Science Friday

Sperm Swim Together To Help Each Other Reach The Egg New research is complicating our understanding of how, exactly, sperm are able to reach eggs. The predominant theory is that sperm compete against each other, with the strongest swimmer fertilizing the egg. But a new study, using cow sperm, suggests that sperm might actually swim together, forming clusters to help each other swim upstream to reach the egg. Researchers created a device that has some of the features of a female reproductive tract, which they tested using a polymer substance that mimics cervical mucus. The intensity of the flow of this mucus-like fluid influenced how well the sperm clustered together. The faster the flow, the more likely the sperm were to band together to swim upstream. Ira talks with Dr. Chih-Kuan Tung, associate professor of physics at North Carolina Agricultural and Technical State University about his research on sperm motility, and how it could improve infertility testing in the future.   Mars Rover, Move Over: Making A Rover To Explore The Deep Sea   When you hear the word ‘rover,’ it’s likely your brain imagines another planet. Take Mars, for instance, where the steadfast rolling science labs of Perseverance and Curiosity—and the half dozen robotic rovers before them—slowly examine the geology of the Red Planet for signs of past habitability. But Earth has rovers too. The autonomous, deep-sea Benthic Rover II, engineered by researchers at the Monterey Bay Aquarium Research Institute (MBARI), trawls a desolate surface too—this one 4,000 meters below the surface of the ocean, on a cold abyssal plain, under the crushing weight of 6,000 pounds per square inch of pressure. Deep beneath the surface, the rover is seeking data about carbon: What carbon sources make it down to such a deep sea floor? And does that carbon return to the atmosphere as carbon dioxide, where it might contribute to global warming, or sequestered safely as an inert part of the ocean sediment? Ira Flatow talks to engineer Alana Sherman and ecologist Crissy Hufford, both of MBARI, about the work it takes to make a rover for the deep sea, and the value of its data as we look to the future of our oceans.   Ukraine’s Ongoing Tragedy Inspires Teenage Inventor To Locate Landmines Igor Klymenko is a 17-year-old inventor from Ukraine, and he recently won the Chegg.org Global Student Prize—a $100,000 award given to a young change-maker. Klymenko won it for his invention, the Quadcopter Mines Detector, which is designed to locate underground landmines. The issue of unexploded landmines cannot be understated—some estimates show there could be about 100 million of them scattered across the globe. Klymenko is a student at both the University of Alberta in Canada and the Igor Sikorsky Kyiv Polytechnic Institute in Ukraine. He joins Ira this week to talk about the Quadcopter Mines Detector, and how he’s trying to help his home country, Ukraine, through engineering.   Getting the Dirt On The World Of Competitive Soil Judging If you’re looking for a new sport or hobby to try, forget about rock climbing or kitesurfing. If you don’t mind getting a bit dirty, consider competitive soil judging—a contest in which contestants work to best analyze, identify, and describe the layers of soil in a 5-foot-deep trench dug into a field. People can compete either individually, or in a team format, where different members of the team work to describe the soil’s characteristics—from color, to grain size, to how it interacts with water. Clare Tallamy, a senior at Virginia Tech majoring in environmental science, recently won the individual competition in an international soil judging contest held in Scotland as part of the 2022 World Congress of Soil Science. She joins Ira to describe how soil judging works, gives an introduction to soil taxonomy, and explains the practical significance of being able to excel at judging a sample of soil.   Transcripts for each segment will be available the week after the show airs on sciencefriday.com.   Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.

