radioactive Archives - Page 2 of 2

Between 1946 and 1990, Europe sank 200,000 radioactive barrels in the Atlantic Ocean. France prepares to recover them

June 2, 2025 by usatoday24

France will undertake this month of June a mission to map and study the state of the more than 200,000 drums with radioactive material that several European countries sank at the bottom of the sea. The objective: evaluate their environmental impact and study if it is viable to recover them. A practice today unthinkable. For more than four decades, between 1946 and 1990, the norm for several European countries was to pour radioactive waste of very low activity in the oceanic depths. More than 200,000 barrels loaded with gloves, laboratory materials and nuclear samples were sunk in the northeast Atlantic abyssal plains, more than 4,000 meters under the surface of the oceanan internationally prohibited custom by the 1993 London Convention. Better late than never. Although a good part of the radioactivity has disappeared thanks to the short half-life of the CESIO-134 or iron-55 isotopes, so far there has been no state-level effort to recover them. The National Center for Scientific Research in France (CNRS) will be launched at the middle of June With the nodssum missionwhich does not have as its immediate objective the recovery of the 200,000 barrels (a task of titanic proportions), but an exhaustive analysis of the containers, the behavior of the radionuces in the deep ocean and their interaction with the marine ecosystems to make a decision on which one to recover and how to recover them. A robot submarine and fishing networks. The Nodssum project will take place in two major campaigns. The first phase will be a recognition mission that will sail on June 15 and will run until July 11. The protagonist will be the ULYX Submarine Autonomous Robot of the French oceanographic fleet, capable of descending up to 6,000 meters. In its first scientific dives, Ulyx will navigate about 70 meters above the seabed to map with a high resolution Sónar the main discharge zone and identify the location of barrels. Then, it will approach up to 10 meters to photograph them. This phase also includes the initial shot of water samples, sediments and fauna, but without approaching the drums. Scientists will use nasas to capture fish and crustaceans with which to determine the effect of waste on marine life. The barrels will not move until 2026. Taking advantage of the data collected in the first phase, the second mission will use a robot with remotely operated arms, Victor or Nautile, to directly observe the barrels and take samples around it for a more detailed analysis. These data will be those used to determine if necessary, and feasible, selective recovery operations in the future. Security will be the axis of the entire project, which includes a robust radioprotection protocol supervised by the France Nuclear Safety Agency. In addition to amending past errors, the mission will be a unique opportunity to measure the long -term consequences of storing at the bottom of the Atlantic Ocean hundreds of thousands of radioactive waste. Image | CNRS, Greenpeace (1978) In Xataka | Thus, radioactive waste is “buried”: how are nuclear cemeteries inside

We are injecting radioactive material into live rhino horns so that we stop consuming them

