California swimmer has very lucky escape after encounter with 'curious' great white shark

A lucky swimmer managed to escape after a 'curious' great white shark reportedly bumped into them at a California beach.
The terrifying incident took place Tuesday around 10.30am at Torrey Pines State Beach in San Diego when a shark was spotted swimming offshore near Lifeguard Tower #5, park officials said.
Shortly after, an investigation determined the shark measured about seven to eight feet in length and swam away after its brief interaction with the unidentified swimmer.
Several warning signs were posted at beach access points near Towers #2, #5 and #7 after the sighting. The warnings remained in place for 24 hours.
Though it is not uncommon for the sea creatures to make their way back to the warm California beaches this time of year, it is 'rare' to see them 'bump' into people, Shark Lab director Chris Lowe told NBC San Diego.
'It's actually really rare for sharks to actually bump swimmers or surfers,' he explained.
'We have lots of sharks, and we have lots of people, usually in close proximity to each other all summer long, and the sharks tend to ignore people.'
Lowe believes the shark might have collided with the swimmer because it was startled or possibly just curious about them.
Jack Elstner, a PH.D. student at Scripps University of Oceanography, echoes Lowe's mention that this is the exact time of year sharks, specifically juveniles, come back to the shores of Southern California.
'Juvenile white sharks use near-shore beach environments as nursery habitats, and they like these areas because the waters are warm, which allows the sharks to grow quickly,' Elstner told ABC 10News.
'There's tons for them to eat, so there are lots of stingrays and little fish.'
When he heard about the size of the shark, Elstner said he immediately knew it was young.
'These sharks really like the warmer water temperatures, so when the water gets cold, they go south down to Baja a lot of the times, but when the water warms up in Southern California, we start to see them coming back to our beaches,' he added.
Although many fear sharks coming back to parts of the ocean for the summer, Elstner said it is actually a great sign that they return.
'A lot of people think that shark sightings can be scary, and of course these are large predators in the ocean that we have to respect, but also the presence of sharks in these habitats is a sign that the ecosystem is healthy and recovering,' he continued.
Lowe still advised beach-goers to remain cautious as the weather warms up, not just because of sharks, but also other sea animals.
'They're always out there,' he said. 'Go enjoy the beach, enjoy the water, know that these animals are out there. Remember that there are also stingrays out there, and stingrays hurt about 10,000 people a year in California.'
California State Parks shared the same reminder, telling DailyMail.com: 'California State Parks would like to remind visitors that sharks are an important part of the coastal ecosystem and that interactions between humans and sharks are rare along the Southern California coast.'
Shark season in San Diego hits a peak in July or August and can sometimes go into September. The season in general takes place April-November.
News of this sighting comes months after an enormous great white shark was seen stalking a popular Florida beach in January.
The 1,400-pound, 13-foot shark was detected prowling the waters off Florida's coastline as authorities warned beachgoers to be on the lookout for the fish.
The shark, nicknamed 'Breton,' surfaced an astonishing four times in a single day near Daytona Beach.
According to data from OSEARCH - a globally renowned nonprofit dedicated to marine research - Breton first pinged his presence days before, but it was the constant flurry of activity that set researchers and locals abuzz.
The shark's tag, a sophisticated tracking device affixed to his dorsal fin, indicated his movements every time he surfaced - providing a rare and chilling glimpse into the habits of these ocean predators.
Breton's fin was tagged during OSEARCH's 2020 Nova Scotia expedition with the hulking predator named after Cape Breton, where scientists first encountered him.
Over the past four-and-a-half years, Breton has become a legend among researchers, logging an astonishing 41,000 miles in his odyssey through the Atlantic.

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Reuters

2 days ago

• Reuters

AseptiScope Reports Major Success in Eliminating Life-Threatening Hospital Infections