Biden Declares The COVID-19 Pandemic Over. Is It? During an interview with 60 minutes last weekend, President Joe Biden said “the pandemic is over.” “The pandemic is over. We still have a problem with covid, we’re still doing a lot of work on it. But the pandemic is over. If you notice, no one is wearing masks. Everybody seems to be in pretty good shape, “ Biden said at the Detroit auto show. This comment has prompted some dismay from the public health community. The World Health Organization hasn’t declared the pandemic over just yet. And the criteria to declare a pandemic over is nuanced and cannot be declared by the leader of a single country. Ira talks with Katherine Wu, staff writer at the Atlantic, about that and other top science stories of the week including a new ebola outbreak in Uganda, the latest ant census, and Perseverance’s rock collection.  Diving Into The Biggest Ideas In The Universe Can mere mortals learn real physics, without all the analogies? Dr. Sean Carroll, Homewood Professor of Natural Philosophy at Johns Hopkins University and author of The Biggest Ideas in the Universe: Space, Time, and Motion, says yes—if you’re willing to accept a bit of math. Carroll says that he dreams of a world in which ordinary people can have informed ideas on physics, and might argue about the latest black hole news as urgently as they might debate a sports team’s performance in last night’s game. His new book starts with some of the basics of motion that might be taught in an introductory physics class, then builds on them up through concepts like time and black holes. Carroll joins Ira to talk about the book, exploring where physics equations leave off and philosophical concepts begin, and the nebulous world in between. To read an excerpt of The Biggest Ideas In The Universe: Space, Time, and Motion, visit sciencefriday.com. Was Soylent Green Right About 2022? In the spring of 1973, the movie Soylent Green premiered. The film drops us into a New York City that’s overcrowded, polluted, and dealing with the effects of a climate catastrophe. Only the city’s elite can afford clean water and real foods, like strawberry jam. The rest of the population relies on a communal food supply called Soylent. There’s Soylent Red, Soylent Yellow… and a new product: Soylent Green. The year the film takes place? 2022. And spoiler alert: Soylent Green is people. While the 2022 the film depicts is—thankfully—much darker than our current situation, the message still holds up. When the film premiered, Rachel Carson’s Silent Spring and the Clean Air Act were very much in the country’s consciousness. 50 years later, warmer temperatures, soil degradation, and social inequality are more relevant than ever. Joining Ira to talk about the importance of Soylent Green 50 years later is Sonia Epstein, associate curator of science and film at the Museum of the Moving Image in New York City. Also joining is soil scientist Jo Handelsman, director of the Wisconsin Institute for Discovery in Madison, Wisconsin.  Saturn’s Rings Might Be Made From A Missing Moon Saturn’s rings are one of the most stunning, iconic features of our solar system. But for a very long time, Saturn was a ring-less planet. Research suggests the rings are only about 100 million years old—younger than many dinosaurs. Because Saturn wasn’t born with its rings, astronomers have been scratching their heads for decades wondering how the planet’s accessories formed. A new study in the journal Science suggests a new idea about the rings’ origins—and a missing moon may hold the answers. Co-author Dr. Burkhard Militzer, a planetary scientist and professor at UC Berkeley, joins Ira to talk about the surprising origins of Saturn’s rings. Want to know more? Listen to this previous Science Friday episode about Saturn’s formation.  Transcripts for each segment will be available the week after the show airs on sciencefriday.com.  Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.

Pulling Water From Thin Air? It’s Materials Science, Not Magic. You’ve probably seen a magic trick in which a performer makes a playing card, coin, or even a rabbit appear out of thin air. Writing in the journal Nature Communications, researchers at UT Austin describe an experiment where they seem to pull water out of dry air—but it’s not magic, and it’s not a trick. Carefully applied materials science and engineering allows the team to extract as much as six liters of water per day from one kilogram of their polymer, even in areas with 15% humidity. That’s drier than the Sahara Desert. The material itself contains two main ingredients. First, a konjac gum, which can be found in Asian cooking, rapidly absorbs water from the air. (In scientific terms, it’s a “hygroscopic material.”) The second ingredient, hydroxypropyl cellulose, responds