Discovery

In the second of our series How Covid Changed Science, Devi Sridhar, Professor of Global Health at Edinburgh University looks at the scientific messaging. Just how do you explain to both politicians and the public that a growing global pandemic is likely to kill many people, and unprecedented measures such as a nationwide lockdown are needed to prevent even more deaths. What information should be imparted and how?Similarly how to address the clamour for information on the development of vaccines and other potential treatments when there often wasn’t clarity? And with the rise of misinformation how did individual scientists who became the subject of conspiracy theories cope with being targeted?In this programme we hear from scientists and politicians directly involved with the pandemic response. For some the experience of explaining their often highly technical research to the general public was a daunting experience. For others it became a mission to answer the publics concerns and fears.

Until 2020 developing a new drug took at least 15 years. Scientists by and large competed with each other, were somewhat secretive about their research and only shared their data once publication was secured. And the public and the press had no interest in the various early phases of clinical trials. An incremental scientific step possibly on the road to somewhere was simply not newsworthy. Face masks were the preserves of hypochondriacs in the Far East, with no scientific evidence base for their use.Now the findings of research are published as soon as they are ready. Often they are being openly discussed in social media before they have been peer reviewed. The speed of research, collaboration between science and industry, and public perception of science are areas that have undergone incredible and likely permanent change. Devi Sridhar, Professor of Global Health at Edinburgh University hears from scientists in a variety of fields, whose working lives and practices have been affected, in some cases revolutionised by the pandemic.

If you look up into the night sky, there are around 7,000 active satellites orbiting the Earth. They’re part of our daily life – essential for things like the internet, the GPS in our cars and giving us weather reports. Seven thousand might not sound a lot in the infinite expanses of space. But the reality is that most satellites are found in a small slice of the solar system - called Lower Earth Orbit - and countries and satellite companies are planning to launch hundreds of thousands more in the next decade. So things are about to get crowded. In this week’s Discovery, Jane Chambers speaks to scientists, astronomers from the ALMA Observatory in Chile, space environmentalists and satellite companies like SpaceX about the benefits of this explosion in mega satellite constellations, as well as the unintended consequences to those who value a clear and unhindered view of the stars.Picture: Radio Telescopes at ALMA Observatory in the north of Chile, Credit: Jane Chambers

Giles Yeo learns how to make a Thai green curry with Meera Sodha. This is a recipe without meat or prawns but with tofu and lots of vegetables. If we need to eat less meat and dairy to help prevent global warming- what difference will altering our diets make to our health. For a long time now people have been urged to cut down on red meat and processed foods but if you have been eating them all your life it takes an effort to develop new habits. Plant based products that can replace for example dairy milks, cheeses, sausages, burgers and meat based dishes such as lasagne can be helpful in making this transition but are they healthier?

In Plant Based Promises, Giles Yeo a foodie and academic at Cambridge University, asks how sustainable are commercial plant based products? This is a fast growing sector with a potential value of $162 billion by 2030. Giles travels to the Netherlands Food Valley to look at companies developing plant based alternatives and to find out what role they have to play in changing diets. And Giles designs his own plant based Yeo Deli range online but discovers that new markets are already causing shortages of alternative proteins, so what will the future look like?In 2019 the Eat Lancet Commission set up specific targets for a healthy diet and sustainable food production. The aim was to keep global warming to within 1.5 degrees and to be able to feed the world’s 10 billion people by 2050. The Commission’s recommendations are best visualised as a plate of food, half fruits, vegetables and nuts and the other half whole grains, beans, legumes and pulses, plant oils and modest amounts of meat and dairy. Is there room on the plate for Giles Yeo Deli Baloney range.

In Plant Based Promises, foodie, researcher and broadcaster Giles Yeo looks at the science behind plant based diets and the increasing number of plant based products appearing in supermarkets and restaurants. The market for plant based products could be worth $162 billion in the next ten years and Giles asks how sustainable and healthy the products are and the role they play in decreasing the world's carbon footprint.Globally food production accounts for about 30% of greenhouse gases. In the UK we eat over six times the amount of meat and more than twice the amount of dairy products recommended to prevent the global temperature increasing more than 1.5 degrees C, after which extreme weather events become more severe. But eating less meat and dairy means new protein sources from plants are needed and how easy or practical is it for people to change their diets? Veganuary, where people pledge to go vegan for the month of January show that people are willing to change what they eat for a variety of reasons including animal welfare, sustainability and health.In programme one Giles, an expert on food intake looks at some of the foods being developed to replace animal based foods and looks at alternatives to the iconic cheeseburger. Giles meets biochemist Professor Pat Brown founder of Impossible Burgers, a Silicon Valley start up making burgers from genetically modified yeast to replicate the taste of meat.But from high tech to the artisanal, sisters Rachel and Charlotte Stevens missed eating cheese so much they are now making cheese alternatives using traditional moulds, cultures and aging techniques while replacing dairy ingredients with nuts.

The smaller the thing you look at, the bigger the microscope you need to use. That’s why the circular Large Hadron Collider at CERN, where they discovered the Higgs boson is 27 kilometres long, and its detectors tens of metres across. But to dig deeper still into the secrets of the Universe, they’re already talking about another machine 4 times bigger, to be built by the middle of the century. Roland Pease asks if it’s worth it.Image: CMS Beampipe removal LS2 2019 (Credit: Maximilien Brice/CERN)

Episode 2: Lost in the DarkPhysics is getting a good understanding of atoms, but embarrassingly they’re only a minor part of the Universe. Far more of it is made of something heavy and dark, so-called dark matter. The scientists who discovered the Higgs boson ten years ago thought they’d also create dark matter in the underground atom smasher at CERN. But they haven’t seen it yet. Roland Pease joins them as they redouble their efforts at the upgraded Large Hadron Collider, and travels to Boulby Underground Laboratory inside Britain's deepest mine, where subterranean telescopes hope to see dark matter streaming through the Galaxy.Image: CMS Beampipe removal LS2 2019 (Credit: Maximilien Brice/CERN)

The machine that discovered the Higgs Boson 10 years ago is about to restart after a massive upgrade, to dig deeper into the heart of matter and the nature of the Universe.Roland Pease returns to CERN’s 27-kilometre Large Hadron Collider (LHC) dug deeper under the Swiss-French border to meet the scientists wondering why the Universe is the way it is. He hears why the Nobel-prize winning discovery of the “Higgs Particle” remains a cornerstone of the current understanding of the nature of matter; why the search for “dark matter” – 25% of the cosmos - is proving to be so hard; and CERN’s plans for an atom smasher 4 times as big to be running by the middle of the century.Image: CMS Beampipe removal LS2 2019 (Credit: Maximilien Brice/CERN)