SAN DIEGO, CA, June 20, 2025 (EZ Newswire) -- A promising new chapter in infection control has opened as AseptiScope, opens new tab® announces its recent peer-reviewed publication, opens new tab of clinical results using its DiskCover® System, a touch-free stethoscope hygiene solution, by the Journal of Infectiology and Epidemiology. The study documents how healthcare professionals at the Memphis VA Medical Center integrated the system into their infection prevention protocols, resulting in an unprecedented reduction of Central Line-Associated Bloodstream Infections (CLABSIs) to zero over a one-year period. Central Line-Associated Bloodstream Infections (CLABSIs) CLABSIs are among the most severe and preventable hospital-acquired infections, typically occurring when pathogens enter the bloodstream via a central venous catheter. These lines are commonly used in critical care to administer medication or collect diagnostic data. Despite rigorous hygiene protocols, including antiseptic bathing and aseptic line management, CLABSI rates persist, posing serious threats to already-vulnerable patients. Until now, stethoscope hygiene has never been included in CLABSI prevention bundles. 'The problem with central line infections is that critically ill patients are vulnerable, and these preventable occurrences can shift a routine procedure into a deadly, critical emergency,' stated Nicole Kupchik, clinical nurse specialist and leading authority on critical care nursing. 'This is not only a significant professional challenge, but I lost a dear friend going through cancer treatment to this preventable, deadly infection.' That changed when infection control specialists Naomi Ragsdale and Wendy Simpson at the Memphis VA took a bold step. Recognizing the stethoscope as a significant but often overlooked vector, frequently called the clinician's 'third hand,' they incorporated AseptiScope's DiskCover System into their CLABSI prevention strategy. The result: a complete elimination of CLABSIs over a 12-month span. AseptiScope's DiskCover System The DiskCover System works by automatically applying a sterile, single-use barrier to the diaphragm of a stethoscope, ensuring that each patient encounter begins with a clean device, something that traditional alcohol wipes fail to guarantee. In fact, numerous studies have shown that not only are alcohol wipes often used incorrectly or inconsistently, but some hospital pathogens are increasingly resistant to alcohol-based disinfectants altogether. Unlike manual cleaning, the DiskCover System is intuitive, immediate, and compatible with fast-paced clinical environments. Located near hand hygiene stations, the device activates with a wave of the stethoscope, applying a clean disk in a second, allowing for seamless patient care without compromising safety. Cindy Cadwell, a nurse practitioner, patient safety and quality expert, has been focused on the problem of stethoscope hygiene for years. 'Our clinical teams want to do all the right things, but today's world is fast moving, and even with the most diligent cleaning, more pathogens than ever are increasingly resistant to cleaning with alcohol and other disinfectants,' said Cadwell. 'So, a barrier system that breaks direct contact is exactly what we've been waiting for; high-quality infection control, that is both clinician and workflow friendly.' Kathleen Vollman, president of the World Federation of Critical Care Nurses, emphasized the implications: 'The stethoscope has been a problem without a solution for a long time, and it seems we finally have what we need here. Tools like this are elegant in their simplicity, but have a huge impact on healthcare. Ultimately, innovation like this saves patient lives, saves time for our clinical teams, and saves money for our hospitals.' Physicians, too, are taking note. Dr. Frank Peacock, a medical doctor, leading authority on stethoscope hygiene and infection control, and co-founder of AseptiScope, stated during an event for the CDC's Division of Healthcare Quality Promotion (DHQP) last year on the subject: 'Placing a disk cover barrier on stethoscopes using a touch-free dispenser means I barely break stride when applying them, and ensures clean patient exams for the first time in my career. The visible barrier doesn't just give me confidence, it also gives the patient comfort, which is fantastic." AseptiScope, a California-based medical device startup, was founded by a team of healthcare veterans. CEO Scott W. Mader, a longtime clinical innovation expert, said the company was born out of a recognition of the overlooked infection risks of stethoscopes. 'I've spent my career bringing health innovations to market, and when we say this enormous gap in patient safety, as the stethoscope is like the clinician touching patients with a dirty third hand,' said Mader. 'The touch-free application of the perfectly clean disk cover barrier blocks any pathogen exposure instantly'. While the DiskCover System is still relatively new to hospitals, its impact is expanding quickly. AseptiScope reports that major cancer centers, urgent care clinics, and primary care facilities are now deploying the device to protect patients, particularly those who are immunocompromised or medically fragile. 'Now our customers are confirming this is not just another product; it's a public health intervention,' Mader added. 'This low-cost, high-impact innovation could prevent life-threatening infections for millions of patients.' Looking forward, AseptiScope is developing additional touch-free devices based on the same principle of automated aseptic barriers. As the Memphis VA's success story gains national attention, hospitals across the U.S. are taking notice. In an age where healthcare systems are under enormous strain and antimicrobial resistance continues to rise, tools like the DiskCover System may offer a critical path forward. About AseptiScope AseptiScope is a healthcare technology company focused on infection prevention for both clinicians and patients. The company develops innovative aseptic solutions aimed at reducing the risk of contamination and infection within healthcare systems. Their flagship product, the DiskCover™ System, addresses the persistent issue of stethoscope contamination—a significant yet often overlooked vector for healthcare-associated infections (HAIs). The DiskCover System is an evidence-based, automated, and touch-free solution designed to create a highly visible and effective infection barrier during patient examinations, filling a critical gap in infection prevention technology. AseptiScope is led by a team of prominent medical professionals and experts in the field. For more information, visit opens new tab. Media Contact Anthony Pham apham@ ### SOURCE: AseptiScope Copyright 2025 EZ Newswire See release on EZ Newswire

