Podcast appearances and mentions of lisa margonelli

On Science Policy IRL, we talk to people in science policy about what they do and how they got there. We've shared stories of how people have found their way into science policy careers at places like the White House, Congress, and federal agencies. In this episode, we're exploring a different way into science policy: getting involved with your local government. Taylor Spicer, the executive director of Engineers and Scientists Acting Locally (ESAL), shares how her organization helps scientists and engineers get involved in local policy. In a discussion with host Lisa Margonelli, Spicer talks about her path from international development to leading an organization dedicated to local civic engagement. She emphasizes that it's important for people with STEM backgrounds to get involved with policy in their backyards, and describes how ESAL's network can help you get started. Resources: Visit the Engineers and Scientists Acting Locally (ESAL) website to learn more about making a difference where you live, and subscribe to the newsletter to find opportunities in your area. Want to join ESAL's online community-building platform? Sign up here to be the first to hear when it launches in July.

In Alaska, reindeer are much more real than the fantasy animals that pull Santa's sleigh. Introduced to Alaska from Siberia by the US government in the 1890s, reindeer were part of a strategy to solve food shortages among the Native peoples after the gold rush. Today, reindeer provide food security and economic opportunities for the Alaskan Native community. Even more so than farming, reindeer herding requires a deep understanding of the needs of Indigenous communities and academic science—as well as how to navigate and influence local, state, and federal policies. On this episode, host Lisa Margonelli is joined by Jacqueline Hrabok and Bonnie Scheele of the University of Alaska Fairbanks's High Latitude Range Management program to learn more about the interplay of science, policy, and community in reindeer herding.  This is our final episode of 2024. We'll be back in late January for an interview with opera singer and actress Renee Fleming and neurology professor Susan Magsamen on the intersection of music, art, and health. And we would love to explore more local science policy issues in our upcoming episodes! Write to us at podcast@issues.org about any policy developments happening near you.  Resources: Learn more about the University of Alaska Fairbanks' High Latitude Range Management program.  Visit Bonnie Scheele's reindeer farm at the Midnite Sun Reindeer Ranch website and Facebook page. 

New York City is the perfect place to understand the importance of modern engineering, but the most valuable lessons won't be found at the Empire State Building or in Central Park. To truly discover what makes modern life tick, you have to look at the unloved, uncelebrated elements of New York: its sewers, bridges, and elevators.  On this episode, host Lisa Margonelli talks to Guru Madhavan, the Norman R. Augustine Senior Scholar and senior director of programs at the National Academy of Engineering. Madhavan wrote about the history of this often-overlooked infrastructure in a trilogy of Issues essays about New York City's history. He talks about how the invention of the elevator brake enabled the construction of skyscrapers and how the detailed “grind work” of maintenance keeps grand projects like the Bayonne Bridge functioning. He also highlights the public health and sanitation-centered vision of Egbert Viele—the nearly forgotten engineer who made New York City livable.  Resources:  Read Guru Madhavan's New York Trilogy: “The Greatest Show on Earth” about the invention of the elevator brake. “The Grind Challenges” about the Bayonne Bridge and maintenance grind work.  “Living in Viele's World” about the contrast between Egbert Viele's and Frederick Law Olmsted's competing visions of New York City. Learn more about the invisible work that undergirds modern life by checking out Madhavan's latest book, Wicked Problems: How to Engineer a Better World.  Read the 2019 article Madhavan cites about how engineering benefits society.  Lisa mentioned riding on a tugboat pushing a barge full of petroleum, but she misremembered!  The repairs were then occurring on the Goethals Bridge, not the Bayonne. Here's the whole story of “A Dangerous Move” from the New York Times. 

On this installment of Science Policy IRL, Lisa Margonelli goes behind the scenes of Congressional policymaking with Brent Blevins. Blevins is a senior congressional staffer and staff director of the Space and Aeronautics Subcommittee, which is part of the US House of Representatives' Committee on Space, Science, and Technology.  Blevins talks about his unusual path into science policy (he didn't study science, and he wasn't a AAAS fellow!) and what staffers in the House and Senate do in the science policy world. He also talks about the incredible experience of getting to set policy for things like sending humans to Mars while also having a staff job that can end with any two-year election cycle. Resources: Want to learn more about what it's like to work as a congressional staffer? Check out our Science Policy IRL episode with Amanda Arnold.  Learn more about the House Science Committee by visiting the House Republicans Science Committee website and the House Democrats Science Committee website. The Senate version of this committee is called the Senate Committee on Science, Commerce and Transportation.  Have thoughts you want to share with Blevins? He tells us his email in the episode, and he really wants to hear from you! Listen to the end of the episode to get his email.