Ant-loving professor, Adam Hart, shares his passion for leaf cutting ants with Jim Al Khalili. Why do they put leaves in piles for other ants to pick up?Talking at the Hay Festival, Adam describes the experiments he designed to test the intelligence of the hive mind. When does a waggle dance become a tremble dance? And how do the honey bees know when this moment should be?We like the phrase ‘as busy as a bee’. In fact, bees spend a lot of time doing nothing at all, a sensible strategy from the point of view of natural selection.And where does Adam stand on insect burgers?Producer: Anna Buckley

When a person with severe anorexia nervosa refuses food, the very treatment they need to survive, is that refusal carefully considered and rational, as it can appear to those around them? Or is it really the illness that’s causing them to say ‘no’?This is one of the thorny ethical dilemmas that Jacinta Tan has wrestled with over the course of her career. She is deeply curious about the mind, and has spent hundreds of hours sitting with people with anorexia nervosa, not persuading them to eat, rather listening to them talk about what’s going on in their minds and how the illness influences their decisions.These rich internal worlds, that she has revealed, shape her work as a Child and Adolescent Psychiatrist at Oxford Health NHS Foundation Trust, where she treats people with eating disorders. The views of those with the condition and their families have been central to the recent government reviews of the Eating Disorder Services that she led in Scotland and Wales.These conditions can be hugely challenging to treat. Jacinta Tan tells Jim al-Khalili how it's the art of medicine, as much as the science, that helps people recover.Producer: Beth Eastwood

Pete Smith is very down to earth. Not least because he’s interested in soil and the vital role it plays in helping us to feed the world, mitigate climate change and maintain a rich diversity of species on planet earth. He was born in a pub and failed the 11+ exam (designed to identify bright children just like him) but he became a distinguished professor nonetheless. Tackling climate change in isolation is a mistake, he says. We need to consider all the challenges facing humanity and identify strategies that deliver benefits on all fronts: food security, bio-diversity and human development goals. He tells Jim Al-Khalili about his life and work and the urgent need for our degraded peat bogs to be restored. Peat bogs that have been drained (for grazing or to plant trees) add to our carbon emissions. Healthy peat bogs, however, are carbon sinks. Producer: Anna Buckley

The world is full of colour! But, listener Maya Crocombe wonders ‘how do we see colour and why are some people colour blind?’Dr Rutherford and professor Fry set out to understand how special light-sensitive cells in our eyes start the process of colour perception, why people sometimes have very different experiences of colour and whether, in the end, colour is really just ‘in our heads’.Dr Gabriele Jordan from Newcastle University explains why lots of men struggle to discriminate between certain colours and why there were lots of complaints from colour-blind viewers when Wales played Ireland at rugby.Professor Anya Hurlbert, also from Newcastle University, tackles the most divisive of internet images: The Dress! Did you see it as blue-black or yellow-gold? Anya explains why people see it so differently, and why our ability to compensate for available light is so useful.To see the Dunstanborough Castle illusion as described in the episode, check out the Gallery on this page and also on the Discovery homepage.

Mathematician Hannah Fry and geneticist Adam Rutherford investigate your everyday science queries. Today, they get stuck into two questions about tides. Lynn Godson wants to know why isn’t high tide at the same time at all points around the coast? Whilst Tim Mosedale asks, could we ever harness tidal power commercially? Did you think tides are caused by the pull of the Moon? And that they come in and out twice a day? Well, yes, that’s true but it turns out there’s so much more to it than that, especially here in the UK, which has the second largest tidal range in the world at the Severn Estuary near Bristol, coming in at an average of 15 metres (50ft in old money). But why should high and low tide times be so different even in places that are relatively close to each other?The answer partly lies in something called bathymetry (which has more to do with baths than you might think – well basins at any rate). As for harnessing sea power, there are some ambitious projects currently in development and predictions that wave and tidal could make up as much as 15 percent of the UK’s energy needs in future. But how realistic is this and how do you ensure that your power generators can survive the rigours of the ocean – storms, saltwater and all those pesky barnacles?To help answer these queries, Hannah and Adam are joined by Physicist and Oceanographer, Helen Czerski and Professor Deborah Greaves OBE, who heads up the COAST lab at the University of Plymouth which studies marine renewable energy technologies.

Today The Evidence goes green as Claudia Hammond and her panel of experts discuss plant power, how nature and the natural environment affect our mental health.Produced in collaboration with Wellcome Collection and recorded in front of a live audience in the Reading Room at Wellcome Collection in London, the programme addresses that widely-held view, even intuition, that plants and nature directly impact on our emotional wellbeing. As always, Claudia and her panel of experts are interested in the evidence behind such beliefs, and as they reveal, proving this link scientifically, is fiendishly difficult. The evidence base is growing (especially studies which show being in nature improves your mood) and there is much emerging research which gives tantalising glimpses into exactly which elements in nature could help to produce that green feel-good factor (and which elements can actually make us feel worse).On stage, a 25 year old semi-professional footballer shares how he first put his hands in the soil after the Grenfell Tower fire in North Kensington in London five years ago, when 72 people lost their lives and left his community traumatised. Tayshan tells Claudia that nature saved him, and many others, as they planted seeds, re-claimed spaces and built new gardens in the aftermath of the tragedy. All children and young people, he says, should have access to the healing power of nature and he calls on the horticultural establishment to open its doors much wider to enable this to happen.Beth Collier too, believes that nature should be a meaningful part of everyday life for all. The connection with nature, she says, is fundamental to healing mental distress. A psychotherapist and ethnographer, Beth founded Wild in the City to encourage those who live in urban environments, especially people of colour, to re-connect with nature. Claudia’s other guests are Kathy Willis, former Director of Science at the Royal Botanic Gardens, Kew, now Professor of Biodiversity at the University of Oxford and author of a soon-to-be-published book called Prescribing Nature and Birgitta Gatersleben, Professor of Environmental Psychology at the University of Surrey and a leading researcher studying the relationship between the natural environment and human wellbeing.Produced by: Fiona Hill and Maria Simons Studio Engineers: Duncan Hannant and Emma Harth (Photo: Footpath through a forest Credit: Nik Taylor/UCG/Universal Images Group/Getty Images)

Why does human hair go grey and is it ever possible for it to go white overnight from shock? Hannah and Adam explore why hair goes grey, how much stressful life events and a lack of sleep can speed up the process. They hear from the pilot whose hair turned white after a flight where all 4 of his engines failed after flying through a volcanic ash cloud - was the shock responsible? They also uncover new research which has shown it's possible for greying hair to return to its natural colour and ask if this finding could be exploited to uncover a cosmetic way to reverse hair greying?

