidae) from the Upper Cretaceous (Campanian) El Gallo Formation of Baja California, Mexico. Journal of Vertebrate Paleontology, published online on April 22, 2026. doi: 10.1080/02724634.2026.2641109

Source: www.sci.news

Treasure Hunter Claims Recovery of $1 Million in Coins from Spanish Shipwreck off Florida Coast

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Over 1,000 gold and silver coins, valued at roughly $1 million, have been retrieved from an 18th-century shipwreck located off the coast of Florida, as reported by the Shipwreck Salvage Company.

The company, 1715 Fleet Queens Jewels, LLC, stated in a news release that it recovered the coins in July from the renowned Treasure Coast region in southeastern Florida.

This discovery is part of an estimated $400 million worth of gold, silver, and gems that were lost by the Spanish fleet during the hurricane of 1715.

“The find represents more than just treasure; it tells a story,” said Sal Guttuso, the company’s operations director, in a statement. “Every coin connects us to the lives and work of those who navigated the seas during the Spanish Empire’s Golden Age.”

Over 1,000 silver coins have been discovered from a shipwreck site in Vero Beach, Florida.
1715 Fleet – Queen’s Jewels, LLC

“Finding over 1,000 coins in one excavation is indeed rare and remarkable,” he noted.

The prized assets of the 1715 fleet included coins from Spanish colonies in Mexico, Peru, and Bolivia. Many of these coins still exhibit clear dates and mint marks, making them significant to historians and collectors alike.

“The condition of these coins indicates they likely originated from a single chest or a portion of the ship that dispersed when the hurricane struck,” the news release clarified.

During a call on Thursday, Guttuso mentioned that he discovered coins concentrated in various areas beneath the sand, indicating they were likely housed in some kind of container.

“I believe they were probably stored in wooden boxes,” he theorized.

He also revealed that he found a Royal Lead Seal inscribed with the impression of King Philip II of Spain, who reigned during the mid- to late-1500s.

“We can reasonably speculate that this lead seal may have belonged to a prominent family,” he noted. “It likely associated with important documents that may have granted ownership of land or rights.”

Fragments and gems from a golden chain were also retrieved.
1715 Fleet – Queen Jewels, LLC
Gold artifacts were also found in Vero Beach, Florida.
1715 Fleet – Queen Jewels, LLC

The Queen’s Jewels of the 1715 Fleet claims exclusive salvage rights to the wreck of the Treasure Fleet but stated that the recovered coins will undergo meticulous conservation before being publicly displayed, with plans for exhibition at a local museum.

“Each discovery contributes to piecing together the narratives of those connected to the 1715 fleet,” Guttuso remarked. “We are dedicated to preserving and researching these artifacts, enabling future generations to recognize their historical importance.”

Requests for comments on the findings were not immediately returned by the US District Court of Florida or by Florida Governor Ron DeSantis’s office.

Matt Raviet

Matt Lavietes is a reporter for NBC News.

Christian Santana I contributed.

Source: www.nbcnews.com

As Key Atlantic Currents Decelerate, US East Coast Confronts Rising Sea Levels

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AMOC is a system of ocean currents that circulates water in the Atlantic Ocean.

NASA/Goddard Space Flight Center Scientific Visualization Studio

The decline in significant Atlantic currents is contributing to flooding linked to rising sea levels in the northeastern United States, which are already affected by climate change. As global temperatures increase, a total collapse of the Atlantic Meridional Overturning Circulation (AMOC) could exacerbate sea level rise.

“If AMOC collapses, this will greatly increase flood frequency along the US coastline, independent of major storms,” states Liping Chan from the Geophysical Fluid Dynamics Laboratory at the US National Oceanic and Atmospheric Administration (NOAA) in New Jersey. “Even a partial reduction in current strength can have significant consequences.”

The warm waters melting ice sheets and rising sea levels are influenced by climate change, which leads to uneven rates of sea level rise across different regions. For instance, some coastal areas have subsided, increasing the relative rate of sea level rise there. Local sea levels are also affected by the circulation of heat, water, and salt in the ocean, with warm, fresh water occupying more volume than cold, salty water.