dramatically to changes in temperature. So at lower temperatures, the team’s polymer film absorbs water, but can rapidly release that water when the film is heated by the sun or artificial heating. Dr. Guihua Yu, a professor of materials science and mechanical engineering at UT Austin and one of the authors of the report, joins Ira to talk about the material, its applications, and what challenges remain before it can be put into widespread use. An AI Partnership May Improve Breast Cancer Screenings Reading a mammogram is a specialized skill, and one that takes a lot of training. Even expertly-trained radiologists may miss up to 20% of breast cancers present in mammograms, especially if a patient is younger or has larger, denser breasts. Researchers have been working since the advent of artificial intelligence to find ways to assist radiologists in making more accurate diagnoses. This July, a German research team, publishing in The Lancet Digital Health, found that when AI is used to help sort mammograms into low, uncertain, and high risk categories, a partnership between the radiologist and the algorithm leads to more accurate results. To explain how this result may be translated into real clinical settings, Ira talks to Harvard’s Constance Lehman, a longtime researcher in the field of breast imaging. She talks about the promise of AI in breast cancer screening, its limitations, and the work ahead to ensure it actually serves patients. A Smoky Aftertaste: Keeping Wildfires Out Of Your Wine Glass Readers who love wine: It’s time to have a serious talk. California, Washington and Oregon are three of our largest wine-producing states. They’re also some of the states most prone to wildfires. The West Coast is in the midst of its wildfire season, which makes us wonder: How does smoke impact the wines that come from this region? And what could this mean for those who enjoy a Napa Valley merlot, or an Oregon pinot noir? There’s an area of food science research dedicated to answering these questions. Factors like the length of smoke exposure, the chemical composition of that smoke, and the type of wine being created all factor into how the final wine product tastes. The best side of a smoked wine spectrum is a mild campfire flavor. The bad side is burning tires. Joining Ira to talk about how scientists are working to better understand how wildfire smoke impacts wine is Dr. Cole Cerrato, assistant professor of food science at Oregon State University in Corvallis, Oregon. Artemis Update: What Will It Take To Make It Back To The Moon? Sixty years ago this week, President John F. Kennedy gave an historic address at Rice University, in which he laid down a challenge to the nation and the world. “But why, some say, the moon? Why choose this as our goal? And they may well ask why climb the highest mountain? Why, 35 years ago, fly the Atlantic? Why does Rice play Texas? We choose to go to the moon. We choose to go to the moon in this decade and do the other things, not because they are easy, but because they are hard, because that goal will serve to organize and measure the best of our energies and skills, because that challenge is one that we are willing to accept, one we are unwilling to postpone, and one which we intend to win, and the others, too.” Six decades later, going to space is still hard. This week, a flight of Blue Origin’s ‘New Shepard’ rocket experienced ‘an anomaly’ during a launch, triggering the escape system for the capsule (which, thankfully, was uncrewed.) And the Artemis 1 mission, the first test flight of America’s planned return to the moon, is on hold while a leaking fuel line is addressed. Dr. John Blevins, the chief engineer for the Space Launch System, the massive rocket powering the Artemis 1 flight, joins Ira to provide an update on the mission, and why, after 60 years, the trip to the moon still contains so many challenges to be overcome.   This Astrophysicist Holds Star Data In The Palm Of Her Hand When you look into the sky, the space between stars looks empty and void—but it isn’t. That’s where stars are born. And since astronomers and astrophysicists can’t reach these stellar nurseries, they rely on data collected by telescopes to peer into space. But what if you could hold part of the galaxy in their hands? Or peer into an orb and see the birthplace of stars? By combining astrophysics and art, that’s exactly what Dr. Nia Imara does. She’s a visual artist and assistant professor of astronomy at UC Santa Cruz, based in Santa Cruz, California. Imara talks with Ira about studying stellar nurseries, how she creates stellar nursery spheres, and what she can learn from holding them in her hand. Transcripts for each segment will be available the week after the show airs on sciencefriday.com. Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.