June 2, 2025 by usatoday24

Perhaps you did not know, but to protect us from human nature itself, that capable of generating the most absolute chaos, most of the main airports and ports, including those of South Africa, already have the infrastructure necessary to detect radioactive material. So that? To detect nuclear weapons. Thus, in theory, we avoid smuggling between countries. In a twist, science has just found in this infrastructure a solution for stop poaching. Radioactive horns. The news is as surprising as it is true: a group of South African scientists has been injecting radioactive material directly into the horns of living rhino. The idea: make them easier to detect in border stalls. Behind the project is the Radiation and Physics of Health (RHPU) of Witwatersrand University in Johannesburg. Why the horns. Of course, the enclave where it is happening is not trivial. South Africa houses a Most of the planet’s rhinoceros And, as such, it is a critical point for poaching driven by, and here comes the key, demand from Asia. Yes, there the horns They use in traditional medicine for its supposed therapeutic effect (not tested). As Professor James Larkin explained, who runs the project, “every 20 hours in South Africa a rhinoceros dies from his horn.” In fact, before this amazing script, trying to save the rhino with another unexpected movement: investing in bonds. Not only that. The researchers indicate that the smuggling of these horns has currently made them “the most valuable false product in the black market, with a value even greater than that of gold, platinum, diamonds and cocaine. These horns hunted furtively are trafficked throughout the world and are used for traditional medicines or as status symbols”, They assure. Radioactivity injection process. Under the name Rhisotope Projectresearchers are drilling low doses of radioisotopes in the horns of 20 sedated rhinos whose health will be monitored over the next six months. We talked about two small radioactive chips in the horn zone that are then “finished” by spraying 11,000 microputs in the area. In the long term. If it succeeds, the program could be extended in the long term to include elephants and pangolines, as well as other plants and animals, According to the university. The material, in principle, would last five years on the horn, which “was cheaper than removing it every 18 months.” “Each insertion was closely supervised by expert veterinarians and there was very care to avoid any damage to animals,” Explain Larkin. “During months of research and evidence, we have also ensured that inserted radioisotopes do not involve any risk to health or any other risk for animals or for those who take care of them.” Poison for humans. In essence, once the radioactivity dose is inserted, the consumption by means of the products made with the horns will make them “essentially poisonous for human consumption,” they count at work. Be that as it may, the main objective is none other than identifying the smuggling attempts, to be able to be, before they leave the country. How the alarm jumps. Apparently, this infrastructure found in many airports works more or less simple. Anyone who tries to pass the radioactive horns would sound the alarms and a police response would be activated. By the way, scientists remember that the process is not harmful to animals, since the dose of the radioactive material is so low that it does not affect the animal’s health or the environment in any way. Figures that have led to the situation. Last February, the country’s Ministry of Environment said that, despite the government’s efforts to combat illegal trade, 499 of these giant mammals died in 2023most in state parks. In figures, it represents an increase of 11 percent compared to those of 2022. To get an idea of This sad realitywe talk about figures of up to $ 60,000 per kilo, which explains why the rhinoceros horn remains one of the most lucrative illegal markets. Image | Witts University, Martin Pettitt In Xataka | An area of Mexico has become an out of control: tourists do not stop to swim with wild orcs In Xataka | It never rains to everyone’s taste: we have just discovered that rainfall has wreaked havoc on the Galician octopus *An earlier version of this article was published in June 2024

We have found a strange anomaly in the middle of the Pacific. It has caused a radioactive isotope that should not be there

March 5, 2025 by usatoday24

A group of researchers has found a strange radioactive anomaly at the bottom of the Pacific Ocean. And he has done it twice. The protagonist of the strange finding is a radioactive isotope of Beryllium, beryllium-10 (10be). Something weird happens on the ocean floor. The anomaly corresponds to a high concentration of this isotope in the strata of the seabed, which It has been detected In two points away from the Pacific Ocean, so it could be the indication of a generalized phenomenon. Experts do not know what this anomalous concentration of the isotope has caused, but they have several hypotheses that include astrophysical events or changes in ocean currents. Whatever the causative event, the team responsible for the finding has estimated that this happened about 10 million years ago. Product of a shock. The beryllium-10 is a rare isotope that is formed on our planet when cosmic rays cross our atmosphere and interacts with oxygen and hydrogen in it. The beryllium formed falls on the sea and ends up joining marine sediments. The semi -experience of these nuclei is approximately 1.4 million years old. After this time, half of the nuclei will have declined in Boro. Like others Radionucleids (Unstable forms of an element that decompose releasing radiation by becoming a more stable isotope), this beryllium is very useful in geological dating. Geological calendar. One of the best known radioisotpos is carbon-14 present in organic samples. In addition to the fact that carbon-14 is present only in organic samples, the time fork it gives us is relatively scarce: it can only serve us to date objects of up to 50,000 years old. The 10be, instead it allows us to ride ourselves 10 million years ago. A few surprising samples. The unexpected beryllium was found when studying a geological sample extracted from the bottom of the Pacific Ocean at a depth of several kilometers. The team examined the samples through a mass spectrometry with accelerator to evaluate its beryllium content and date its different strata. What they found was an anomaly in the sediments of about 10 million years ago. They came across that in this area the amount of 10be was double the one who would expect. The team examined several samples to contrast that it was not a contaminated sample. The details of the study were published In an article In the magazine Nature Communications. Different hypotheses. The big question is now what caused this unexpected accumulation of 10be. The team responsible for the finding raises two possible hypotheses to explain this one, one related to marine currents and the second with astronomical events. In Xataka | The calima of the Sahara will deposit radioactive elements on Spain. And yes, science explains it Image | Hzdr / Koll, Lachner, et al. (2025)

Chernobyl is full of radioactive dogs. It has nothing to do with the nuclear accident, according to a study