Over the past few decades, sea levels along the northeastern US coast have risen 3-4 times faster than the global average. The slowing of AMOC—responsible for transporting warm water from lower latitudes to the North Atlantic, where it cools and sinks—has long been considered a potential cause of this phenomenon. As this circulation weakens, warm deep water expands, pushing more water onto the shallow continental shelf.

AMOC strength varies naturally over different timescales, and climate change has contributed to its slowdown as the North Atlantic and its waters have become warmer and clearer in recent decades. However, it remained uncertain whether this decrease significantly affected sea levels.

Chang and her team utilized tidal gauge measurements from the New England coast to reconstruct local sea levels dating back over a century. Alongside a steady rise due to climate change, they identified significant fluctuations between low and high sea levels every few decades. Low sea levels correlated with periods of weak AMOC, while high sea levels were also aligned with these intervals, which brought more frequent coastal flooding.

The researchers then employed two distinct ocean models to quantify the impact of AMOC intensity variations on local sea levels. While the primary driver of change was the steady rise due to climate change, they discovered that weakened AMOCs significantly increased sea-level-related flooding. In multiple coastal regions, they noted that the slowdown in AMOC has contributed to delaying flooding by 20-50% since 2005.

Given that the natural cycle of AMOC strength is largely predictable, Zhang asserts that these findings enable researchers to forecast potential flooding events up to three years in advance. This foresight can guide long-term infrastructure planning and emergency preparedness.

“This highlights the critical role of AMOC in [sea level rise],” remarks Chris Hughes, who was not involved in the research, from the University of Liverpool in the UK. “It’s not merely theoretical; it’s evident in the real world.”

It remains unclear how much of the recent AMOC weakening is attributable to climate change versus natural variability. Nevertheless, the findings bolster predictions that if AMOC were to completely collapse due to climate change, significant portions of the US East Coast could experience a surge in sea levels.

Hughes warns that if AMOC nearly collapses, sea levels could rise by around 24 centimeters. “While it may not seem dramatic, even a small increase can have a substantial effect.”

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Source: www.newscientist.com

Potential Eruption Imminent for Underwater Volcano off Oregon’s Coast

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An underwater volcano, located approximately 300 miles from the Oregon coast, seems to be reawakening.

Researchers monitoring this extensive submarine volcano over the years report that it may erupt due to recent signs of activity, such as nearby earthquake increases and inflation of the volcano’s structure.

Bill Chadwick, a volcanologist and research professor at Oregon State University, forecasts that the volcano, known as Axial Seamount, could erupt at any moment before the year’s end.

3D representation of the Axial Seamount’s marine bottom.
Oregon State University

Chadwick and his team at the University of Washington and the University of North Carolina Wilmington leverage networks of underwater sensors to monitor volcanoes.

Recently, these instruments detected signs of unrest within the volcano. For instance, in late March and early April, researchers recorded over 1,000 earthquakes daily. The ongoing swelling of the volcano indicates it is filled with molten rock, according to Chadwick.

“This volcano is akin to Hawaiian volcanoes that erupt highly fluid lava,” he stated. “They tend to expand like balloons during eruptions. At Axial, the seafloor is actually rising, which is a significant indicator.”

However, unlike some Hawaiian volcanoes, there is minimal risk to human life if the Axial Seamount erupts.

Being hundreds of miles offshore and submerged about a mile deep in the ocean ensures that even powerful eruptions go unnoticed on land.

“There’s no explosive activity, so it really won’t impact people,” Chadwick remarked. “If you were on a boat nearby during an eruption, you likely wouldn’t even notice it.”

That said, such an eruption can still be a remarkable event. Researchers noted that the last eruption of Axial Seamount in 2015 released massive amounts of magma.

“For perspective, it’s roughly two-thirds the height of Seattle’s Space Needle,” Chadwick explained. “That’s a substantial amount of lava.”

The Axial Seamount formed over a geophysical hot spot, where a plume of molten rock rises from the Earth’s mantle to the crust. This geological process is common; hotspot volcanoes are found across the seabed, with some forming chains of islands like those in Hawaii and Samoa. What sets Axial Seamount apart is its position along the boundary of the Pacific and Juan de Fuca plates. The separation of these plates and the pressure that builds beneath the seafloor consistently drive volcanic activity and create new oceanic crust in the region.