Why The Owner of Patagonia Gave Away The Whole Company Earlier this week, the founder and owner of Patagonia Yvon Chouinard—the company known for their famous puffer jackets and outdoor gear—gave away the whole company. Who’d he give it to? The Earth. “Hopefully this will influence a new form of capitalism that doesn’t end up with a few rich people and a bunch of poor people,” Chouinard told David Gelles for The New York Times. “We are going to give away the maximum amount of money to people who are actively working on saving this planet.” Purbita Saha, deputy editor at Popular Science, debriefs Ira on Chouinard’s decision, as well as other science stories of the week. They talk about if it’s safe to get the COVID booster and flu shot at the same time, how a new blood test could catch early stages of cancer, why the night sky is bluer, the reason why NASA is crashing a spacecraft into an asteroid, and the fight over trash between cockatoos and Australians.   Depression Isn’t Caused By Low Serotonin. So How Do Antidepressants Work? In 2001, a now classic Zoloft commercial hit the airwaves—featuring a sad little blob with a rain cloud following it around. The commercial explains that “while the cause is unknown, depression may be related to an imbalance of natural chemicals between nerve cells in the brain. Prescription Zoloft works to correct this imbalance.” That theory of depression as a chemical imbalance is based on a simple premise: Depressed people’s brains lack serotonin. If a patient takes a serotonin reuptake inhibitor (SSRI), like Prozac or Zoloft, it boosts their serotonin levels, and their depression lifts. The trouble is that when researchers started testing this theory they found it didn’t hold up. Serotonin is certainly involved in depression. But it’s way more complicated than it originally seemed.To be clear, there is a body of research showing that antidepressants do work—it’s just unclear exactly how they work. Read the rest at sciencefriday.com. Understanding Metabolism Genes Might Improve Depression Treatment Sometimes finding the right antidepressant medication is basically trial and error. Scientists are still trying to figure out why some antidepressants work for some people, but not others. Researchers at the Veterans Administration wanted to know if genetic testing might help doctors with prescribing the antidepressant best suited for their patients. Specifically, they examined genes that indicate whether or not someone is able to properly metabolize a medication. Ira is joined by Dr. David Oslin, professor of psychiatry at the Crescenz Department of Veterans Affairs Medical Center and University of Pennsylvania Perelman School of Medicine, to explain his latest research and its broader implications.   Transcripts for each segment will be available the week after the show airs on sciencefriday.com.   Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.

COVID-19’s Lingering Toll On The Heart As new omicron-specific boosters against COVID-19 unroll in cities around the US, research is revealing more about the longterm consequences of even one infection with the SARS-CoV2 virus. Writing this week in Nature Medicine, a team of researchers from Germany describe finding long-lasting signs of heart disorders in the majority of recovered patients in their study group–even up to nearly a year later. FiveThirtyEight’s Maggie Koerth joins Ira to describe the research and how it fits into what we’re learning about the scope of Long Covid. Plus taking the temperature of the melting Thwaites Glacier, new insights into the genes of both immortal jellyfish and human astronauts, and a post-mortem of the world’s first known amputation. Why Are Dead Fish Piling Up Across The San Francisco Bay? Thousands of dead fish are piling up across the Bay Area. From the concrete outer edges of Oakland’s Lake Merritt to the sandy beaches of San Francisco’s Fort Funston and the pebbled banks of Oyster Point in San Mateo County, the carcasses of fish likely poisoned by a harmful algal bloom — more commonly known as a red tide — are washing ashore. It’s a mass-death event the San Francisco Bay hasn’t seen the likes of in years, says Jon Rosenfield, senior scientist with environmental group San Francisco Baykeeper. “From a fish’s point of view, this is a wildfire in the water,” he said. By SF Baykeeper’s count, the number of fish dying off in the San Francisco Bay could easily exceed hundreds of thousands, and that, Rosenfield said, might even be a “low” estimate. His field investigator confirmed “easily tens of thousands of fish dead” in Lake Merritt alone. But Rosenfield cautioned, “What you see is just the hint of what’s actually happening further beneath the water’s surface and in places you’re not getting to on the shoreline. So it’s really an uncountable number.” It may be