Discovery

Mice, like humans, prefer to be treated with a little dignity, and that extends to how they are handled.Pick a mouse up by its tail, as was the norm in laboratories for decades, and it gets anxious. Make a mouse anxious and it can skew the results of the research it’s being used for.What mice like, and how they behave, is the focus of Professor Jane Hurst’s research. Much of that behaviour, she’s discovered, can be revealed by following what they do with their noses - where they take them and what’s contained in the scent marks they sniff.Now William Prescott Professor of Animal Science at the University of Liverpool, Jane has unravelled a complex array of scent signals that underpin the way mice communicate, and how each selects a mate.Within this heady mix of male scent, she’s identified one particular pheromone that is so alluring to females that she named it Darcin, after Mr Darcy in Pride and Prejudice.Producer: Beth Eastwood

Professor Cath Noakes studies how air moves and the infection risk associated with different ventilation systems. Early in the pandemic, she was invited to join the government’s Scientific Advisory Group for Emergencies, SAGE and asked to study the transmission routes for Covid-19. In July, together with many other scientists, she urged governments around the world and the World Health Organisation to recognise that Covid-19 could be transmitted in tiny particles in the air, even if the risk of getting infected in this way was much smaller than the risk from larger particles that travel less far. Her research highlights the importance of good ventilation as a way to stop the spread of infection in indoor environments. Being in a well ventilated space can reduce the risk of inhaling tiny airborne pathogens by 70%. Cath talks to Jim Al-Khalili about her journey from studying industrial processes to infection risk, her work on the airborne transmission of diseases and the challenge of designing buildings that are both well ventilated and energy efficient.Producer: Anna BuckleyPhoto credit: University of Leeds

From flight bans and entry bans to compulsory quarantine and virus testing, most countries have introduced travel restrictions in an effort to control the spread of the virus. But for a virus that knows no borders, do cross-border health measures actually work?Claudia Hammond and her panel of global experts answer listeners’ questions and discuss the very latest science about the use of border controls in this pandemic.The countries we can all learn from, researchers say, include Singapore, Australia, New Zealand, Taiwan, Vietnam, Thailand and South Korea. Their border policies are said to be consistent and, crucially, integrated with strong domestic public health measures.So while we wait for vaccinations, it seems an international vaccination passport will be rolled out very soon, maybe as early as Spring. A digital passport – a golden ticket to travel – could give privileged access to those who have been inoculated. But what are the ethical and scientific concerns of such a move? The panel with the answers include Kelley Lee, Professor of Public Health at Simon Fraser University in British Columbia, Canada who is leading an international project to assess cross border health measures, Pandemics and Borders, Dr Voo Teck Chuan, Assistant Professor at the University of Singapore Centre for Biomedical Ethics and a member of the WHO Working Group on Ethics and Covid-19, Dr Birger Forsberg, Associate Professor of International Health at the Karolinska Institute in Sweden and senior physician and health planner at the regional health authority of Stockholm and Marc Lipsitch, Professor of Epidemiology at the Harvard TH Chan School of Public Health and Director of the Centre for Communicable Disease Dynamics in the USA. Produced by: Fiona Hill, Samara Linton and Maria Simons Editor: Deborah Cohen Technical Support: Sarah Hockley

Professor Jim Al-Khalili talks to leading scientists about their life and work.

Lucy Cooke meets some of the animal kingdom’s nocturnal inhabitants to understand why it pays to stir once the sun goes down.She examines some of the extraordinary nocturnal adaptations from the largest group of mammals, the bats, to the mysterious long fingered lemur, the Aye Aye, to hear why the dark has proved evolutionarily advantageous. In an increasingly crowded planet, could future survival for many diurnal animals depend on a nightlife?Producer Adrian WashbournePicture: Honey Badger, Credit: Cindernatalie/Getty Images

We humans are a supremely social species, but the coronavirus pandemic has forced many of us into solitary confinement.It feels like an unnatural, regressive move, that goes against our collective nature. So why do some species embrace the power of one? And how do they make a success of a solo existence?Lucy Cooke meets some of the animal kingdom’s biggest loners - from the Komodo Dragon, to the Okapi and the Black Rhino - to explore the lure of solitude.Producer: Beth EastwoodPicture: Okapi (Okapia johnstoni), forest giraffe or zebra giraffe, Credit: Jiri Hrebicek/Getty Images