A map displaying the relationship of Axial Seamount to the Cascadia subduction zone and the Mendocino fracture zone.
Susan Merule / Oregon State University

Chadwick has observed the activities of Axial Seamount for three decades, with eruptions recorded in 1998, 2011, and 2015.

As he and his colleagues anticipate a potential eruption, they are exploring whether patterns of activity at Axial Seamount offer reliable predictions for when an underwater volcano may erupt.

However, accurately predicting eruptions remains a challenging endeavor. Volcanoes can behave unpredictably, and their warning signs can vary significantly.

“They are full of surprises,” commented Scott Nooner, a geophysics professor at the University of North Carolina Wilmington. “It’s uncertain whether magma is still moving beneath the Earth’s surface.”

Scientists have achieved some success with short-term predictions—usually just hours prior to an eruption—to help local authorities decide on evacuations or other necessary precautions. Long-term predictions, however, remain elusive.

This is why, according to Nooner, Axial Seamount serves as an excellent natural laboratory for testing eruption prediction models.

“On land, predicting an eruption weeks or months in advance can lead to substantial financial and emotional costs if incorrect. Luckily, eruptions at Axial Seamount don’t endanger anyone, so it’s safer to test models and refine predictions here without the same consequences as on land,” he concluded.

Source: www.nbcnews.com

Denisovan Expands its Territory to the Pacific Coast of Asia

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For decades, fishermen sailing off the coast of Taiwan have occasionally discovered bones from other large mammals that lived tens of thousands of years ago, such as elephants, buffaloes, and other large mammals.

However, in 2010, Taiwanese paleontologists were presented with a particularly strange discovery. This fossil looks like half the jaw of a gorilla. Scientists have been baffled by it ever since.

The mystery of the underwater jaw has now been solved. Wednesday, the researchers team made an announcement that it was part of Denisovan, a member of the mystical human lineage associated with the Neanderthals. This finding greatly expands the range of well-identified denisovan fossils previously known from Siberia and Tibet.

“Indeed, Denisovan was east all the way to the coast,” says Frido Welker, a molecular anthropologist and author of the new study.

Chun-hsiang Chang, a paleontologist at the National Museum of Natural Sciences of Taiwan, first learned about the jaws from a private collector in 2010. After examining it, he quickly determined that it did not belong to a gorilla, as gorillas and other apes have U-shaped jaws. Instead, the fossil jaws were angled outward from the jaw, just like ours.

However, the jaws were missing the prominent jaws seen in modern-day humans. “At the time, I thought it looked human, but not like modern-day human,” Dr. Chang said. “I thought it was very important, so I pushed the private collector to lend it to my museum.”

Over the next five years, Dr. Chang studied the jaw anatomy, working with an international group of scientists. Its shape resembles the jaws of extinct relatives of humans known to have lived in Asia for over a million years. However, Penghu 1 also had distinctive features, including large teeth.

Determining the age of Penghu 1 was also a challenge, as they were not sure exactly where Dr. Chang discovered it on the seabed. He and his colleagues analyzed the chemistry of the jaw and discovered that it resembles that of fossils of hyena species that evolved in East Asia about 400,000 years ago.

At that time, Taiwan was separated from the mainland by water. However, 190,000 years ago, sea levels fell sufficiently to create a land bridge that lasted until 130,000 years ago. The ocean then rose again until 70,000 years ago. This pattern continued until 10,000 years ago when another land bridge formed. Dr. Chang and his colleagues believe that Penghu 1 lived in one of these periods when sea levels were lower.

One possibility was that Penghu 1 belonged to a mysterious group of humans called Denisovans. Researchers discovered Denisovan in 2010 while examining fossils from the Siberian Denisova Cave. The bones of teeth and fingers contain ancient DNA with unusual mutations, revealing previously unknown human strains.

Subsequent research shows that Denisovans, Neanderthals, and modern humans share common ancestors who lived in Africa about 600,000 years ago. The Neanderthal and Denisovan ancestors migrated from Africa, and then these two lineages split about 400,000 years ago, with the Neanderthals spreading to Europe in the west.