harmful to humans, too. An algal bloom of this size can cause skin irritation and respiratory problems, and the San Francisco Bay Regional Water Quality Control Board is advising people to avoid swimming, kayaking or other activities on the water until the bloom subsides. Read the full story at sciencefriday.com. As Temperatures Get Warmer, Fish Are At Risk Climate change is expected to have a big effect on a sensitive group of creatures: fish. A new study out of the University of Arkansas predicts that there is likely to be a six-fold increase in large fish mortality events between now and 2100, specifically in freshwater lakes in Minnesota and Wisconsin. Known as “summerkills” and “winterkills”, seasonal die-offs are a part of fishy nature, but have been happening at a greater frequency as temperatures increase. That’s due to climate change-related factors like algal blooms, infectious disease, and oxygen deprivation. Joining Ira to talk about the future for freshwater fish is Simon Tye, PhD candidate in biology at the University of Arkansas in Fayetteville.  As The World Decarbonizes, Sulfuric Acid May Be In Short Supply A move towards more alternative energy sources and away from fossil fuel production is a net positive for the world. But there’s an unanticipated side effect—a possible global sulfuric acid supply shortage. Eighty percent of the world’s sulfuric acid is the byproduct of fossil fuel production. Cutting back on coal, oil, and natural gas means producing less sulfur acid. That’s important as sulfuric acid is critical to making fertilizer, as well as green technology like solar panels and batteries. Ira talks with Mark Maslin, professor of Earth System Science at University College London, about his latest research, which points to a looming sulfur shortage. The New G.O.A.T Of Park Systems Is An Actual Goat If you walk into a park, the odds are pretty high that you’ll find an invasive plant species, like buckthorn, giant hogweed, or multiflora rose. These resilient plants can often grow uncontrollably and out-compete native species for resources, which has consequences for native wildlife that depend on other native plants. They can also be incredibly difficult to remove. That’s why a growing number of parks across the United States are turning to unlikely helpers: goats. Conservation grazing is a practice in which livestock are used to maintain biodiversity. Because goats eat almost everything, they chow down on invasive plants and make them much easier to remove. Radio producer Rasha Aridi speaks with Hillary Steffes, the chief goat herder at Allegheny GoatScape in Pittsburgh, Pennsylvania, about using goats as a conservation tool. Then, Rasha takes a trip to Riverside Park in NYC to meet some goats, and talk with Marcus Caceres, a field supervisor at the Riverside Park Conservancy. Transcripts for each segment will be available the week after the show airs on sciencefriday.com.         Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.

The Hot And Cold Past Of The Air Conditioner In the Northeast, the leaves have started changing colors, heralding the season of pumpkins, sweaters, and the smell of woodsmoke. But in some parts of the country, the heat hasn’t let up. In cities like Dallas, Phoenix, and Miami, temperatures were up in the high 80s and low 90s this week—and with climate change, the U.S. is only getting hotter. But humans have come up with an ingenious way to keep the heat at bay: air conditioning. Widely considered one of the greatest engineering achievements of the 20th century, the technology has transformed how and where people live—and it’s prevented countless deaths. But it comes at a cost, and if we’re going to keep up with a warming climate, we’re going to need some other tricks to stay cool. Remembering Frank Drake, Who Listened To The Cosmos Last week, astronomer and SETI pioneer Dr. Frank Drake died at the age of 92. Dr. Drake was a key figure in the search for extraterrestrial intelligence—from Project Ozma in 1960, to the founding of the SETI Institute. He collaborated on the ‘Golden Record’ that Earth sent to the stars on board the Voyager space probes. Drake also created a mathematical way of estimating the probability of discovering signs of intelligent life, a calculation that became known as the Drake Equation, and spent years advocating for the search for alien life. Drake appeared on Science Friday many times over the years. Here, in excerpts from conversations recorded in 2010 and 2016, he talks with Ira about the search for extraterrestrial intelligence, and his role with the Voyager Golden Record project. Our condolences to his family, friends, and colleagues. Transcripts for each segment will be available the week after the show airs on sciencefriday.com.     Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.