The Guardian

2 days ago

• The Guardian

Social climbing isn't about who you know after all, study finds

When it comes to social climbing, it's not who you know, or how many people you know, it's about knowing who knows whom, research suggests. Experts studying social connections made by first year university students say those who ended up with the most influence were not necessarily the most popular, but those who had a good idea, early on, about who belonged to which clique or community. 'Having friends helps, but social influence isn't just about who you know – it's also about what you know about the rest of your social network,' said Isabella Aslarus, first author of the study from Stanford University. Writing in the journal Science Advances, researchers in the US report how they asked 187 students to complete surveys about who they were friends with at six different points during their first year at university. The team used the results to map the connections between individuals, and how these changed with time. At two points, once shortly after the start of the academic year and once in the spring term, the researchers ranked students by how many friends they had and their social influence – with the latter determined by how well connected their friends were. The researchers also asked each participant if they knew whether given pairs of students were friends. The results reveal the number of friendships people reported changed little over time, however the friendships between individuals, and people's level of influence, shifted. 'Popularity does not really change over the course of the year,' said Dr Oriel FeldmanHall, co-author of the study from Brown University. 'What changes dramatically is the people who were the most influential early on were no longer the most influential by the end of the year.' This shifting network, the researchers add, became more stable as the academic year went on. FeldmanHall said it is not clear what made people influential early in the study, however the students who rose to become the most influential by the end were those who had early insights about how all their peers were connected. 'To become influential, you need to know who is friends with whom, and you need to have a bird's eye view of how people cluster into different social groups or cliques,' said Aslarus, adding individuals can use that knowledge to become more influential – for example by making new friendships or being an effective matchmaker. Aslarus added that it is only after becoming influential that people develop more detailed knowledge about individual friendships. 'Knowing about your network predicts becoming influential over time, more so than just having lots of friends,' she said. 'So, social knowledge seems to be a key first step toward becoming better-connected in your network.'

Daily Mail​

2 days ago

• Daily Mail​

Map reveals states polluted with toxin that may cause autism... do you live in one?

California and Oregon are America's hotspots for dangerous air toxins that may lead to autism, a study suggests. Researchers at Washington University of St Louis collected 25 years' worth of data on submicron (PM1) air pollution, particles less than one millionth of a meter wide and one-sixth the size of human blood cells. While scientists have long tracked the health effects of its cousin fine particulate matter (PM2.5), emitted in the air via fossil fuels, PM1 has largely flown under the scientific radar. Though little-known, PM1 has been shown to increase the risk of heart attacks, lung cancer and dementia. Health agencies are reportedly conducting a series of studies to find out if environmental pollution can lead to autism, which has surged in the US over the last two decades. In the new study, a map reveals concentrations of PM1 were highest in the Los Angeles, Phoenix and Portland areas, along with parts of Idaho, New Mexico and Texas. Less densely populated states without crowded cities, such as Colorado, Montana, Utah and Wyoming had the smallest concentrations. The researchers did not provide exact numbers, but the data suggests larger cities in the western US along the west coast and south are the most at risk of harmful pollutants like PM1. They also said the new report could be one of the first to look specifically at PM1. Jay Turner, study co-author, said: 'When EPA first promulgated a fine PM air quality standard in 1997, there was considerable discussion about regulating PM 1 or PM 2.5. 'For numerous reasons, including but not limited to the lack of health impact studies for PM1 compared to studies for PM2.5, the latter was chosen. 'This study provides a comprehensive, nationwide dataset to examine PM1 impacts on health.' California, which had higher concentrations of PM1, also has one of the highest rates of autism in the country, according to the CDC's latest data. An April report from the agency found one in 19 children in California have been diagnosed with autism, 48 percent higher than one in 31 nationwide. However, the report only looked at children ages four through eight, so it's unclear how many older children and teens were diagnosed. Nationwide, autism rates have surged from about one in 150 in the early 2000s. Health secretary Robert F Kennedy Jr announced earlier this year a series of studies that will look into 'environmental toxins' he believes could be causes, including pesticides and food additives, and promised 'there will be an answer for the American people' by September. Particulate matter has been shown in recent studies to raise the risk of autism by triggering inflammation in nerve tissue and possibly passing from mom to placenta to fetus in utero. In the new study, published Monday in The Lancet Planetary Health, researchers calculated PM1 levels based on measuring seven components found in PM2.5: sulphate, ammonium, nitrate, organic matter, black carbon, dust and sea salt. These pollutants can come from natural disasters like volcanic eruptions, wildfires and dust storms, as well as human-generated sources like construction sites, burning fossil fuels and vehicle emissions. Chi Li, first study author and research assistant professor, said: 'Putting the seven species together, we can calculate the total PM1 concentration over the country.' PM1 levels were calculated based on biweekly estimates from 1998 through 2022. In addition to areas like California and Oregon, parts of the Midwest and eastern US like Illinois, Ohio and Pennsylvania also appeared to have higher concentrations of PM1, according to the map. The researchers said natural disasters like wildfires may have contributed to elevated levels. A 2020 study found the area burned by wildfires in California has doubled in the last 20 years compared to the two decades before that. More urban areas like Los Angeles and Portland also produce more PM1 due to higher traffic, construction and a greater concentration of densely packed buildings. Randall Martin, a professor of energy environmental and chemical engineering at WashU, said: 'These data offer new information to advance understanding of how to improve air quality and health.'