Two eyes, two arms, two legs - we are roughly symmetrical on the outside, but inside we are all over the place! We just have one heart, which is usually on the left, one liver on the right, one spleen and one appendix. "Why is that?" wonders listener Joanne.Our science sleuths discover that being symmetrical down the middle - at least on the outside - is by far the most common body plan across the animal kingdom. Professor Sebastian Shimeld from the University of Oxford takes us on a journey into the deep evolutionary past, to uncover how two-sided body structures first emerged in ancient worm-like creatures, and why this layout eventually proved so useful for swimming, walking and flying.Garden snails turn out to be a surprising exception – their shells coil in one direction and on just one side of their body. Professor Angus Davison from the University of Nottingham tells the tale of his international quest to find a romantic partner for Jeremy – a rare left-coiling snail who could only mate with another left-coiling snail!Dr Daniel Grimes from the University of Oregon unfolds the delicate mechanisms by which an initially symmetrical embryo starts to develop differently down one side, and everyone puzzles over the mystery of the left-handed 'mirror molecules' - so called L-amino acids - which turn out to be the building blocks of every living organism. A curious case indeed!

We use wi-fi every day, but do you know how it works? “Is it waves and science or just some mystical magical force?” wonders listener Abby.Well, our science sleuths are on the case. To help them navigate the strange realm of electromagnetic waves they are joined by Andrew Nix, Professor of Wireless Communication Systems from the University of Bristol. He explains why your wi-fi router won’t heat up your baked beans, but your microwave will.Andrea Goldsmith, Professor of Electrical and Computer Engineering at Princeton University, also joins to reveal how these waves are crammed full of 0s and 1s- whether that's a pic of your pets or a video chat with pals.And finally, how do you get the best wi-fi at home? Dr Rutherford, it turns out, has made some rookie errors. Listen out for our top tips so you don't make them too!

‘Why are teens prone to risky behaviour?’ asks Dr Mark Gallaway, ‘especially when with their friends?’ 13 year old Emma wonders why she’s chatty at school but antisocial when she gets home. And exasperated mum Michelle wants to know why her teens struggle to get out of bed in the morning.Swirling hormones and growing bodies have a lot to answer for but, as Professor of Psychology from the University of Cambridge Sarah-Jayne Blakemore explains, there’s also a profound transformation going on in the brain.Hannah and Adam discover how the adolescent brain is maturing and rewiring at the cellular level and why evolution might have primed teens to prefer their peers over their parents. Frances Jensen, Professor of Neurology at the University of Pennsylvania, tells us how all these brain changes can impact social relationships. And Dr Rachel Sharman, a sleep researcher from the University of Oxford, reports the surprising findings from her sleep study tracking 100 teenagers around the UK.

Ben Garrod and Jess French get under the skin of Mola mola the world's largest bony fish to unravel this bizarrely shaped predator's ability to swim to a huge range of depths.Producer Adrian Washbourne

Ben Garrod and Jess French delve deep inside the predatory Burmese Python to examine its extraordinary body plan that enables it to catch, constrict and consume huge prey whole.Producer Adrian Washbourne

Wild Inside embarks on something we hardly ever witness – a look inside some of nature’s most wondrous animals. Its a rare chance to delve deep into some enigmatic and very different wild animals – from a reptile, to a mammal to a fish – unravelling the intricate internal complexity inside three of the most amazing animals ever to evolve. What makes the ultimate predator? What are the keys to successful survival in an ever-changing environment? Whilst we’ve gained a lot by observing their behaviour from the outside, to truly understand these animals, we need to look at what’s on the inside too.Ben Garrod, Professor of Evolutionary Biology and Science Engagement at the University of East Anglia, together with friend and expert veterinary surgeon Dr Jess French, open up and investigate what makes each of these animals unique. During each animal post mortem, they’re joined by experts in comparative anatomy, evolution and behaviour as they put these enigmatic animals under the knife. Along the way they reveal some unique adaptations which give each species a leg (or claw) up in surviving in the big wild world.The series begins with one of the truly exotic loaners of the cat family – which at just over two metres long, covered with beautiful gold and black rosette markings, is pure jungle royalty - the greatest of the South American big cats - the JaguarPart 2: One of the largest predatory reptiles - the Burmese Python whose extraordinary singular body plan has enabled nearly 4000 species of snakes to succeed in inhabiting nearly every part of the planet,Part 3 : The largest bony fish you might never have heard of – the bizarre looking Oceanic Sunfish which is being spotted increasingly in UK watersPresenters: Prof Ben Garrod, Dr Jess French Producer: Adrian Washbourne

War and conflict turns lives upside down and millions of adults and children witness atrocities, lose loved ones and often lose their homes and even their countries. The psychological and emotional suffering can continue long after the immediate threat to their life has gone. One in every five people touched by war – that’s 20% - will have a mental health problem that needs help and one in twenty or 5% will be severely affected. As the humanitarian crisis deepens in the Ukraine with millions under bombardment and ten million people forced from their homes, Claudia Hammond and her guests explore the evidence behind the mental health interventions that do take place around the world: do they work and are they reaching the people who need them?Two Ukrainian psychiatrists tell Claudia about the psychological support they’re trying to coordinate for their traumatised fellow Ukrainians. Dr Iryna Frankova is also a psychologist and she’s chair of the ECNP Traumatic Stress Network and with colleagues she’s helped to launch a new downloadable chatbot which offers information and psychological first aid. Dr Orest Suvalo from the Institute of Mental Health at the Ukrainian Catholic University is in Lviv in the west of Ukraine and he’s been trying to coordinate care for fleeing citizens as they arrive at the city’s railway station.Claudia’s panel includes Bill Yule, Emeritus Professor of Applied Child Psychiatry at Kings College, London, who pioneered evidence-based interventions for children caught up in war and trauma (he’s one of the founders of the Children and War Foundation set up in the 1990s during the wars in the Balkans); Professor Emily Holmes from the department of psychology at the University of Uppsala in Sweden who uses the power of mental imagery to reduce traumatic, intrusive memories or flashbacks (she’s been using these techniques to develop treatments for refugees who have fled war and conflict) and Dr Peter Ventevogel, psychiatrist and medical anthropologist and senior mental health officer with UNHCR, the refugee agency at the United Nations. And Dr Kennedy Amone P’Olak, Professor of Psycho-traumatology at the University of Witwatersrand in South Africa joins from Uganda, where he’s tracked the mental health of hundreds of the children and young people who were abducted and recruited by the Lord’s Resistance Army in Northern Uganda. Produced by: Fiona Hill and Maria Simons Studio Engineers: Phil Lander and Emma Harth