New, Extra Protective COVID Vaccines Are On The Way Earlier this week, the FDA approved brand new COVID-19 vaccines from both Moderna and Pfizer-BioNTech that are designed to better protect people from the BA.4 and BA.5 omicron subvariants. At the same time, the U.S. is scaling back free testing and precautionary measures, putting more pressure on vaccines. Casey Crownhart, a climate and technology reporter at MIT Technology Review, joins Ira to talk about COVID updates and other science news of the week. They also discuss how the U.S. is bracing for a record-breaking heatwave, the devastating floods in Pakistan, how the city of Jackson, MI ended up without running water, why Greenland’s “zombie ice” is causing concern, a massive investment in solar power, and a clue as to how the Ancient Egyptians built the pyramids of Giza.   New Jersey’s Lenape Nation Fights Ford’s Toxic Legacy The Turtle Clan of the Ramapough Lenape Nation has lived in the wooded hills around Ringwood for centuries, enduring the impacts of European settlement and the building up of America. But the toxic waste that now surrounds the Passaic County community is from an invasion of an entirely different kind. And it wasn’t long before residents started getting sick. When the federal government created the National Priorities List, better known as Superfund, in 1980, abandoned iron mines in Ringwood were among the first sites to be listed; they made the list in 1983. Between 1965 and 1974, the Ford Motor Company dumped hundreds of thousands of gallons of paint sludge, solvents and other waste into the mines scattered throughout the Turtle Clan’s homeland. By then, the southern portion of the site had been sold off by Ford to the Ringwood Solid Waste Management Authority, which went on dumping more waste onto and into the already toxic land. Arsenic and lead, benzene and 1,4-dioxane leached into groundwater. Kids played among slabs of hardened paint sludge. Adults scavenged the dump sites for copper and other valuable metals. Read the rest at sciencefriday.com. Coming Soon: A Germ-Killing Countertop? From restaurant tables to office door knobs, not to mention anything inside a hospital, the world is full of surfaces that need sanitizing, lest someone catch a surface-borne viral or bacterial infection like the flu or MRSA. The typical solution involves sanitizing those surfaces with sprays and fluid cleaners. Or, sometimes, using materials that are hostile to microbes, such as silver or copper. But a team of engineers at the University of Michigan has another solution in mind: a spray-on coating that combines the stabilizing power of polyurethane with the well-documented germicidal qualities of essential oils such as cinnamon, tea tree, and lemon. As the team reports in the journal Matter this week, their coating seems to kill pathogens like SARS-CoV2, MRSA and E. coli within minutes—and lasts for months before it must be refreshed. Research co-author Anish Tuteja joins Ira to talk about the innovation, and how he thinks it might be useful.   The Surprising Animal Science Behind Jordan Peele’s ‘Nope’ One of the summer’s biggest blockbusters has been the alien horror film “Nope,” from director Jordan Peele. “Nope” has elements of many classic UFO films, with the Spielbergian charm of “Close Encounters of the Third Kind,” and the horror and destruction from “The War of the Worlds.” For the spoiler-averse, this is your warning to turn back now. The big twist in “Nope” that differentiates it from other alien films is that it isn’t a UFO hanging out in the skies above our main characters. The saucer-shaped figure is the alien itself. Writer and director Jordan Peele attributes much of the inspiration for the alien as coming from sea creatures. He enlisted the help of scientific consultants including marine biologist Kelsi Rutledge to help bring the creature, known in the film as Jean Jacket, to life. She even gave it a scientific name: Occulonimbus edoequus, meaning “hidden dark cloud stallion eater.” Kelsi, who is a PhD candidate at UCLA in Los Angeles, California, talks to Ira about the ingredients that went into creating a new creature to scare audiences.   Transcripts for each segment will be available the week after the show airs on sciencefriday.com. Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.