In this installment of Science Policy IRL, Kei Koizumi takes us inside the White House's Office of Science and Technology Policy, or OSTP. As the principal deputy director for policy at OSTP, Koizumi occupies an unusual position at the very heart of science policy in the United States. OSTP provides science and technology advice to the president and executive office, works with federal agencies and legislators to create S&T policy, and helps strengthen and advance American science and technology. Koizumi talks to Issues editor Lisa Margonelli about what he does at OSTP, how he got there, and the exciting developments in S&T policy that get him out of bed every day.  Are you involved in science and technology policy? From science for policy to policy for science, from the merely curious to full-on policy wonks, we would love to hear from all of you! Please visit our survey page to share your thoughts and provide a better understanding of who science policy professionals are, what they do, and why—along with a sense of how science policy is changing and what its future looks like. Resources: Visit the Office of Science and Technology Policy website to learn more about OSTP's work.  Read Issues's interview with Arati Prabhakar, current director of OSTP.  Also in Issues, learn more about the creation of the National Nanotechnology Initiative from Neal Lane, science advisor to President Clinton.    Check out Science's Uncertain Authority in Policy by John Marburger, science advisor to President George W. Bush, to learn more about the interactions between science and the political process. 

Douglas Duncan is an astronomer who worked on the Hubble Space Telescope. He is also an eclipse fanatic. Since 1970, he has been to 11 total solar eclipses. When April 8, 2024, comes around, he'll experience his twelfth with his 600 best friends as he leads a three-day eclipse viewing extravaganza in Texas. “It looks like the end of the world,” he says, and a total eclipse can be a source of intense fascination. He uses the emotional experience of the eclipse as a gateway to learning more about science.  On this episode, Lisa Margonelli talks to Duncan about how he has used this sense of experiential wonder, particularly in planetariums, as a way to invite the public into the joy of science. In previous generations, planetariums were seen as “old fashioned” and isolated from the work of modern astronomers. But Duncan pioneered a career track that combined public teaching at a planetarium with a faculty position at the University of Colorado. Now many planetariums have become places where academic astronomers can share their knowledge with the public.  Resources:  Visit Doug Duncan's website to learn more about his work.  Read about his work at NASA.  Want to photograph the solar eclipse? Duncan has made an app for that called Solar Snap.  Learn more about using eclipses to engage the public.  See the itinerary for Duncan's “Totality Over Texas” trip, which will be attended by 600 people. The trip offers three days of eclipse-related activities. 

While we are hard at work on season six of What Could Go Right, we wanted to share another show we think you'll really enjoy – The Ongoing Transformation.  The Ongoing Transformation is produced by our friends at Issues in Science and Technology. Each episode features conversations about science, technology, policy, and society. This episode explores the CHIPS and Science Act, which aim to secure American competitiveness and innovation by investing $280 billion in domestic semiconductor manufacturing, scientific innovation, and regional development.  But if past government investments in science and technology are any guide, this will affect American life in unexpected and profound ways—well beyond manufacturing and scientific laboratories. Hear Michael Crow, president of Arizona State University, and host Lisa Margonelli discuss these initiatives in the context of previous American security investments.  Find more episodes of The Ongoing Transformation wherever you listen to podcasts! Learn more about your ad choices. Visit megaphone.fm/adchoices

By day, Erica Fuchs is a professor of engineering at Carnegie Mellon University. However, for the past year she's also been running a pilot project—the National Network for Critical Technology Assessment—to give the federal government the ability to anticipate problems in supply chains and respond to them.  The trip from germ of a policy idea to pilot project in the National Science Foundation's new Technology Implementation and Partnerships directorate has been a wild ride. And it all started when she developed her thoughts on the need for a national technology strategy into a 2021 Issues essay. Two years later, the network she called for, coordinating dozens of academics, industry, and government contributors to uniquely understand how different supply chains work, was a real, NSF-funded pilot project. In this episode of The Ongoing Transformation, Erica talks with Lisa Margonelli about how she took her idea from a white paper to the White House, and the bipartisan political support that was necessary to bring it to fruition.   Resources Erica Fuchs for Issues in Science and Technology: What a National Technology Strategy Is—and Why the United States Needs One. National Network for Critical Technology Assessment: Securing America's Future report on the pilot project. The National Science Foundation's press release on the pilot project report. Erica Fuch's white paper for the Hamilton Project at the Brookings Institution: Building the Analytic Capacity to Support Critical Technology Assessment.  