Steve Brusatte analyses the pace of evolutionary change and tries to answer big questions. Why did the dinosaurs die out and the mammals survive? How did dinosaurs evolve into birds? If you met a Velociraptor today you’d probably mistake it for a large flightless bird, says Steve. His intense interest in T. rex, Triceratops and all the other dinosaur species developed when he was a teenager and continues to this day. More recently, however, he’s focussed on the long history of mammals.For hundreds of millions of years, our mammalian ancestors remained small. Most were mouse-sized. None were bigger than a badger. Steve studies how, when an asteroid collided with earth 66 million years ago, the mammals got lucky. All the big dinosaurs were wiped out and only the small ones with wings survived. (Birds are dinosaurs, by the way). Within half a million years, mammals of all shapes and sizes had taken over on planet earth. Sabre-toothed flesh eaters, cow-sized plant guzzlers and a host of other warm blooded placental animals evolved alongside the badger sized burrowers.Steve talks to Jim Al-Khalili about his life and work, including the recent discovery of an incredibly well-preserved Pterosaur on the Isle of Skye, a place he likes to call Scotland’s Jurassic Park. Producer: Anna Buckley

Sir Shankar Balasubramanian is responsible for a revolution in medicine. The method he invented for reading, at speed, the unique genetic code that makes each one of us who we are, is ten million times faster than the technology that was used in the human genome project at the turn of the century. What’s more, it can be done much more cheaply than before and on a desktop machine. And it’s transforming healthcare, by helping us to understand the genetic basis of many diseases (particularly cancers) and to develop new diagnostic tests, medicines and personalised treatments. ‘ DNA has never failed to keep me excited and curious’ says Shankar, winner of the highly prestigious 2022 Breakthrough Prize in Life Sciences. He didn’t set out to create a game-changing technology or to make a lot of money. He just wanted to understand the DNA double helix in the greatest possible detail; to reveal how it worked, molecule by molecule. And he still rides a rickety old bicycle to work in Cambridge. Image ©University of Cambridge

We look at wolves and the programme is a little different, because the predator we’re talking about is very much a predator of our imaginations. Wolves are the spirit of the wilderness, but they also symbolize the darker side of human nature, and many myths and legends surround the wolf from all around the world. Our fear of the wolf may be primeval, but it is still very much alive and well. The idea that wolves could be reintroduced in Scotland led to headlines about the British Queen's pet corgis being eaten… So today, as well as hearing about the real animals, we ask why wolves occupy this special place in our imagination, and whether the real and the imaginary overlap with Dr Elizabeth Dearnley, a folklorist and writer based in Edinburgh and Dr Giulia Bombieri from the Museum of Science in Trento, Giulia works with the Life WolfAlps project, tracking and protecting Italian wolves.Presenter: Adam Hart Producer: Geraldine FitzgeraldPicture credit: Giulia Bombieri

The army ant might be small enough to squash under foot but, make no mistake, it’s a formidable predator. When they club together in their thousands they are a force to be reckoned with. Picture a tiger, comprised of hundreds of thousands of tiny ant-sized units, prowling through the forest and you start to get the idea. They’ll take down anything in their path, from spiders and scorpions to chickens that can’t escape them. There are even grisly stories of African army ants attacking people. But this predator has its uses too - they can be used to stitch wounds and offer a house cleaning service too.Dr Dino Martins, Executive Director of the Mpala Research Centre in Kenya, and Lecturer at Princeton University, and Daniel Kronauer, Associate Professor studying complex social evolution and behaviour at the Rockefeller University in New York.Producer: Beth Eastwood Presenter: Professor Adam HartPhoto credit: Daniel Kronauer

Adam Hart discovers why rattlesnakes make good mothers and how deadly their venom is. There are over 600 different species of venomous snakes around the world with fearsome fangs delivering deadly venoms. Up to a third of the world’s population lives in fear of snakes, but are these reptiles misunderstood? And while Adam living in the UK where there are very few snakes, finds them fascinating, we shouldn’t forget that an estimated 7,400 people every day are bitten by snakes, and somewhere between 220–380 people die as a result. That’s around 2.7 million cases of venomous snake bites, and between 80,000 and 140,000 deaths a year - mostly in poorer communities in the developing world. But with habitat loss and persecution rife, do snakes have more to fear from us than we do from them. Perhaps we should change from Tooth and Claw to to fangs and scales as we dive into the world of snakes with Dr Emily Taylor, Professor of Biological Sciences at California State Polytechnic State University - she’s a specialist in rattlesnakes and their maternal skills and Hiral Naik, the Africa programme manager for Save the Snakes currently studying for a PhD on snake behaviour at University of WitwatersrandPicture credit: Hiral Naik

Today, Claudia Hammond and her panel of experts focus on what’s been called “the silent pandemic”, the threat to modern medicine of anti-microbial resistance or AMR.Infections are increasingly resistant to live-saving drugs like antibiotics and many believe the very future of modern medicine is hanging in the balance.In a series produced in collaboration with Wellcome Collection, this edition of The Evidence is recorded in front of a live audience in the Reading Room at Wellcome in London.Just last month, a new global study covering 204 countries and territories published in The Lancet reveals the scale of AMR to human health. The number of lives lost is double previous estimates.The latest data reveals 1.3 million deaths caused directly by resistant infections in just one year, 2019, and five million more deaths were linked with AMR. The figures are shocking, especially because one in every five deaths were in children, under five years old, with the highest number of deaths in Western Sub-Saharan Africa.But this is a pandemic that threatens everybody, wherever they live. Everly Macario a public health researcher from Chicago in the United States shares her family’s story: the death of their 18 month old son, Simon, to a drug-resistant strain of the bacterial infection MRSA (Methicillin-resistant Staphylococcus aureus). The loss of Simon spurred Everly to campaign against the mis-use of antibiotics, particularly in agriculture and farming, which contributes to the rise in AMR.Leaders in the global fight against AMR join Claudia to discuss the threat to human health and address the paradox that while AMR claims millions of lives, so many die each day because they can’t get access to basic, life-saving drugs like antibiotics. And Wellcome Collection’s Research Development Lead, Ross Macfarlane, delves into the archives and shares the warning from the inventor of the first antibiotic, penicillin, Alexander Fleming as he accepted his Nobel Prize in 1945, that mis-use would lead to resistance developing.The new super drug was destined to spawn the new super bug.Claudia’s guests include the UK Special Envoy on AMR, Professor Dame Sally Davies; the World Health Organisation’s Assistant Director General for Anti-Microbial Resistance, Dr Hanan Balkhy; Senior Research Manager for Drug Resistant Infections at Wellcome, Dr Janet Midega and the Director of ReAct Africa, Dr Mirfin Mpundu.Produced by: Fiona Hill, Anand Jagatia and Maria Simons Studio Engineers: Duncan Hannant and Emma Harth

