A mystery satellite has been jamming GPS in Europe
Scientists detect for the first time an unknown source of GPS interference coming from space. Also, as AI begins to design more and more DNA sequences being manufactured synthetically, how can those manufacturers be sure that what their customers are asking for will not produce toxic proteins or lethal weapons? And… how camera traps in polish forests reveal that the big bad wolf is more scared of humans than anything else. For that last few years instances of deliberate jamming and interference of GNSS signals has become an expected feature of the wars the world is suffering. Yet this disruption of the signals that all of us use to navigate and tell the time nearly always emanate from devices on the ground, or maybe in the air. But in ongoing research reported recently by Todd Humphreys of University of Texas at Austin and colleagues around the world is beginning to reveal that since 2019 an intermittent yet powerful signal has been causing GPS failures across Europe and the North Atlantic. The episodes have been thankfully brief so far, but all the signs suggest it comes not from soldiers or aeroplanes, but from a distantly orbiting satellite somewhere over the Baltic Sea. It may not be malevolent, it could be a fault, but the net of suspicion is tightening. A team of scientists including some from Microsoft report today in a paper in the journal Science an investigation to try to strengthen the vetting of synthetic DNA requests around the world. As AI-designed sequencies increase in number and application, the factories that produce the bespoke DNA are in danger of making and supplying potentially dangerous sequences to customers with malicious intents. But how do you spot the bad proteins out of the almost infinite possible DNA recipes? Tessa Alexanian of the International Biosecurity and Biosafety Initiative for Science, and one of the authors explains some of the thinking. Finally, Liana Zanette of Western University in Ontario and colleagues have been hanging around in Polish forests scaring wolves. Why? Because as wolf numbers rise in protected reserves, more and more human-wolf interactions occur. And a suspicion has arisen that the legal protection they enjoy has led to them losing their fear of humans in a dangerous way. Not so, says Liana’s team, blowing away the straw arguments and setting fire to the political motivation to reduce their protection status. Wolves are still terrified of Nature’s apex predator – us. Presenter: Roland Pease
Producer: Alex Mansfield
Production Coordinator: Jana Bennett-Holesworth (Image: Simulation screen showing various flights for transportation and passengers. Credit: Oundum via Getty Images).
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Autism and the epigenetics of early brain development
Epigenetic changes during early brain development, and the complexities of autism. Also, how bacteria learn to parry antibiotics, the subterranean burp that shook the Island of Santorini, and new guidance for sharing land between farming space and living space for the pollinators on which it depends. Presenter: Roland Pease
Producer: Alex Mansfield
Production Coordinator: Jana Bennett-Holesworth (Image: Blastocyst embryo, light micrograph. Credit: Science Photo Library via Getty Images).
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Stephen Hawking gets it right again
Gravitational waves show two black holes merge just how Hawking predicted. Plus, a space mission without a target. And a Space probe without a confirmed budget.In January 2025 the LIGO gravitational wave observatories witnessed two distant black holes spinning into each other. In the ten years of LIGO’s operations, that’s not a first. But the instruments have been improved to such an extent that this time some very important predictions of General Relativity and out understanding of black holes could be tested. As Birmingham University’s Alberto Vecchio says, the elegant simplicity of the mathematics of black holes has passed a test, in particular Stephen Hawking’s prediction that the surface area of merging black holes can only be increased.Space craft have met comets before. But because spaceflight takes so long to plan and fund, we’ve only sent them to comets with human-lifetime orbital periods so far, because we know when they’re arriving. ESA wants to meet one we’ve never seen before, one that has never or seldom been in close to the sun, and never been barbecued and seared by the radiation. Colin Snodgrass of the University of Edinburgh explains the plan to launch and park a comet chaser in space to wait for one of these elusive extraterrestrial objects to come in from the cold.That, says Meg Schwamb of Queen’s University Belfast, is going to be much easier in the next few years as the Vera Rubin Telescope begins its ten year survey cataloguing anything in the sky that changes. The type of sky survey it will provide will identify, it is hoped, many candidate first-time comets for the small fleet of spacecraft to intercept.Having a spacecraft ready in position rather than having to launch a new one anytime you want to do some science is a good place to be, one would think.NASA’s Juno mission has been delivering science from Jupiter since its launch, and is still functioning and able to deliver more. Yet NASA funds are under considerable threat, and as Scott Bolton tells Roland, at the end of this month Juno could be left slowly spiralling into the gas giant, silently collecting data but with no budget to keep the science going.Presenter: Roland Pease
Producer: Alex Mansfield
Production Coordinator: Jana Bennett-Holesworth
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Asteroids, comets and where to find them
Scientists’ latest plans for welcoming interstellar visitor 3I/Atlas next month, and arranging a rendezvous with comet Apophis in 2029, as heard this week at the EPSC-DPS international planetary science joint meeting in Helsinki. Presenter: Roland Pease
Producer: Ella Hubber, with Alex Mansfield
Production coordinator: Jana Bennett-Holesworth Image: Artist's impression of an asteroid in space (Credit: European Space Agency/ESA Science Office)
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Why is Afghanistan so vulnerable to earthquakes?
Despite the relatively low magnitude, earthquakes in Afghanistan this week have left more than1000 dead. Afghan researcher Zakeria Shnizai from the University of Oxford unpicks some of the main causes of the country’s vulnerability to earthquakes. Also this week, we talk to the climate scientist who led a 400+ page rebuttal to the US Department of Energy’s report on climate change. We hear about research which has mapped the activity of over 600,000 neurons in 279 regions of the mouse brain to learn more about how decisions are made. And we get the latest updates on 3I/ATLAS, the latest interstellar comet streaking its way across our solar system, just before it disappears behind the sun. Presenter: Roland Pease
Producer: Ella Hubber
Production Coordinator: Jana Bennett-Holesworth(Image: Magnitude 6.0 earthquake strikes eastern Afghanistan. Credit: Anadolu via Getty Images).
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