Since 1984, Issues in Science and Technology has been a journal for science policy—a space to discuss how to best use science for the benefit of society. But what is science policy, exactly? Our new podcast series, Science Policy IRL, explores what science policy is and how it gets done. “Science” is often caricatured as a lone person in a lab, but the work of science is supported by a community of people who engineer its funding, goals, coordination, and dissemination. They include people in legislative offices, federal agencies, national labs, universities, the National Academies, industry, and think tanks—not to mention interest groups and lobbyists.  In this series, we will explore the work of science policy by speaking to people who have built careers in it.   For the first episode in this series, host Lisa Margonelli is joined by Quinn Spadola, the deputy director of the National Nanotechnology Coordination Office, a unique office that coordinates the development of nanotechnology across the entire federal government. Spadola, who has a Ph.D. in physics from Arizona State University,  now uses “soft power” to bring groups together to coordinate their efforts so that taxpayers get the most from their investments in science. In practice, she brings all of her life experiences to bear on the task of shaping technology so that it benefits society.  Is there something about science policy you'd like us to explore?  Let us know by emailing us at podcast@issues.org, or by tagging us on social media using the hashtag #SciencePolicyIRL.  Resources On science policy: - Harvey Brooks, “Knowledge and Action: The Dilemma of Science Policy in the '70s,” Daedalus 102, no. 2 (Spring 1973): 125–143. - Deborah D. Stine “Science and Technology Policymaking: A Primer,” Congressional Research Service, RL34454 (May 27, 2009).  On nanotechnology: - The website of the National Nanotechnology Coordination Office. - National Academies of Sciences, Engineering, and Medicine, A Quadrennial Review of the National Nanotechnology Initiative: Nanoscience, Applications, and Commercialization (Washington, DC: The National Academies Press, 2020), https://doi.org/10.17226/25729.

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The CHIPS and Science Act aims to secure American competitiveness and innovation by investing $280 billion in domestic semiconductor manufacturing, scientific innovation, and regional development. But if past government investments in science and technology are any guide, this will affect American life in unexpected and profound ways—well beyond manufacturing and scientific laboratories. On this episode, Michael Crow, president of Arizona State University, talks to host Lisa Margonelli about the CHIPS and Science Act in the context of previous American security investments. Investments in food security and agriculture in the 1860s and nuclear security in the 1940s and 50s created shared knowledge that benefitted all Americans. Early agricultural programs, for example, turned farmers into innovators, resulting in an agricultural sector that can feed many people with very little labor. In similar ways, today's quest for digital security could make the country more secure, while also changing how individuals live and work with information.   Resources:   Read perspectives on How the CHIPS and Science Act Can Deliver on its Promises   Read A. Hunter Dupree's Science in the Federal Government: A History of Policies and Activities   Read Michael Crow and William Dabars on The Emergence of the Fifth Wave in American Higher Education. 

The challenge of transforming regional economies through technological innovation is at the heart of current discussions about science and industrial policy—not to mention the CHIPs and Science Act itself. To think about what regional transformation means, it's worth revisiting the story of how a network of “fruit men” used the peach, and later the pimento, to change the South after the Civil War. Starting with a biotechnological invention—a shippable peach named the Elberta—this group built railroads, designed shipping methods, educated farmers, and eventually built factories that transformed the landscape and economy of the region. But this story isn't only about tangible actions: the network used powerful storytelling and ideology to accomplish this revolution. On this episode, host Lisa Margonelli talks with historian and journalist Cynthia Greenlee about the role of technological innovation, storytelling, and myth in regional transformation. They also discuss how the peach paved the way for the invention of the pimento—now part of a beloved regional cheese spread—and harnessed cultural as well as technological forces. Resources: · Reach Cynthia R. Greenlee's Issues essay, Reinventing the Peach, the Pimento, and Regional Identity. · Visit Cynthia's website to find more of her work. She has written on food, history, politics, and more.