Cursed as a worthless scavenger and cast as villainous cowardly sidekicks in Disney’s The Lion King, the spotted hyena is one of the world’s most misunderstood of all predators. It may scavenge at night on a giant rubbish tip on the outskirts of Mekelle in Ethiopia, but it earns it’s top predator status when it takes down its prey in Kenya’s Masai Mara National Reserve. Adam Hart and guests polish up the spotted hyena’s tarnished reputation.Professor Kay Holekamp, a behavioural ecologist at Michigan State University, and Chinmay Sonawane, a biologist at Stanford University in CaliforniaPicture: Spotted Hyena puppies and adult male with each other in Masat Mara, Credit: Manoj Shah/Getty Images Producer: Beth Eastwood Presenter: Professor Adam Hart

UCL oceanographer Helen Czerski explores life in the ocean depths with a panel of deep sea biologists. They take us to deep ocean coral gardens on sea mounts, to extraordinary hydrothermal vent ecosystems teeming with weird lifeforms fed by chemosynthetic microbes, to the remarkable biodiversity in the muds of the vast abyssal plains.Helen's guests are Adrian Glover of the Natural History Museum in London, Kerry Howell of Plymouth University and Alex Rogers, scientific director of REV Ocean.They discuss the dramatic revelations made by deep ocean explorers in just the last forty years, and the profound connections that the deep sea floor has with life at the Earth's surface. They also consider the threats to the ecosystems down there from seabed mining and climate change.Producer: Andrew Luck-BakerPicture: Black smoker hydrothermal vents, Credit: Science Photo Library

In 2021, Captain James Kirk, aka William Shatner, popped into space for real for a couple of minutes, transported by space company Blue Origin's tourist rocket New Shepard. Elon Musk's Space X ferried more astronauts and supplies between Earth and the International Space Station, using its revolutionary reusable launchers and Dragon spacecraft. On Mars, the latest Nasa robot rover landed and released an autonomous helicopter - the first aircraft to fly on another planet.This year promises even more. Most significantly Nasa plans to launch the first mission of its Artemis programme. This will be an unmanned flight of its new deep space vehicle Orion to the Moon, propelled off the Earth by its new giant rocket, the Space Launch System. Artemis is the American space agency's project to return astronauts to the lunar surface and later establish moon bases. China also has a similar ambition.Are we at the beginning of a new space age and if so, how have we got here? When will we see boots on the Moon again? Could we even see the first people on Mars by the end of this decade? Dr Kevin Fong convenes a panel of astronautical minds to discuss the next decade or two of space exploration. He is joined by Dr Mike Barratt, one of Nasa's most senior astronauts and a medical doctor, based at the Johnson Space Center in Houston, Texas; Dr Anita Sengupta, research associate professor in Astronautical Engineering at the University of Southern California; Oliver Morton, briefings editor at The Economist and the author of Mapping Mars and The Moon.Producer: Andrew Luck-BakerPicture: Artist concept of the SLS Block 1 configuration, Credit: NASA/MSFC

Professor Tom Kariuki has spent his career battling for science in Africa, both as a leading immunologist and as the former director of the Alliance for Accelerating Excellence in Science in Africa. Now, as the world comes to grips with the coronavirus pandemic and a global movement for social justice, could this prove an opportunity for the transformation of African science? Tom talks to leading scientists in Africa about the successes they have achieved as well as the profound challenges they face, from the complexities of international funding to keeping the lights on. He asks who African science belongs to and benefits, and what needs to happen if its future is to be prosperous.(Photo: A team of scientists in a lab. Credit: Getty Images)

In a special edition of The Evidence, Claudia Hammond and her panel of experts focus on Africa, on how the more than fifty countries on the continent, home to 1.3 billion people and the most youthful population in the world, have fared, two years into the pandemic.African scientists have been key players in the global response, sequencing variants of the virus and sharing this vital information with the world.But there’s been huge frustration and anger on the continent about the way Africa has, yet again, found itself at the back of the global queue for life-saving tests, treatments and vaccines.The sense that the global health system isn’t set up to deliver for Africa has prompted what’s been described as unprecedented solidarity, and galvanised calls for increased healthcare independence, self-sufficiency and a new public health order for the continent.This includes plans to manufacture the vaccines, medicines and tests that Africa needs to increase its health security in Africa for Africa.In The Evidence, the head of the World Health Organisation in Africa, Dr Matshidiso Moeti, tells Claudia it has been “extremely devastating” to watch history repeating itself (just like the HIV pandemic and the millions of African lives lost because they were unable to access life-saving antiretroviral medication) as international solidarity faltered and Africa struggled to access vital supplies.The Pasteur Institute in Dakar, Senegal (along with centres in South Africa and Rwanda) has a key role in pan-African plans for increased health sufficiency. Yellow Fever vaccines have long been made here but the plan is that later this year, mRNA vaccines for Covid-19 and eventually for other diseases like Lassa and Rift Valley fevers, will be manufactured at this and other sites.Institute head Professor Amadou Sall, a virologist and public health specialist says producing vaccines, medicines and tests will reduce the dependency of Africa on the global community and increase health security.Dr Yodi Alakija, co-chair of the African Union’s Vaccine Delivery Alliance and WHO Special Envoy to the Access to Covid Tools Accelerator, the ACT-Accelerator, says the pandemic has laid bare a failure of global political leadership, where a life in Lagos has been viewed as worth less than a life in London.The equity gaps in access to the tools needed to fight Covid-19, she says, must be closed, and there are hopes that a high level global conference, “Port to Arms: Africa Responds – Vaccine Equity, Delivery and Manufacturing”, in Abuja, Nigeria, in February, will lead to a renewed commitments to vaccinate the world and end this pandemic.Produced by: Fiona Hill and Maria Simons Studio Engineer: Donald McDonald and Tim Heffer