Denisovan’s spread was difficult to chart. For years, the only known Denisovan fossils have been teeth and bone fragments found in Denisova caves. However, a valuable clue comes from living humans. Many people in East Asia and the Pacific today have small amounts of Denisovan DNA, suggesting that Denisovans must have interbred with East Asian Homo sapiens before their extinction and lived far beyond Siberia.

Dr. Chang and his colleagues noticed that the teeth in the Penghu 1 jaw resemble the teeth found in the Denisova Cave. But those clues were not enough to link them. They attempted to search for DNA in their jaws but found nothing. This was not surprising given that the Penghu 1 fossils had been sitting on the seabed for thousands of years.

After Dr. Chan’s team revealed their analysis in 2015, Penghu 1 became an even more enigmatic, human-like fossil at the museum. “Our research was stagnant,” Dr. Chan said.

Over the next few years, Dr. Welker and other researchers pioneered ways to recover ancient proteins from fossils. They discovered that even if a fossil loses all its DNA, it could still retain protein fragments.

Using such methods, Dr. Welker studied the 160,000-year-old jaws found in a high-altitude cave in Tibet. In 2019, the team reported that Tibetan fossils contained fragments of ancient collagen and other proteins.

These proteins resemble modern human proteins but also exhibit differences indicating that the jaw belonged to a Denisovan.

With that discovery, Dr. Welker searched other Asian fossil scientific literature for jaws resembling the Tibetan jaws that could be tested for proteins.

“That’s when the lower jaw of Penghu came on my radar,” he said.

Both the Tibetan and Taiwanese jaws had very large teeth. Dr. Welker and his colleagues reached out to Dr. Chang. In 2023, Dr. Chang and his team flew to Copenhagen with their jaws. Analysis of the results revealed protein fragments that were only present in Denisovans.

“Since the first publication of Penghu’s lower jaw, many of us thought it might be Denisovan, mainly based on being in the right place at the right time,” said Bens Viola, a paleontologist at the University of Toronto, who was not involved in the study. “But of course, assumptions are assumptions, and we need actual data to validate them.”

Another clue came from fragments of enamel protein in the teeth. Modern humans carry enamel genes on the X chromosome, while men carry slightly different enamel genes on the Y chromosome. Denisovan was carrying the Y-chromosome version, indicating that it belonged to a male adult.

The two Denisovan jaw anatomy may turn out to be a hallmark of male Denisovan. Women’s Denisovan may have a thinner anatomy, but scientists will need more evidence to know for sure.

The discovery of other Denisovan fossils could expand the scope of humanity. In 2022, researchers found teeth from 160,000 years ago in a cave in Laos. They resemble the teeth of the jaw in Tibetan Denisovan. Anyone who lived there would have had to survive in the tropical forests far from Siberia.

However, Laos’ teeth do not contain DNA, and the protein fragments did not clarify the type of human it belonged to. However, the cave and its neighbors still retain many teeth that have not been fully analyzed. Other traces of Denisovan may not have been found in the museum yet.

But so far, evidence reveals that Denisovans were able to thrive for thousands of miles and in a variety of environments. Janet Kelso, a paleontologist at the Max Planck Institute for Evolutionary Anthropology, was impressed by the differences between the Penghu 1 protein and the protein found in Tibet. As Denisovans expanded throughout different environments, they adapted and became genetically distinct populations.

“There’s still a lot to learn about Denisovan,” she said.

Source: www.nytimes.com

SpaceX Astronauts Departing from California Coast for Historic Flight

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Four civil astronauts concluded their mission on SpaceX vehicles on Friday, landing in waters near Oceanside, California.

This marked the first time the company had brought people back to Earth in the Pacific Ocean after six years of Dragon Capsules splashing down in the Atlantic or Gulf of Mexico.

The FRAM2 mission orbited the Earth for four days in a north-south trajectory, allowing astronauts to witness North and Antarctica directly from space for the first time.

SpaceX relocated its operations to the Pacific Ocean to prevent dragon capsule debris from falling into random parts of the Earth. The vast expanse of the Pacific Ocean and favorable weather along the US West Coast provided a safe and conducive environment for the astronauts’ return.