Buses are an inexpensive and easy-to-deploy form of mass transit that could help reduce traffic congestion and curb air pollution. But in the United States, no one wants to ride them—and for good reason: the design of the American bus has not changed much since World War II. The antiquated design is uncomfortable and creates hazards for riders, drivers, and pedestrians. How could the bus be transformed into a mode of transit that people actually want to use? On this episode, host Lisa Margonelli talks to Brian Sherlock, a former Seattle bus driver and safety specialist at Amalgamated Transit Union International, the largest public transit union in North America. He explains what's wrong with American buses, and how a redesign could make for a better urban future. Resources: COVID-19 Revealed an Invisible Hazard on American Buses by Brian Sherlock

Every year scientists who have made great inventions receive Nobel Prizes recognizing their “benefit to humankind.” Yet for all the profound ways scientific progress has impacted our lives, many inventions have affected the world in ways that their creators did not imagine. Some innovations, created for peaceful purposes, have been used in war; others have had unintended environmental or health effects. More recently, the seemingly beneficial blue LED light has been found to interrupt sleep patterns and make roadways unsafe for senior drivers. What is it like to be an inventor? Are inventors responsible for the societal ramifications of their creations? And how could a more holistic approach to innovation lead future scientists to create change with fewer unintended consequences? Ainissa Ramirez, a scientist who did research at Bell Labs before writing “The Alchemy of Us: How Humans and Matter Transformed One Another,” and Issues in Science and Technology senior editor Lisa Margonelli visited Zócalo to discuss why great breakthroughs demand greater understanding. This Zócalo/Issues in Science and Technology event was originally streamed on April 13, 2021. For a full report of the program, check out the Takeaway: https://zps.la/2QnHN3s Visit https://www.zocalopublicsquare.org/ to read our articles and learn about upcoming events. Twitter: https://twitter.com/thepublicsquare Instagram: https://www.instagram.com/thepublicsquare/ Facebook: https://www.facebook.com/zocalopublicsquare LinkedIn: https://www.linkedin.com/company/z-calo-public-square

Robotic trucks are beginning to roll out, carrying cargo and promises of revolutionizing freight hauling, reducing traffic, and lowering pollution. But previous waves of automation have eliminated millions of jobs in the United States. And a transformation in truck driving could come with big costs for the 3.5 million truckers who toil in one of America’s most enduring occupations and play an outsized role in our nation’s economy and road-heavy culture. Will driverless trucks become cramped and lonely “sweatshops on wheels” maintained by poorly paid attendants? What would it take to make this highly visible shift to automation serve society by creating good new jobs, making roads safer, and even helping the planet? University of Pennsylvania sociologist and former truck driver Steve Viscelli, author of The Big Rig: Trucking and the Decline of the American Dream, and Issues in Science and Technology senior editor Lisa Margonelli rolled into Zócalo to consider how automated trucking might transform American life. This Zócalo/Issues in Science and Technology discussion streamed live on Twitter on Tuesday, January 19, 2021. Visit https://www.zocalopublicsquare.org/ to read our articles and learn about upcoming events. Twitter: https://twitter.com/thepublicsquare Instagram: https://www.instagram.com/thepublicsquare/ Facebook: https://www.facebook.com/zocalopublicsquare LinkedIn: https://www.linkedin.com/company/z-calo-public-square