Whilst watching a documentary about some poisonous frogs, Curio Janni in Amsterdam, started to wonder what would happen if a frog licked itself or another frog of the same species. She asks Dr Adam Rutherford and Professor Hannah Fry to investigate whether an animal would react badly to a toxin it itself produces? In essence 'can a venomous snake kill itself by biting itself?'Of course the answer is complicated, but the sleuths know exactly who to ask.Steve Backshall, award-winning wildlife explorer, best known for his BBC series 'Deadly 60'. Author of 'Venom – Poisonous Creatures in the Natural World'. Steve has been bitten, stung and spat at by a plethora of venomous creatures during his career. He also studied the first known venomous newt - the sharp-ribbed newt - a creature that has sharpened ribs that when it's under attack, it will squeeze its body force those ribs out through its skin, coating them in venom, which is then delivered into the mouth of an attacker.Professor Nick Casewell, studies venomous snakes and their impact on humans. He works on treatments for snakebites at the Liverpool School of Hygiene and Tropical Medicine. Snakebites have a huge impact on communities in South Asia, Sub-Saharan Africa and South America. It's now been reinstated as one of the most serious neglected tropical diseases by the World Health Organisation. Traditional treatments - antivenins - can be expensive, difficult to access and don't always work - Nick is looking into alternative medicines to treat snakebite victims.Dr. Ronald Jenner is Principle Researcher in the Comparative Venomics group at the Natural History Museum's Life Sciences, Invertebrates Division and co-wrote the book ‘Venom -the secrets of nature's deadliest weapon.’ He explains the evolutionary arms race between venomous predators and their prey and poisonous prey and their predators. He explains how resistance to venom has evolved and how venom has evolved to be more or less powerful over time, answering another Curio - Scott Probert's question on the evolution of venom.Christie Wilcox wrote 'Venomous – How Earth’s Deadliest Creatures Mastered Biochemistry'. She studied the molecular basis of lionfish venom. Christie describes how venom and immunity to venom works at the molecular level.

'What is the slipperiest thing in the world?' asks 8 year old Evelyn? 'Why do my feet slip on a wet floor but when my feet are even slightly moist it's nearly impossible to put on a pair of socks without falling over and cursing the universe. What is going on here?' asks Evelyn's Dad, Sam. Hannah and Adam investigate the science of friction and lubrication - so called 'tribology' with the help of tribologists and mechanical engineers Professor Ashlie Martini from California University Merced and Professor Roger Lewis from the University of Sheffield. With their help Hannah and Adam find out why leaves on the line are so slippery, what happens to graphite in space and what is the slipperiest food. Professor of Materials, Mark Miodownik from University College London explains what's going on when friction stops two materials sliding past each other and wonders whether the slipperiest substance was actually discovered accidentally in a lab by scientists looking for something completely different. Also in the programme why the ability to reduce friction, even by minuscule amounts could have a huge impact for sustainability and reducing energy use.Producers: Jen Whyntie and Pamela Rutherford

Dr Mitch Lomax is a sports scientist at the University of Portsmouth. She helps actual Olympic swimmers get faster. She explains how most of the muscles attached to our skeletons work: Tiny fibres use small-scale cellular energy, which, when all these fibres work in concert, turns into visible muscular movement. Mitch also explains how the dreaded Delayed Onset Muscle Soreness, or DOMS, can hit, taking a stair-wincing 48-72 hours to peak after exercise.But skeletal muscles turn out to be quite different to heart muscles, as consultant cardiologist Dr Rohin Francis explains. Heart cells are more efficient and don't get fatigued like skeletal muscle cells. They are extremely energetic and 'just want to beat'. He also explains that the sensory feedback from the heart muscles is different too. They have a different sort of nerve supply, with fewer sensory nerves, so that there is less chance of pain signals being sent to the brain.However, heart cells' incredible abilities are counterbalanced by one Achilles-like flaw: They cannot easily heal. Professor Sanjay Sinha is a British Heart Foundation (BHF) Senior Research Fellow and a Professor in Cardiovascular Regenerative Medicine at the University of Cambridge. His job is to fix broken hearts and he explains to Adam how new research into stem cells could be used to fix normally irreparable heart cells.Producer - Jennifer Whyntie and Fiona Roberts Presenters - Hannah Fry and Adam Rutherford

“I don’t really understand why water has so many properties on different scales ranging from very large and cosmic to very small quantum and quarky - Could you help by zooming in and out on water to explain what is known about it? Asks Neil Morton in Stirling.“Why does boiling water sound different to cold water?’ asks Barbara Dyson in Brittany in FranceOllie Gordon, in Christchurch in New Zealand, wants to know ‘why water is essential for all life as we know it?’And many more questions on the weirdness of water are tackled by super science sleuths Hannah and Adam helped by quantum physicist Professor Patricia Hunt, at the Victoria University in Wellington in New Zealand, science writer and author of ‘H2O – a biography of water’ Philip Ball and physicist and bubble expert in the Department of Mechanical Engineering at UCL, Dr Helen Czerski.Presenters: Hannah Fry & Adam Rutherford Producer: Fiona Roberts

“I don’t really understand why water has so many properties on different scales ranging from very large and cosmic to very small quantum and quarky - Could you help by zooming in and out on water to explain what is known about it? Asks Neil Morton in Stirling. Rutherford and Fry learn about the special hydrogen bonds that makes water such an unusual liquid.Quantum physicist Professor Patricia Hunt, at the Victoria University in Wellington in New Zealand explains to Hannah the quantum properties of individual water molecules and how they link up with other water molecules in liquid water and solid ice. She describes the hydrogen bonds that give water some of it’s weird and wonderful properties such as why ice floats, why water is able to store huge amounts of heat and why water has such a strong surface tension.Science writer and author of ‘H2O – a biography of water’ Philip Ball describes how in the 18th century it was discovered that water was not one of the classical elements, but a compound liquid of water and hydrogen and explains to Adam why there are at least 15 different types of ice.Physicist Dr. Helen Czerski sets the record straight on how ice forms in oceans and lakes and why water is at its densest at 4 degrees Centigrade and not zero.Presenters: Hannah Fry & Adam Rutherford Producer: Fiona Roberts

Everybody hopes that the new super-charged Omicron variant of coronavirus will be less severe, but even if it is, it’s spreading so fast and infecting so many people, health services around the world could still buckle under the strain.Two years into the pandemic, Claudia Hammond is joined by two world-leading scientists to discuss the impact of Omicron and to review what the world has got right in its response to coronavirus, and what it has got very, very wrong.As many countries roll out and plan for booster campaigns in the face of this new variant, concerns are raised that enhancing vaccine coverage in richer countries will again monopolise scarce supplies, and leave the millions of unvaccinated in poorer countries – including three quarters of healthcare workers in Africa – exposed yet again.Dr Soumya Swaminathan, the Chief Scientist of the World Health Organisation, acknowledges the need to boost the elderly and vulnerable, but says it's good science to make sure everyone around the world gets their first vaccine doses. Only then will further deaths be prevented and new variants stalled.Director of the Wellcome Trust, Sir Jeremy Farrar agrees. Booster vaccines in rich countries, maybe even a fourth dose, are unsustainable he says, when so many people have yet to receive their first jab. It’s not just a moral and ethical argument to vaccinate the world, he says, but it makes sound scientific sense too.Produced by: Fiona Hill, Anna Buckley, Maria Simons and Emily Bird Studio Engineer: Tim Heffer and Giles Aspen