The first SpaceX Astronaut Mission, a test flight in May 2020, saw Douglas Hurley and NASA’s Robert Behnken launching to the International Space Station. They returned just two months later, splashing down in the Gulf waters off Pensacola, Florida. This mission introduced SpaceX’s upgraded Dragon 2 capsule design.

Subsequently, there were nine NASA-funded flights, five private flights, and ten cargo missions to the International Space Station, all safely landing in Florida.

However, fragments of the spacecraft’s trunk began descending in unexpected locations, such as Australian sheep fields and North Carolina hiking trails. While no injuries or property damage occurred, the continuous rains of space debris pose a risk that needs to be addressed.

SpaceX had initially expected the spacecraft’s trunk to completely burn up during re-entry, but this turned out to be untrue. Therefore, last year, SpaceX announced changes to their Dragon Landing process.

The Dragon Trunk is now abandoned later in the return journey after the spacecraft uses thrusters to deorbit. This ensures targeted debris disposal, with the Pacific Ocean providing a safe area for debris to land without posing a threat to people.

Previously, the Dragon Trunk remained on trajectory for extended periods without a clear prediction of its re-entry location.

The milder Pacific climate also benefits NASA in scheduling missions.

SpaceX’s move partially to the Pacific Ocean for Dragon Landing meets NASA’s requirements for faster processing of scientific experiments returning from space, allowing SpaceX time to prepare for subsequent flights.

The most recent East Coast landing featured a NASA mission returning from the space station with NASA astronauts Suni Williams and Butch Wilmore. Due to issues with the Boeing Starliner spacecraft, their stay in orbit extended over nine months. The mission ended with a playful encounter with a pod of dolphins investigating the spacecraft.

In this week’s FRAM2 mission, Chun Wang, an investor in blockchain and cryptocurrency mining, funded a private mission and chose three companions: Norwegian filmmaker Jannicke Mikkelsen, German robot researcher Laveer Lodge, and Australian explorer Eric Phillips.

Mr. Wang named the mission after the Norwegian ship Fram, which explored the Arctic Circle in the 19th century. He provided updates from orbit, including his experience with space sickness and the uniqueness of Pacific Ocean landings.

“Space motion sickness affected us all – we felt nauseous and vomited several times,” wrote Mr. Wang.

Splashdowns in the Pacific Ocean have historical significance in spaceflight, with most of NASA’s Apollo missions landing there. SpaceX’s return to Pacific landings marks a shift from previous missions primarily landing in Florida.

The curiosity of West Coast dolphins remains to be seen, adding a whimsical touch to the return of space missions.

Source: www.nytimes.com

Wildfire smoke from Canadian and West Coast wildfires spreads throughout North America

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summary

  • Smoke from the wildfires has spread across North America, threatening air quality in much of Canada, California, and the Pacific Northwest.
  • The fast-spreading fire caused widespread damage in the Canadian alpine resort town of Jasper.
  • Firefighters in Oregon, Idaho, and California are also battling blazes that are spreading quickly due to gusty winds and high temperatures.

Raging wildfires in western Canada have sent huge plumes of smoke spreading across North America in recent days, with pollution captured in images by NASA satellites, aircraft, and ground-based observatories.

An animation released by NASA on Friday showed smoke blanketing the Canadian provinces of British Columbia, Alberta, Saskatchewan, Manitoba, and the Northwest Territories and drifting into other parts of the Midwest, including Montana, Colorado, Kansas, and Wisconsin.

This map uses data from NASA to show the concentration and movement of black carbon, a type of aerosol pollution released by wildfires, over North America from July 17 to July 24.

As of Friday afternoon, there were 948 fires burning in Canada, with 387 of them considered out of control. Canadian Joint Forest Fire Centre The fast-spreading fire caused widespread damage in the popular alpine resort city of Jasper in Alberta and forced the evacuation of 25,000 people.

Massive fires in the Pacific Northwest and California are also polluting the air nearby. Air quality alerts and watches have been issued in Washington, Oregon, Idaho, Colorado, and Wyoming over the past week. Smoky skies have also been reported in North Dakota, South Dakota, and across the High Plains.

