Science In Action Folgen

This week the UK parliament voted to accept the Government’s continued cap on Official Development Aid. This disappointed many researchers around the world, funded directly and indirectly through various scientific funding structures enabling international collaboration on some of the global challenges facing all of us. These funding mechanisms make for a small fraction of the overall amount, but they have been hit hard, with many projects closing altogether.There had been hope amongst the scientific community that the cap – from 0.7% down to 0.5% of the UK’s Gross Domestic Income – might have been in place just for a year. But it seems like the criteria set to judge when the level of aid might rise again imply that it is unlikely to happen for several years at the earliest. What, asks Science in Action, does that mean to the world of scientific collaboration on such topics as climate change, contagious disease, and emergency planning?Researchers Chris Trisos and Jenni Barclay, with journalist Robin Bisson of Research Professional News, update us on the story.In Zambia, where covid testing remains scarce, a project run by Boston University’s Christopher Gill has been estimating the prevalence of covid in the capital Lusaka by taking nasal swab samples from the noses of around one in five of those recently deceased, in the morgue of a major hospital. Tantalisingly, his team have seen over the last few months a sharp rise in cases to the extent that in June, nearly 90 percent of the cadavers tested positive for covid. But as Chris describes, unrelated to the UK cuts, their funding has now run out, so where the graph leads from here we may not learn for a long time.Presented by Roland Pease Produced by Alex Mansfield.(Image: Getty Images)

Scientists say the record-breaking Pacific North-West heatwave of recent weeks must have been caused by human induced climate change, but as Geert Jan van Oldenborgh explains to Roland Pease, despite a herculean effort to analyse the event in just a week, the precise mechanism to cause such an extreme and sudden event is so far bewildering climate modellers, exceeding even worst expectations. Looking to the skies, Rosita Kokotanekova of the European Southern Observatory and colleagues have been getting excited about the discovery of a comet maybe twice as large as any observed before. Being so big, it has been spotted much further out from the sun and – if the best telescopes can be convinced to join the fun – will provide astronomers a chance to observe the core of the comet before the solar heat induces a gaseous coma to form as it nears the point in its orbit closest to the sun. It will be around for the next decade before continuing its several million year journey around our mutual star.But it won’t get terribly close to earth, at least not as close as lumps of an asteroid that fell onto a driveway in the UK earlier this year. Dr Ashley King of the UK’s Natural History Museum is leading a consortium of scientists (benefitting from a rapid research grant by the UK’s STFC) who have now officially classified it and named it. The Winchcombe meteorite is a CM carbonaceous chondrite, meaning it represents the unspoilt early building blocks of the solar system. Falling like 4.5 billion year old leftover celestial lego, only a few are known around the world but perhaps none have been in scientists hands in such a short period of time, continuing its pristine survival.Dr Pablo Tsukayama has published a preprint paper announcing a new variant of interest in the ongoing evolution of the SARS-CoV2 virus. Now named by the WHO as the Lambda variant, it seems it has driven the pandemic for much of this year in Peru – as much as 80% of cases – and large fractions of the outbreak elsewhere in South America. But as Pablo suggests, the reason we don’t know as much about it as for example the Alpha or Delta variants is likely because it hasn’t thus far affected the countries best equipped to do the analysis. Maybe that could change. Image: Wildfires in Lytton, British Columbia Credit: ProPics Canada Media Ltd/Getty ImagesPresenter: Roland Pease Producer: Alex Mansfield

The Natural History Museum in London holds a massive collection of insects. It asked researchers at the Diamond light source, a facility near Oxford, to develop a high throughput X-ray microscope to take 3D scans of them all. Roland Pease has been to see the new technology in action.Many people seeking compensation for the impacts of climate change are turning to the law courts. Successes so far have been few. Oxford University’s Friederike Otto, who specialises in connecting weather extremes to the greenhouse effect, has just published a paper looking at the challenge in bringing successful climate lawsuits. Spacecraft will be returning to Venus in the next decade with the recent approval of two NASA missions to the planet, and one from the European Space Agency, ESA. Philippa Mason of Imperial College is a planetary geologist on that mission, Envision. She plans to use radar to peer through that dense and interesting atmosphere to follow up evidence of volcanic activity and tectonics on the surface beneath. A few years ago synthetic biologist Jim Collins of Harvard found a way to spill the contents of biological cells onto … basically … blotting paper, in a way that meant by just adding water, all the biochemical circuitry could be brought back to life. With a bit of genetic engineering, it could be turned into a sensor to detect Ebola and Nipah viruses. His team have kept developing the idea, and this week they report success in a smart face mask that can detect SARS-CoV-2 in your breath. (Image: Hairy Fungus Beetle - Prepared by Malte Storm. Credit: Diamond light Source Ltd)Presenter: Roland Pease Producer: Alex Mansfield