Dogs and humans have gone paw in hand for thousands of years. Historic and genetic evidence shows we’ve shaped each other's existence over millennia. But dogs were only first trained as guides for blind people in the UK 90 years ago. What’s the biology behind this extraordinary partnership? Hannah heads to Guide Dogs UK’s training school in Royal Leamington Spa. She meets up with expert Graham Kensett to find out what it takes to make a guide dog from nose to tail, starting from before birth and following the life course through to retirement.Hannah also meets the delightful Wendy and Wilmott, a German shepherd and a retriever cross. Despite both still growing into their ears, they show her their already extraordinary skill set, from tackling obstacle courses to safely crossing roads. Cool, calm, patient, unflappable: Guide dogs are the astronauts of the canine world. But, as trainer Jenna explains, it’s all in the partnership with the owner, who needs to do plenty of work in terms of training and learning routes to journey in harmony with their furry guide.Richard Lane has owned guide dogs for over 25 years, and confirms this first hand. He reveals just how he gets to the toothpaste aisle, and tells Adam how at its peak a partnership can navigate London Waterloo station better than some sighted people, even at rush hour. Richard also explains how deeply felt the bond that forms between owner and dog is, and describes the hardest part of guide dog ownership: Letting go at the end.

The launch of the James Webb Space Telescope is only days away. Scheduled for lift off on 22 December, the largest and most complex space observatory ever built will be sent to an orbit beyond the moon. James Webb is so huge that it has had to be folded up to fit in the rocket. There will be a tense two weeks over Christmas and the New Year as the space giant unfurls and unfolds. Its design and construction has taken about 30 years under the leadership of NASA’s Goddard Space Flight Center.With its huge 6.5 metre-wide primary mirror, the giant observatory promises to extend our view across the cosmos to the first stars to shine in the early universe. That’s a vista of Cosmic Dawn: the first small clusters of stars to form and ignite out of what had been a universe of just dark clouds of primordial gas. If the James Webb succeeds in capturing the birth of starlight, we will be looking at celestial objects more than 13.5 billion light years away. Closer to home, the telescope will also revolutionise our understanding of planets orbiting stars beyond the solar system.BBC science correspondent Jonathan Amos reports from the European Space Agency’s launch site in French Guyana from where James Webb will be sent into space. He talks to astronomers who will be using the telescope and NASA engineers who’ve built the telescope and tested it in the years leading to launch.Producer: Andrew Luck-Baker Picture: James Webb Space Telescope, Credit Northrup Grumman

CRISPR is the latest and most powerful technique for changing the genetic code of living things. This method of gene editing is already showing great promise in treating people with gene-based diseases, from sickle cell disease to cancer. However, in 2018 the use of CRISPR to edit the genes of two human embryos, which were subsequently born as two girls in China, caused outrage. The experiment was done in secrecy and created unintended changes to the children's genomes - changes that could be inherited by their children and their children's children. The scandal underlined the grave safety and ethical concerns around heritable genome editing, and called into doubt the ability of the scientific community to self-regulate this use of CRISPR.CRISPR gene editing might also be used to rapidly and permanently alter populations of organisms in the wild, and indeed perhaps whole ecosystems, through a technique called a gene drive. A gene drive is a way of biasing inheritance, of getting a gene (even a deleterious one) to rapidly multiply and copy itself generation after generation, sweeping exponentially through a population.In theory, this could be used to eradicate species such as agricultural pests or disease-transmitting mosquitoes, or to alter them in some way: for example, making mosquitoes unable to carry the malaria parasite. But do we know enough about the consequences of releasing a self-perpetuating genetic technology like this into the environment, even if gene drives could, for example, eradicate insects that spread a disease which claims hundreds of thousands of deaths every year? And who should decide whether gene drives should be released?Picture: DNA molecule, Credit: KTSDesign/SCIENCEPHOTOLIBRARY/Getty Images

Professor Matthew Cobb looks at how genetic engineering became big business - from the first biotech company that produced human insulin in modified bacteria in the late 1970s to the companies like Monsanto which developed and then commercialised the first GM crops in the 1990s. Were the hopes and fears about these products of genetic engineering realised?Thanks to The State of Things from North Carolina Public Radio WUNC for the interview with Mary-Dell Chilton.(Picture: DNA molecule, Credit: KTSDesign/Science Photo Library/Getty Images)

As all eyes have been on the virus, other serious killer diseases took a backseat. Resources and staff were diverted, lockdowns were common all over the world and a very real fear of Covid-19 kept people away from clinics and hospitals.Claudia Hammond and her expert panel from Africa, Asia, Europe and Latin America look at the devastating impact of the pandemic on illnesses other than Covid, on global killers like tuberculosis, polio, measles and HIV/Aids.And they hear that the worldwide disruption to cancer care will inevitably lead to late diagnoses, late-stage cancer treatment and more deaths.Dr Ramya Ananthakrishnan runs REACH, which supports, cares for and organises treatment for TB patients in Chennai, India’s fourth most populous city. She tells Claudia about how hard the pandemic hit the work they do.Claudia’s guests include Dr Abeeba Kamarulzaman, Professor of Medicine and Infectious Diseases at the University of Malaya in Kuala Lumpur, Malaysia and the President of the International Aids Society; Dr Lucica Ditiu, respiratory physician originally from Romania, Executive Director of the Stop TB Partnership, Geneva, Switzerland; Dr Balcha Masresha, coordinator of the measles and rubella programmes for the World Health Organisation in Brazzaville, Congo and cancer physician Dr Carlos Barrios, Director of the Latin American Clinical Oncology Research Group from Brazil. Produced by: Fiona Hill and Maria Simons Studio Engineer: Bob Nettles

Biologist Matthew Cobb presents the first episode in a series which looks at the 50-year history of genetic engineering, from the concerns around the first attempts at combining the DNA of one organism with the genes of another in 1971 to today’s gene editing technique known as CRISPR.The first experiments to combine the DNA of two different organisms began at Stanford University in California in 1971. The revolutionary technique of splicing genes from one lifeform into another promised to be a powerful tool in understanding how our cells worked. It also offered the prospect of a new cheap means of manufacturing life-saving drugs – for example, by transferring the gene for human insulin into bacteria, growing those genetically engineered microbes in industrial vats and harvesting the hormone. A new industrial revolution based on biology looked possible.At the same time some scientists and the public were alarmed by disastrous scenarios that genetic engineering might unleash. What if microbes engineered with toxin genes or cancer genes escaped from the labs and spread around the world?In early 1974, responding to the public fears and their own disquiet about how fast the techniques were developing, the scientists leading this research revolution called for a global moratorium on genetic engineering experiments until the risks had been assessed.This was followed by an historic meeting of 130 scientists from around the world in February 1975 in California. Its purpose was to decide if and how the genetic engineering research could be done safely. It was a rancorous affair but the Asilomar conference is held up as an idealist if imperfect example of scientists taking responsibility as they developed a powerful new technology.(Picture: DNA molecule, Credit: KTS Design/Science Photo Library/Getty Images)