Oregon is experiencing the largest wildfire season in the US, fueled by lightning, high temperatures, and strong winds, with more than 35 out-of-control wildfires burning a combined total of nearly 1 million acres in the state.

In neighboring Idaho, fast-spreading fires forced the evacuation of the entire town of Juliaetta on Thursday, with more than 600 residents evacuated as the Gwen Fire and other wildfires burning in the area continued to grow.

Cities in Oregon, Montana, California, and Idaho topped the list of places with the worst air quality in the country on Friday. According to IQAir: For example, air pollution levels in Burns, Oregon, were listed as “hazardous,” while air quality in Stevensville, Montana, was listed as “very unhealthy,” according to a Swiss air quality monitoring company.

In California, the Park Fire has already burned more than 250 square miles in the Chico area since starting on Wednesday and remained uncontained as of Friday morning.

Firefighters are also battling the lightning-fought Gold Complex Fire in California’s Plumas National Forest, which has burned more than five square miles since July 22. As of Friday afternoon, the fire was only 11 percent contained, and winds are causing the blaze to spread quickly. According to the California Fire Department.

Smoke from wildfires that have spread eastward to New England and south to Mexico is having a variety of effects on human health.

In addition to black carbon, wildfires release carbon dioxide, carbon monoxide, a variety of chemicals, and tiny particles called particulate matter into the air. Together, these substances can irritate the eyes, nose, throat, and lungs and worsen the conditions of diabetes, heart disease, COPD, and chronic kidney disease.

Young children, older adults, pregnant women, and people with asthma or other existing respiratory conditions are at greatest risk from wildfire smoke.

Thunderstorms have played a role in igniting many wildfires in Canada and the western United States, with gusty winds, high temperatures, and more thunderstorms fanning the flames.

Summer wildfires are common in western Canada and the United States, but scientists say climate change is making them more dangerous by creating more favorable conditions for fires to start and spread. Rising temperatures also drier vegetation, making it more flammable.

Source: www.nbcnews.com

A dinosaur from the Pseudopterygota group that inhabited the Panthalassa Ocean’s coast

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US paleontologists have described a new genus and species of extinct crocodile relative based on a partially articulated skeleton found in the Middle Triassic Fossil Hill Formation of the Fabre Formation in Nevada, a pelagic region of the eastern Panthalasan Ocean rich in ammonites and giant ichthyosaurs.

Bengwigiwishingasucus Elemical Minis Pansarasan Sea coast. Image courtesy of Jorge Gonzalez.

Newly identified species Pseudobranchial reptiles It lived during the Middle Triassic period, between 247.2 million and 237 million years ago.

Named Bengwigiwishingasucus Elemical MinisThe animal probably reached a length of around 1.5-1.8 metres (5-6 feet).

It probably stayed fairly close to shore. Its limbs are well developed and well preserved, with no signs of aquatic life such as fins or changes in bone density.

“This intriguing new species provides evidence that pseudobranchs occupied coastal habitats worldwide during the Middle Triassic,” said Dr. Nate Smith, Gretchen Augustine Director and Curator of the Dinosaur Institute at the Natural History Museum of Los Angeles County.

“The area containing the Fabre Formation, which captured fossil life from the Triassic Eastern Panthalassa Ocean, is known for the fossils of marine creatures such as ammonites, as well as marine reptiles such as giant ichthyosaurs. Cymbospondylus youngholm — Newly written Bengwigiwishingasucus Elemical Minis It was a bit of a shock.”

“Our first reaction was, ‘What is this?'” said Dr Nicole Klein, a paleontologist at the University of Bonn.

“We expected to find something like a marine reptile. We couldn’t understand how a land animal could be so far out in the ocean amongst ichthyosaurs and ammonites.”

“It wasn’t until I actually saw the almost perfectly prepared specimen that I was convinced it was indeed a land animal.”

Although pseudopterygian archosaurs have been unearthed from coastal fossil beds in the Tethys Ocean, this is the first to be found in the Panthalassa Ocean and along the coasts of the Western Hemisphere, revealing that close relatives of these crocodiles were present in coastal environments worldwide during the Middle Triassic.