You might think that sex is essential for life, but you'd be wrong!Lucy Cooke travels to the Hawaiian island of Oahu to meet a community of mourning geckos - self-cloning sisters who have done away with males altogether.An array of reptiles, amphibians and fish, along with a host of spineless wonders, from snails to spiders, can reproduce without sex. It's what biologists call parthenogenesis, from the Greek meaning “virgin birth”.Many, like the mourning gecko, make great “weed” species. They're explosive opportunists capable of rapidly colonising new territory, as they don’t need to waste energy finding a mate. But without the mixing up of genes, that sex with a male provides, they are less able to adapt and change.So sex pays if you don’t want to go extinct.Yet there is one self-cloning sister that defies that theory - the Bdelloid Rotifer. Living for millions of years and comprising over 450 species, these microscopic water dwelling creatures have conquered the planet. They get around the drawbacks of no sex, by stealing genes, and escape disease by desiccating and then coming back to life.Producer: Beth EastwoodPicture: Female Komodo dragon at London Zoo, Credit: Matthew Fearn/PA

News that at least three new variants of SARS-CoV-2 have emerged in three separate continents have sent a chill throughout the scientific community. All viruses mutate but the speed and scale of the changes and the fact they occurred independently, is seen as a wake-up call.Genetic sequencing in South Africa first raised the alarm about the version of the virus that was racing through populations in the Eastern and then Western Cape. Scientists at the country’s KwaZulu-Natal Research and Innovation Sequencing Platform, KRISP, were struck by the sheer number of genetic mutations, many of which were on the all-important spike protein. This is where the virus binds to human cells and where neutralising antibodies, our immune system’s defences, also mount their defence. Any changes there, researchers knew, could be bad news.Genetic sequencers in the UK also identified a new lineage which shares just some of the mutations in the South African variant. Named B.1.1.7 this version tore through populations in the South East of England and is now the dominant strain throughout the country and beyond. Latest estimates suggest is between 30 and 50% more infectious, although exactly how it is more transmissible is still being worked out.In Brazil too, news earlier this month of another troubling variant, the P.1. tearing through populations in Manaus, the capital of Brazil’s Amazonas state, where so many were infected in the first wave of the pandemic. Like the version identified in South Africa, this variant also has mutation called E484K on the all-important spike protein. This could make the virus better at evading antibodies, with huge implications for re-infection rates and the new vaccines.Claudia Hammond and her expert panel consider what the new shapeshifting virus means for the global goal of herd immunity and an end to the pandemic. And they answer your questions. Please do keep your virus queries coming in to the.evidence@bbc.co.uk and your question could be included in the next programme.Claudia’s guests include Dr Richard Lessells, infectious diseases specialist from the University of KwaZulu-Natal in South Africa and part of the team that identified the South African variant; Dr Muge Cevik, clinical lecturer in infectious diseases and medical virology at the University of St Andrews in Scotland and a member of the UK’s expert committee NERVTAG (New and Emerging Respiratory Virus Threats Advisory Group); Dr Shane Crotty, Professor for Infectious Disease and Vaccine Research at la Jolla Institute for Immunology, University of California San Diego in the USA and Dr Margaret Harris from the World Health Organisation in Geneva. Produced by: Fiona Hill, Samara Linton and Maria Simons Editor: Deborah Cohen Technical Support: Donald McDonald and Tim Heffer

When US health expert sighed last week that science could now speak again, his sense of relief was shared by many scientists. Since the start of the Trump administration, experts inside the US government's science agencies, and those outside working with them have felt their efforts sidelined. From the coronavirus effort to international relations and the border wall, Roland Pease hears from some of those who have felt shut out of the nation's science conversation these past four years.Presenter: Roland PeasePicture: U.S. President Donald Trump references a map held by acting Homeland Security, credit: Chip Somodevilla/Getty Images)

Professor Dale Sanders has spent much of his life studying plants, seeking to understand why some thrive in a particular environment while others struggle. His ground breaking research on their molecular machinery showed how plants extract nutrients from the soil and store essential elements. Since plants can’t move, their survival depends on these responses. In 2020, after 27 years at the University of York, he became the Director of the John Innes Centre in Norwich, one of the premier plant research institutions in the world. Meeting the food needs of a growing global population as the climate changes is a major challenge. And, Dale says, it’s not only about maximising yields. We need crops that are more resilient and more nutritious. Drought resistant crop varieties, for example. And zinc-rich white rice. Dale talks to Jim about how plant science is helping to feed the world in a sustainable way and why plant scientists don’t always get the recognition they deserve. Producer: Anna Buckley