Coral reefs are some of the most diverse ecosystems in the world, and also some of the noisiest. Up close, a healthy reef teems with trills, whoops, buzzes, hums and snaps made by the diverse lifeforms that inhabit it. But as many reefs are now degrading due to rising temperatures, their sound signatures are changing. Conservationist Rory Crawford meets marine scientists who believe these sounds could provide a new way of monitoring the health of coral reefs, and boosting their resilience. He listens in to soundscapes that have been recorded around reefs in diverse parts of the world, and hears a selection of the sometimes surprising noises that have been picked up by researchers’ hydrophones.Sounds are crucial to underwater species and a healthy-sounding reef will attract fish and other organisms to settle on it, so is it possible to use acoustics to boost the ecosystem on damaged coral?Underwater recordings courtesy of: Tim Lamont/University of Exeter, Ben Gottesman, The Centre for Global Soundscapes, and Discovery of Sound in the SeaProducer: Anne McNaught Editor: Deborah CohenPicture: The underwater world of Philippines, Southeast Asia, Pacific Ocean, Credit: Giordano Cipriani/Getty Images

Geoengineering is already underway from Australia to the Arctic as scientists try to save places threatened by global heating. It’s time for a global conversation about how we research these powerful techniques, with agreements on how and where to deploy them. Global temperature today is 1.2°C hotter than preindustrial levels and it is causing climate change and sea level rise, threatening the lives and livelihoods of millions of people. Coral reef ecosystems are headed for extinction within decades; glacial melt is speeding up with runaway consequences; agriculture has been hit by drought and extreme weather…. And as our carbon emissions rise, it’s only going to get worse, because we’re headed this century for at least 3°C of temperature rise if governments meet their netzero targets. Faced with this heat emergency, scientists are acting. In Australia, they are brightening clouds to make them more reflective, hoping to save the Great Barrier Reef, and coating the waters with a thin reflective film; in the Arctic, glaciers are being covered with fine glass beads to reflect the sun’s heat and slow melting; on the Asian plains, clouds are being seeded to deliver rain over droughtlands. Beaches are being coated with rock dust to try to “react out” the air’s CO2, and where coral reefs have already been destroyed by bleaching, scientists are creating artificial coral structures inhabited by genetically modified coral organisms.No global body is overseeing any of this, but it is mostly local and small scale. As temperatures climb further, heatwaves and deadly weather events will kill even more people than today. Scientists want to look at methods of preventing catastrophic temperature rise that could help large regions – potentially cooling global temperature. They want to see if seeding stratospheric clouds with sulphates would be possible, and whether it would have any unwanted affects.But a large vocal group of environmentalists is opposed even to feasibility studies. They claim that this sort of geoengineering is “unnatural”, and instead are pressing for huge societal change that is difficult to achieve, unpopular, and could cause hardship. Planned experiments have been cancelled after pressure by these campaigners, repeatedly, over several years. Now they are trying to get a moratorium on any research into geoengineering. Many fear that even talking about geoengineering risks reducing efforts to decarbonise. Meanwhile, the temperature keeps rising. Undoubtedly, there will come a point when society will decide it is no longer acceptable for thousands of people to die from hot temperatures, and seek to deploy cooling technologies. Technologies that we haven’t properly researched. The government of India may decide to unilaterally cool the planet after a deadly heatwave; or the government of the US after an even more violent Sandy; or the government of an island nation after a typhoon that drowns the land…This is not something that should be decided by a few powerful nations, but equally, ignoring these potential lifesaving technologies because of cultural reticence would be a moral and political failure. Instead, we need to have a conversation about how geoengineering should be researched, governed, regulated and deployed.This is a programme about how we cool the planet with the latest geoengineering technologies, and the loaded cultural values and politics around the biggest planetary dilemma of our time.Picture: Rough sea, Credit: Jacob Maentz/Getty Images

Even with the best efforts, it will be decades before we see any change in global temperatures through our mitigation efforts. Given the pace of global heating and the time lag before our emissions reductions have any impact, scientists are exploring additional ways of reducing global temperature. Gaia Vince explores ways of actively removing carbon from the atmosphere. She discusses the idea of BECCS, biological energy with carbon capture storage, and DAC, direct air capture with Simon Evans of Climate Brief. Sir David King, Chair of the Centre for Climate Repair at Cambridge University, explains how he is planning an experiment in the Arabian Sea that will allow the oceans to take up more carbon. Professor Rachael James of the University of Southampton talks about her experiments in enhanced rock weathering, where she finds ways of speeding up the slow continual process in which carbon dioxide in the atmosphere dissolves in rainwater, forming a weak acid that reacts with the surface of rocks. She hopes this will lock up more carbon and bring benefits to farmers and mining companies. And psychologist Ben Converse of the University of Virginia considers whether we might find geoengineering a socially acceptable approach to tackling climate change. Editor: Deborah Cohen Picture: Clouds, Credit: Gary Yeowell/Getty Images

A maelstrom of misinformation and its sinister cousin, disinformation, have been swirling all around us about Covid-19. The rumours and conspiracy theories have raced around the globe as fast as the virus itself.Untruths, half-truths, misunderstandings and deliberate mischief-making aren’t new when it comes to health of course, but a global pandemic with a novel virus means that there is much uncertainty and a lack of definite facts. In that gap, falsehoods flourish and in our super-connected world, they spread far and wide.Claudia Hammond and her panel of global experts assess the scale of misinformation and its impact and conclude that misinformation really does cost lives.Dr Brett Campbell, a physician in a dedicated Covid intensive care unit at Ascension St Thomas Hospital in Nashville, Tennessee, tells Claudia about the unvaccinated patients, many of them close to death, who still cannot accept that the virus is real. Claudia’s guests include Heidi Larson , Director of the Vaccine Confidence Project and Professor at the London School of Hygiene and Tropical Medicine; Dr Saad Omer, Director of the Yale Institute for Global Health and Professor of Medicine and Infectious Diseases in the USA and Robert Kanwagi, a public health specialist and a member of the Global Task Force on Vaccine Confidence and Uptake. Produced by: Fiona Hill and Maria Simons Studio Engineer: Jackie Marjoram