Interestingly, these coastal species do not all belong to the same evolutionary group, suggesting that Pseudobranchia (and Archosaurs more broadly) were uniquely adapted to life along the coast.

“Essentially, it seems like a very different group of archosaurs came together in the Middle Triassic and decided to dip their toes in the water,” Dr Smith said.

“What’s interesting is that many of these ‘independent experiments’ don’t seem to have led to a wider spread of semi-aquatic groups.”

Archosaurs appeared in the Triassic Period and split into two groups, with two representative species surviving: birds, which were descendants of dinosaurs, and pseudo-crocodile archosaurs such as crocodiles (alligators, crocodiles, and gharials). Bengwigiwishingasucus Elemical Minis.

Today’s crocodiles are similar enough to mistake them for other reptiles, but ancient species of crocodiles differed greatly in size and lifestyle.

Evolutionary relationships Bengwigiwishingasucus Elemical Minis and its relatives suggest that pseudobranchs gained great diversity very rapidly after the end-Permian mass extinction, but the extent of this remains to be elucidated in the fossil record.

“The recent and growing number of discoveries of Middle Triassic pseudobranchs suggests that there was underappreciated morphological and ecological diversity and experimentation taking place early in the group’s history,” Dr Smith said.

“Much of the public interest in the Triassic has been focused on the origin of the dinosaurs, but it was the pseudobranchs at the beginning of the Mesozoic that were actually doing interesting things.”

Discovery Bengwigiwishingasucus Elemical Minis It has been reported paper In the journal Biology Letters.

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Nathan D. Smith others2024. A new pseudobranch discovered in Nevada’s Fabre Formation indicates that archosaurs inhabited coastal regions around the world during the Middle Triassic. violet 20(7); Source: http://www.doi.gov/doi/2020240136 Source: 10.1098/rsbl.2024.0136

This article is based on a press release from the Natural History Museum of Los Angeles County.

Source: www.sci.news

Heatwave strikes California and other areas along the West Coast

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The West Coast is facing a dangerous heatwave that is expected to peak on Saturday, putting people at risk of health issues long after temperatures reach their highest point. According to a national update on Friday, forecasters anticipate that a wide range of temperature records will be broken or tied, with temperatures in California expected to reach the 110s on Saturday. The hot weather will persist well into the following week, raising concerns about health risks such as heart attacks and heat strokes, especially among older adults and individuals with chronic diseases.

At Sunrise Farm near Coachella, California on July 3rd.Mario Tama/Getty Images

The heatwave is expected to persist for more than a week, prompting warnings from the National Weather Service about record-breaking temperatures in California, Oregon, and Washington. Areas like the Sacramento Valley, at the heart of the heat wave, are under warning until at least next Tuesday. Meteorologists predict some relief early next week, but temperatures are still likely to exceed 100 degrees in certain regions.

Heat-related illnesses, including heat stroke, pose a significant risk during prolonged periods of extreme heat. The Centers for Disease Control and Prevention data shows a sharp increase in heatstroke-related emergency room visits, with the incidence more than doubling in recent days. In regions like the San Joaquin Valley in California, extreme weather conditions are expected daily next week, impacting medical facilities and infrastructure.

A construction worker in Folsom, California, on July 3.David Paul Morris/Bloomberg via Getty Images

In Portland, Oregon, health officials are concerned about residents unaccustomed to hot weather, particularly those attending outdoor events this weekend. Temperatures in Death Valley may reach deadly limits, posing risks even to healthy individuals. Experts emphasize the importance of staying hydrated and cool to prevent heat-related illnesses.

Research on the physiological limits of heat exposure indicates that older adults may succumb to heatstroke within hours when exposed to extreme heat, even indoors or in the shade without air conditioning. As temperatures continue to rise, it’s crucial to take precautions and monitor vulnerable populations to prevent heat-related fatalities.

“Understanding the impact of heatwaves on our health is vital to mitigating the risks and protecting communities,” said Dr. Lisa Patel. Stay aware of local heat advisories and follow safety guidelines to stay safe during the ongoing heatwave.