I sina tarmar bär termiterna nyckeln till en bättre framtid på jorden. Men består ett termitsamhälle av individer eller är det snarare en stor hjärna? undrar biologen och författaren Fredrik Sjöberg. ESSÄ: Detta är en text där skribenten reflekterar över ett ämne eller ett verk. Åsikter som uttrycks är skribentens egna. Ursprungligen publicerad den 4 april 2019. Stöld av ord och idéer sägs vara ett stort bekymmer nuförtiden. Inget är ju enklare än att klippa och klistra i texter som är digitala. Det är säkert sant; problemet är i alla händelser inte nytt. Exempelvis var nobelpristagaren i litteratur, belgaren Maurice Maeterlinck, en ful fisk. Hans berömda bok Termiternas liv, utgiven på svenska 1926, visade sig vara annans egendom. Hela storyn var stulen från Eugène Marais, en obemärkt poet från Sydafrika. Marais, som hade ägnat sitt liv åt att studera och skriva om termiternas underjordiska samhällen, arbetade periodvis även som jurist, varför det föll sig naturligt att väcka åtal mot Maeterlinck. Plagiatet var verkligen flagrant. Men det gick inget vidare. Brott mot upphovsrätten har alltid varit besvärliga; det hela rann ut i sanden varefter Marais, som även var morfinist, avslutade sin plåga på samma sätt som senare Ernest Hemingway. Med hagelbössa. Otack är väldens lön. Lyckligtvis har eftervärlden givit honom rätt, och en av dem som skyndar till hans försvar är den amerikanska författaren Lisa Margonelli. Hon bygger som ett äreminne över honom i boken Underbug vars lockande undertitel An Obsessive Tale of Termites and Technology antyder att här ska det bli åka av. Det blir det också. Efteråt är man alldeles matt.Profant och religiöst. Den biotekniker som på syntetisk väg lyckas kopiera den processen kan förändra världen. Så låt oss tala om termiter. Små, charmlösa insekter i stora, komplicerade samhällen. Lisa Margonelli, som tidigare har skrivit om oljeberoendets historia, halkade in på detta nya spår via den lovande forskningsgren som sysslar med syntetisk biologi. Den dag man lyckas räkna ut hur det går till när termiter i sin matsmältningsapparat bryter ner cellulosa, kan man i princip framställa oändliga mängder energirikt bränsle som sedan kan ersätta oljan utan att vi måste ändra våra levnadsvanor. Där börjar det. Boken Underbug handlar emellertid, som en kritiker skrev, om termiter ungefär på samma sätt som Bibeln handlar om gubbar med skägg: bara delvis. Själva poängen är mer avancerad än så. Termiter finns nästan överallt i tropikerna och därikring. Hittills har man funnit fler än 3 000 olika arter och en del av dem bygger enorma stackar, som till skillnad från vanliga myrstackar oftast består av tätt packad jord, byggnader som kan bli över åtta meter höga. Till historien hör även att Jordens alla termiter tillsammans antas väga tio gånger mer än planetens alla människor. Deras inverkan på ekosystemen är inte oväntat stor. Termiterna, som är närmare släkt med kackerlackorna än myrorna, lever i komplexa kastsystem och livnär sig ofta på svamp som de odlar själva i hålor under marken. De kan alltså även, likt många andra insekter, tillgodogöra sig cellulosa från gräs och trä, en omvandling av energi vars effektivitet har att göra med de bakterier som lever i kräkens tarmar. Den biotekniker som på syntetisk väg lyckas kopiera den processen kan förändra världen. Problemet är bara att i denna knappt synliga tarmsnutt lever i runda slängar 500 olika arter bakterier och andra mikroorganismer som dessutom samarbetar på ett för vetenskapen obegripligt sätt. Vi kan kartlägga deras gener, till och med räkna ut vilka proteiner dessa gener bidrar till att bygga, men allt är ändå ett mysterium. De symbiotiska relationerna har utvecklats under miljontals år; komplexiteten är liksom ogenomtränglig. Än så länge. Forskning pågår. Margonelli reser mycket; hon besöker fältstationer i Arizonas halvöknar, i Namibia och Australien, och träffar en hel rad hyperintelligenta forskare som rekryteras till amerikanska elituniversitet från världens alla hörn. Genetiker och matematiker, ekologer, datorutvecklare, alla möjliga. Efter hand blir det uppenbart att forskarna och termiterna har mycket gemensamt. Samarbetet och symbiosen. Ett slags kollektiv intelligens. Grundfrågan är bedrägligt enkel. Vad är liv? Är det generna? Eller är det kanske processerna, själva metabolismen? Är de enskilda termiterna meningsfulla enheter i sammanhanget? Eller bör vi uppfatta hela termitstacken med alla dess invånare som en superorganism? Det finns inga självklara svar. Frågan om termiterna odlar svamp, eller om svamparna odlar termiter, leder ingen vart, mer än möjligen till skenbart vrickade idéer om termitstacken som en hjärna, och alla småkrypen som nervceller. Det mänskliga medvetandets biologi är ju också en ganska svårbegriplig historia. Haken är just att vi ännu inte förstår biologi på samma sätt som fysik och kemi. På ett par ställen i boken liknas forskningsläget vid Samuel Becketts pjäs I väntan på Godot; som om alla dessa teoretiker i gränslandet mellan teknik och biologi bara går och väntar på att någon ska räkna ut och bevisa de komplexa biologiska systemens grundläggande algoritmer. Inom fysiken upptäckte man redan för 200 år sedan termodynamikens grunder, som senare ledde till en kunskapsexplosion inom fysiken, vilken i sin tur gav uppfinningar av allt möjligt, från kärnvapen till mobiltelefoner. Biologin har helt enkelt inte kommit lika långt. Den dagen då vi verkligen förstår hur de symbiotiska relationerna uppkommer och fungerar, och när vi lyckas utveckla teoretiska modeller som gör att vi kan kopiera dem, då öppnar sig oanade möjligheter. Därför bör ingen bli förvånad över att mycket av den här forskningen finansieras av den amerikanska militären. Särskilt stort intresse visar man för den forskning, både om termiter och andra sociala insekter, som handlar om så kallad svärmintelligens. Det autonoma samarbetet. Det militärindustriella komplexets våta dröm är bestyckade drönare, små som bin eller getingar, som kan angripa fienden i stora, autonoma svärmar; tusentals flygande robotar med ett slags kollektiv, artificiell intelligens. Och jag vet, det låter som science fiction. Redan Ernst Jünger var inne på samma spår i en av sina romaner, men faktum är att så kallade robotbin redan finns. Själva hårdvaran utvecklas mycket fort. Haken är just att vi ännu inte förstår biologi på samma sätt som fysik och kemi. Kanske, skriver Lisa Margonelli, kan den döde poeten Eugène Marais bidra med avgörande pusselbitar han som talade om termiternas själ. Visserligen bara som en metafor, men ändå. Resten är skräckvisioner, obligatoriska numera i böcker om insekter. På sista sidan i Underbug talas om en ryktbar studie från Tyskland, som i händerna på okunniga journalister säger att alla insekter håller på att dö ut. Medier över hela världen larmar om det just nu. Publiken älskar budskapet. Jag hittade på ett uttryck för det där en gång, efter ett annat utbrott av denna ständigt lika bekväma skräck för kommande katastrofer. Att lösa problemen går, men är mycket jobbigare. Apokalypsens ombonade mörker. Det var så jag skrev, och jag tycker att orden står sig än i dag. Fantasier om undergången kan verkligen vara vilsamma, ungefär som självömkan och bitterhet vilket för övrigt påminner mig om att min formulering långt senare blev stulen. En yngre författare gjorde den till sin. Plagiatet var inte ett av de grövre, men lika fullt en stöld, åtminstone snatteri. Otack är världens lön. Fredrik Sjöberg, författare och biolog