Why Is It So Hard To Agree On When Human Life Starts? After decades of deliberations involving physicians, bioethicists, attorneys, and theologians, a U.S. presidential commission in 1981 settled on a scientifically derived dividing line between life and death that has endured, more or less, ever since: A person was considered dead when the entire brain—including the brainstem, its most primitive portion—was no longer functioning, even if other vital functions could be maintained indefinitely through artificial life support. In the decades since, the committee’s criteria have served as a foundation for laws in most states adopting brain death as a standard for legal death. Now, with the overturning of Roe v. Wade and dozens of states rushing to impose abortion restrictions, American society is engaged in a chaotic race to define the other pole of human existence: When exactly does human life begin? At conception, the hint of a heartbeat, a first breath, the ability to survive outside the womb with the help of the latest technology? To read the full article, visit sciencefriday.com.   Taxpayer-Funded Science Is Finally Becoming Public Last week, the White House Office of Science and Technology Policy announced a new directive requiring federally-funded science be made available to the public for free, and faster. Set to take effect by the end of 2025, the new rule would do away with the Obama-era policy that journals can keep research with taxpayer funding behind paywalls for up to one year. In addition, more kinds of research would qualify than previous policies have required. So how does freely accessible research benefit the people who pay for it—or the scientists who do the work itself? Nobel Prize-winning medical researcher and open science advocate Harold Varmus joins Ira to discuss.   Why You Should Thank Your Local Wasp It’s late in the summer, meaning any outdoor gathering with food and drink has a good chance of being visited by a pesky, buzzing wasp. But don’t reach for that rolled-up newspaper or can of bug spray. The wasps in your world play an important role that’s often overlooked. Far beyond the social hornets and yellowjackets people think about when they picture a wasp, the wasp world includes thousands of species. Some are parasitic, injecting their eggs into unwilling prey. Others hunt, either paralyzing prey for their young to feed on, or by bringing bits of meat back to a nest for their young. Some are strictly vegetarian, and live on pollen. Some are needed for the pollination of figs and certain species of orchids. Dr. Seirian Sumner, a behavioral biologist at University College London, says that if people understood the services provided by wasps the same way that they understand the need for bees, they might be more willing to overlook an occasional wasp annoyance—and might even be thankful for the wasps in their lives. In her book Endless Forms: The Secret World of Wasps, Sumner makes the case for wasps as nature’s pest control agents, as important pollinators that should be celebrated.   Transcripts for each segment will be available the week after the show airs on sciencefriday.com. Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.

California Accelerates Its Push For Electric Cars This week, air pollution regulators in California voted to phase out sales of new gasoline-powered vehicles, with a complete ban on gas car sales by 2035. The decision could have a larger impact on the automobile industry, however, as many states choose to follow California’s lead with regard to air quality and emissions decisions. Sophie Bushwick, technology editor at Scientific American, joins guest host Roxanne Khamsi to help unpack the decision. They also discuss some of the other science stories from this week, including a survey-based study showing that Americans really do care about climate change and support mitigation measures, a look at how sugar substitutes can change the microbiome, and an engineer’s advice for how to build the sturdiest sandcastles.   Meet Two Autistic Researchers Changing How Autism Research Is Done For many decades, autistic people have been defined by non-autistic people, including in science. Since the very beginning of research about autistic people, neurotypical scientists and institutions have been at the helm. The field has largely been defined by what neurotypical researchers are curious about learning, instead of prioritizing research that the autistic community asks for. Because of that, and the invisibility of autistic adults in our society, a large chunk of this research has neglected the needs of autistic people. In many cases, it’s caused harm to the very people the research aims to help. Until recently, there have been very few openly autistic researchers who study autism. But there is a growing body of openly autistic scientists who are using both their expertise and their own lived experiences to help shape the future of autism research. Guest host Roxanne Khamsi speaks with Dr. TC Waisman, a leadership coach and researcher studying autism and higher education, based in Vancouver, British Columbia, and Patrick Dwyer, a Ph.D. candidate studying sensory processing and attention in autism at the University of California, Davis. They talk about the history of autism research, why the inclusion of autistic people in research leads to more helpful outcomes, and how they see the future of autism research changing. Ira Kraemer consulted on this story.   