Source: www.nbcnews.com

Gigantic ancient ichthyosaur discovered on UK coast may be the biggest marine reptile in history

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Illustration of a carcass of Ichthyotitan severnensis washed up on the beach

Sergey Krasovsky

The fossilized remains of an ancient 200 million-year-old ichthyosaur unearthed on the coast of southwest England may be some of the largest marine reptiles ever discovered.

In 2020, amateur fossil hunters stumbled upon a huge chunk of bone at Blue Anchor Beach in Somerset. Upon further inspection, dean lomax He and his colleagues at the University of Manchester in England quickly realized that it was a fragment of the jawbone of a giant ichthyosaur, a type of reptile that roamed the oceans between 250 million and 90 million years ago. Noticed.

Subsequent excavations on the beach uncovered 11 more fragments, and the team was able to partially piece together the bone at the back of the jaw, called the mandible.

This latest discovery is A 2018 report describing a similar ichthyosaur jawbone Found on another Somerset beach. At the time, the research team did not have enough evidence to identify the species.

“It was clear that this was another giant jawbone,” Lomax said. “So I was very, very excited.”

After comparing the partial exohorn bone with the complete exoskeleton of other ichthyosaurs, the researchers estimated that the entire bone was at least 2 meters long, meaning the animal was about 20 to 25 meters long.

“We're working on something really huge,” Lomax says. “It would definitely be the largest officially described marine reptile.”

The properties of the exoceratops, which match those reported in 2018, mean both fossils must belong to previously undescribed ichthyosaur species, Lomax said.named by the team Ichthyotitan severnensismeaning giant fish lizard of the River Severn.

The site is about 202 million years old, just before the great global extinction event that wiped out many species, including many giant ichthyosaurs.

“They are quite literally the last giants,” Lomax says. “No ichthyosaur will ever come close to this size again.”

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Source: www.newscientist.com

Killer whale pod trapped in drift ice off the coast of Japan vanishes

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Killer whale trapped in ice off the coast of Japan

NHK/Screenshot

A pod of more than a dozen killer whales has gone missing after languishing in Japan's icy waters for nearly a day, trying to escape being trapped in an ice floe. It is unknown what happened to them, but they may have died.

Fishermen near Hokkaido first noticed the pods struggling in the thick mud early Tuesday morning. Images and drone video show at least 12 orcas. Several boys struggle in a small space It was trapped in heavy ice about 1 km offshore.

As of Wednesday morning, The containment area was empty.Japanese news outlet NHK said it gave hope that the animals may have escaped to the open waters of the Sea of ​​Okhotsk.

However, late Tuesday afternoon, a pod of 17 orcas was found trapped on an ice floe 2 kilometers northeast of their original location. NHK reporting.

“Orcas are not ice-adapted whales. They are not comfortable in this area.” colin galloway at the University of Manitoba, Canada. “So they are definitely experiencing the stress of confinement and are more likely to be starving.”

Cetaceans that permanently inhabit the Arctic region, such as narwhals (Monodon Monoceros) and belugas (Delphinapterus leucas), can sometimes become trapped in ice. Killer whale (killer whale) However, they usually avoid heavy ice and avoid getting trapped.

Still, black-and-white marine mammals can end up in icy waters at the wrong time.in 2016 reviewScientists found that since 1840, there have been 17 incidents in the Northern Hemisphere where a total of 100 orcas were trapped in ice. Almost half of them occurred in the Sea of ​​Okhotsk, Japan. Confinement usually ends in the killer whale's death, Galloway said.

Scientists believe that even the reported orcas “broken freedomAfter being trapped in the ice, they can die struggling through further ice drifts while trying to reach the open sea.

A 2019 study of ice-trapped killer whales suggests that: Mammals can live on body fat for up to 50 days before being trapped and starving to death.. Sightings of orcas trapped in the ice have increased in recent years, as the Arctic ice melts and curious orcas seek new territory to explore.

Global warming may indeed be playing a role, Galloway says. His team is currently investigating the environmental impact of killer whales' gradual northward migration. But it's also possible that entrapment incidents simply appear to be more common because people are reporting more incidents.

“Just because we've gotten better at detecting, observing, and recording climate warming, and we're more interested in it, it's very difficult to disentangle the relationship between climate warming.” “That's one of the predictions,” he says.

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Source: www.newscientist.com