The Outer Space Treaty of 1967 proclaimed that celestial objects are “the province of all mankind.” But so far, space travel has been a costly and exclusive province (fewer than 600 people have been in orbit). Today’s headlines about space are dominated by billionaires who dream of escaping their Earth-bound lives or providing new tourist thrills. And the biggest space travel successes in recent memory belong to robots rather than humans. How can we better use space exploration in service of all humanity, not just a favored few? What sorts of social structures and governance practices might make possible greater exploration or even colonization of space? And how might the challenges of traveling through the void of space help us survive an increasingly inhospitable climate here on our home planet? Analog astronaut and geoscientist Sian Proctor, designer and co-founder of Space Exploration Architecture Melodie Yashar, and Lindy Elkins-Tanton, principal investigator of the NASA Psyche Mission and director of the ASU Interplanetary Initiative, visited Zócalo to discuss the next generation of space exploration and its implications for Earth. This Zócalo/ASU Interplanetary Initiative event was moderated by Lisa Margonelli, senior editor at Issues in Science and Technology. Read more about our panelists here: https://zps.la/3cjL6OA For a full report on the live discussion, check out the Takeaway: https://zps.la/3nXND7E Visit https://www.zocalopublicsquare.org/ to read our articles and learn about upcoming events. Twitter: https://twitter.com/thepublicsquare Instagram: https://www.instagram.com/thepublicsquare/ Facebook: https://www.facebook.com/zocalopublicsquare

Guest Lisa Margonelli speaks with Diane Horn about her most recent book “Underbug: An Obsessive Tale of Termites and Technology.” See omnystudio.com/listener for privacy information.