Ecological Data From Deep In The Pantry Most people wouldn’t be excited by a call offering a basement full of canned salmon dating back to the 1970s. But for researchers trying to establish baselines for what’s normal and what’s not when it comes to aquatic parasite populations, the archive of fishy tins, maintained by the Seattle-area Seafood Products Association, was a valuable resource. Natalie Mastick and colleagues combed through the tins with tweezers, counting the numbers of parasitic anisakid worms they found. (Since the salmon was cooked, the worms—though gross—posed no risk to human eaters.) The team found that in their samples of chum and pink salmon, the incidence of parasitic infection increased over the 40 years covered by the salmon archive. The finding might be good news—an increase in the numbers of marine mammals in the area, key hosts for the parasites, could be responsible for the wormy increase. Natalie Mastick, a PhD candidate in the University of Washington’s School of Aquatic and Fishery Sciences, joins guest host Roxanne Khamsi to explain the study.   Medieval Friars’ Farming May Have Caused Tummy Troubles What was life like back in medieval England? You might think that the learned friars who lived in the town of Cambridge—scholars, with access to innovations like latrines and places to wash their hands—might have lived healthier lives than the common folk. But a recent study published in the International Journal of Paleopathology says that, at least when it comes to intestinal parasites, the friars may have been worse off. Dr. Piers Mitchell runs the Cambridge Ancient Parasites Laboratory and is a senior research associate in the McDonald Institute for Archaeological Research. Mitchell and colleagues excavated soil samples from around the pelvises of medieval skeletons in one Cambridge cemetery, then examined the soil microscopically looking for parasite eggs. They found that friars in the cemetery had almost twice the incidence of intestinal parasites as commoners in the town—a fact they speculate could be related to friars using human feces, from the friary latrine, to fertilize the gardens. Mitchell joins guest host Roxanne Khamsi to explain the study.   Transcripts for each segment will be available the week after the show airs on sciencefriday.com. Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.

Attracting Birds To Prime Habitat By Playing Recordings Of Their Calls How do you know a restaurant is good? If the parking lot is full of cars, that’s a pretty good indication. If it’s empty, you probably won’t bother stopping. In this case, the restaurant is a newly restored wetland in Michigan and the customers are rails. The birds migrate at night, so if they don’t hear other rail calls in an area, they’re not likely to stop. Researcher Dustin Brewer is broadcasting recorded rail calls to try to bring the secretive birds to prime habitat—to feed and mate. Rails are declining, mostly due to habitat loss. Experts say if rails are influenced by these recordings, it could help increase the bird’s population.   Collars, Cameras, And Carcasses: Studying Urban Wildlife When you hear the words “urban wildlife,” you might think of rats scampering across a street, pigeons plopped on railings, or crows fighting over a pizza crust. But urban wildlife are so much cooler and more diverse than they get credit for, and scientists have a lot to learn from them. In the blink of an evolutionary eye, urban wildlife have quickly adapted to changing landscapes and learned to take advantage of sprawling urban areas. Guest Roxanne Khamsi speaks with Dr. Chris Schell, an assistant professor studying urban ecology at the University of California, Berkeley. They chat about why urban wildlife is so cool, how scientists can study them, and what we can learn from our scrappy neighbors.   A New Lyme Disease Test In Development May Help Improve Treatment Roughly 476,000 people in the United States are diagnosed and treated for Lyme disease each year, according to Centers for Disease Control and Prevention (CDC) estimates. However, the CDC says that this number is likely an overcount because many patients receive treatment based on symptoms without a positive test result. On top of that, there are some limitations of the diagnostic tests available for Lyme disease. The FDA-approved Lyme disease tests can only determine if a patient has had Lyme disease in the past, not if they currently have an infection. The test cannot determine if antibiotic treatment was successful, or if a positive test result is due to a re-infection. Guest host Roxanne Khamsi talks with Pete Gwynne, a molecular and microbiologist at the Tufts Lyme Disease Initiative, who is working to solve some of these problems by developing a new diagnostic test for Lyme disease.   ‘I Will Not Be Vole Girl’—A Biologist Warms To Rodents The path to becoming a scientist is not unlike the scientific process itself: Filled with dead ends, detours, and bumps along the way. Danielle Lee started asking questions about animal behavior when she was a kid. She originally wanted to become a veterinarian. But after being rejected from veterinary school, she found a fulfilling career as a biologist, doing the type of work she always wanted to do—but never knew was possible for her. Science Friday producer Shoshannah Buxbaum talks with Dr. Danielle Lee, a biologist, outreach scientist, and assistant professor in biology at Southern Illinois University about what keeps her asking questions, what rodents can help us understand about humans, and the importance of increasing diversity in science. Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.