January 26, 2025 by usatoday24

Behind him Chernobyl nuclear plant accidentthe areas close to the plant continue to be dangerous for humans. He reactor number four The Vladimir Ilyich Lenin plant exploded on April 26, 1986, releasing 500 times more radioactive material in northern Ukraine than was used in the Hiroshima bomb. It was a natural disaster that, little by little, became a paradise full of radioactive animals and plants. And it is because, beyond the few humans who work in maintenance tasks, the visits and those who installed the New Safe Sarcophagusthe animals roam freely. Among them, there are dogs, so many that they were baptized as “the Chernobyl puppies”. When the accident occurred, the dogs were abandoned, but in recent years, the population has skyrocketed and it is estimated that there are around a thousand dogs roaming freely. Petting one of these adorable little dogs is not a good idea due to their radioactive load, but a new study points out that the genetic differences of these dogs have nothing to do with a radiation-induced mutation. The radioactive dogs of Chernobyl Watching the video above, it seems impossible to resist the temptation of petting these puppies. The problem is that they have radioactive particles in their fur, but the incredible thing about this story is that they simply exist so close to the accident zone. The ionizing radiation It interacts in a curious way with the tissues of living beings: it breaks chemical bonds and modifies the structure of the chains of atoms. It is what causes animals to develop tumors, something that The plants adapted much better due to its particularities. Of that thousand of dogs wandering around Chernobyl302 have been under study for some time by the University of South Carolina or the National Human Genome Research Institute with the purpose of characterizing their genetic structure. The animals belong to three different populations that have lived inside the plant and at distances of between 10 and 15 kilometers from ‘ground zero’. Their research aims to help answer questions about how humans and other species can adapt to survive in such aggressive environments, and researchers are already getting some answers. The first thing is that it seems that these dogs are evolving at a different rate than dogs from neighboring areas. They have some distinctive genetic traits in their DNA that they have developed over the years and a few months ago they already they dropped that the radiation could have nothing to do with them. Now it is North Carolina State University and the Mailman School of Public Health at Columbia University who have shared a study in which they claim that they have been working with two populations of dogs, separated only by about 16 kilometershave different genetic traits. “We are trying to determine whether exposure to low levels of environmental toxins, such as radiation, lead, etc., over many years could explain some of these differences,” says Matthew Breen, one of the authors. What they did was start looking for differences at the chromosomal level, later in small intervals of the genome and, finally, differences in nucleotides. Reactor number 4 with its current sarcophagus The goal was to find abnormalities and evidence of DNA mutations in reproductive cells, which are passed from generation to generation. “It’s like using the zoom function on your phone’s camera to get more details: We start with a wide view of the subject and then zoom in,” says Breen. And the result is interesting, since it seems that radiation does not have much to do with the changes found: “We know that, for example, exposure to high doses of radiation can introduce instability from the chromosomal level down. Although this dog population is 30 or more generations removed from those present during the 1986 disaster, the mutations would likely still be detectable if they offered a survival advantage to those original dogs. But we found no evidence of that in these dogs.” The work follows its coursesince with what they have found, the researchers cannot rule out the role of selective pressure in explaining the differences between the two populations of dogs. “In human terms, this is like studying a population that is centuries away from the one that was present at the time of the disaster. It is possible that the dogs that survived long enough to reproduce already had genetic traits that increased their ability to survive and, perhaps, what there was was extreme ‘natural selection’ at the beginning,” says another of the authors, Megan Dillon. The researcher points out that it may be that, after this extreme pressure, the nuclear plant dogs were simply kept separate from the city’s population. “Investigating this path is a next step that we are working on,” he comments. Unavoidable disasters Another of the authors is Norman Kleiman, of the Columbia University School of Public Health. Keiman comments that “most people think of the Chernobyl nuclear accident as a radiological disaster in an abandoned corner of Ukraine, but the potential adverse health implications are much broader,” and this is due to many other toxins, such as heavy metals, lead dust, pesticides and asbestos. The curious thing is that most of these toxins were released into the environment during the decades of cleanup that followed and this is something that may also have had an influence on the living beings in the area. “Studying companion animals, like these dogs, gives us a window into the types of health risks that people may face.” “The importance of continuing to study the environmental health aspects of large-scale disasters like this cannot be overstated. It is certain that, given the increasingly technological and industrial nature of our societies, there will inevitably be other similar disasters in the future, and we need to understand the possible health risks and how to better protect people,” the researcher emphasizes. Thus, understanding these genetic variations in dogs is not only the answer to a scientific curiosity, but also something practical in order to better … Read more

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