Termites outweigh humans ten to one. If they went on strike, ecological chaos would ensue. We speak with science writer Lisa Margonelli, author of the new book Underbug: An Obsessive Tale of Termites and Technology, about the questions these small creatures raise about technology, power, morality, and the nature of scientific progress.

Guest Lisa Margonelli speaks with Diane Horn about her book “Underbug: An Obsessive Tale of Termites and Technology.”

It's easy to stick prosthetics on someone's face and call them an alien. But how do we represent a truly alien form of consciousness? In this episode, we talk about science fiction that succeeds (or fails) to evoke alien minds--whether they hail from other planets, or evolve inside our computers. Plus, we talk to guest Lisa Margonelli about her new book Underbug, which explores termite society. Did you know that termites socialize using butt juice? Learn all about that and more!  See our full show notes at www.ouropinionsarecorrect.com

Edugyan talks about her new novel, and Lisa Margonelli talks about “Underbug: An Obsessive Tale of Termites and Technology.”

Parents dress their children in bee costumes, and the ant has its own Hollywood movie franchise. But the lowly termite has long been best known for causing billions in annual property damages. That might now be changing. Around the world, as scientists try to figure out biology’s underlying rules and harness them to solve problems, they are looking to termites—and their guts, full of rare microorganisms—for guidance on how to transform the way we design new technologies. Can termites show us how to power our cars without worsening climate change? Do the ways termites organize themselves offer insights for creating new communication systems? Do the genes of termites suggest paths to designing new fuels or substances that might allow humans to live with a lighter footprint on Earth? Lisa Margonelli, author of Underbug: An Obsessive Tale of Termites and Technology, visited Zócalo with moderator Warren Olney, host of KCRW’s “To the Point,” to chew over the potential of a bug with the power to make, or unmake, the world. The event took place at The RedZone at Gensler in downtown Los Angeles.

Termites get a bad rap. Ask pretty much anyone on the street, and they’ll likely say that termites are gross, and you definitely don’t want them in your house. And while it may be true that you don’t want them in your house, termites are also so much more than structure-destroyers. At least according to Lisa Margonelli, whose new book Underbug: An Obsessive Tale of Termites and Technology explores the surprisingly wild world of the much-maligned bug. Because it turns out, there’s a lot we can learn from termites.

A panel moderated by KCRW's Warren Olney, featuring energy journalist Lisa Margonelli, UC Berkeley energy expert Daniel Kammen, SolarCity's Jim Cahill, and LADWP general manager Ron Nichols discusses the future of solar energy in California. They agreed that solar energy has the potential to change the way the state is fueled, but that the financial and political policies need to catch up to technological advancements

Aan de benzinepomp zijn we veel te weinig bezig met wat er echt aan de hand is. Lisa Margonelli schetst het beeld.

Almost everything in modern life is designed to waste energy. The whole system evolved on a false premise that petroleum is cheap and plentiful and will be that way forever. The awesome Lisa Margonelli, author of Oil on The Brain … Continue reading →

Almost everything in modern life is designed to waste energy. The whole system evolved on a false premise that petroleum is cheap and plentiful and will be that way forever. The awesome Lisa Margonelli, author of Oil on The Brain … Continue reading →

The Lone Reader; one librarian talks about the books he reads. Oil on the Brain by Lisa Margonelli  Music: Naropa Performer: RideFlame   time: 0:01:44 size: 1.626 mb  

California has long led the country on environmental initiatives — the state has pledged to produce a third of its energy from renewable sources by 2020. Today, California has an estimated 159,000 green jobs, and over the last 13 years, green jobs have grown by 36 percent, while Californian jobs in general have grown by 13 percent. But despite these forward-looking trends, how can policymakers ensure that the green boom doesn’t quickly go bust, or that the boom benefits all Californians, not just those who can buy Priuses? Zócalo and the New America Foundation invite Collaborative Economics' Tracey Grose, Fresno Sustainability Manager Joseph Oldham, Kaiser Permanente's Kathy Gerwig, Spring Ventures Founding Partner Sunil Paul, Michael P. Wilson of the Berkeley Center for Green Chemistry, and Lisa Margonelli of the New America Foundation to consider how best to develop the economy and preserve the environment in the long run.