For as long as humans have erected walls around our cities, we’ve considered culture separate from the encircling wilderness. This difference came to be expressed in our “man vs. nature” narratives, beliefs in our dominion over the nonhuman world, and lately even the assertion that the Earth would be better off without us. Ecology research has strangely almost never included humans in the picture. And yet Homo sapiens is a phenomenon of nature, woven into food webs, demonstrating the same principles at work as any other creature on this planet. New research into trophic networks — who’s eating whom — has bridged ecology and archaeology to shed light on the many ways that human beings have participated as key members of ecosystems round the globe. The emerging portrait of our place in nature offers us the opportunity to tell new stories of the hairless ape and what we’re doing here — and just in time, perhaps, to help reshape our attitudes toward conservation and development, and what we dare to hope for in the years to come.This week’s guest is Jennifer Dunne, SFI’s Vice President for Science and Fellow at the Ecological Society of America. Dunne got her PhD in Energy and Resources from UC Berkeley, joined SFI’s faculty in 2007, and sits on the advisory board for Nautilus Magazine.  In the first half of a two-part conversation, we discuss her work on food and use webs and the ArchaeoEcology Project working group at SFI, where she and her collaborators are transforming how we think of human history.Visit our website for more information or to support our science and communication efforts.Join our Facebook discussion group to meet like minds and talk about each episode.Jennifer Dunne’s Website.Quanta Magazine features Dunne on humans in food webs.The New York Times features Dunne’s collaborator, SFI Postdoc Stefani Crabtree and her work on the Martu people of Australia.Learn more about The ArchaeoEcology Project.Follow us on social media:Twitter • YouTube • Facebook • Instagram • LinkedIn

If you’re a human in this century, the odds are overwhelming that you are a city-dweller. These hubs of human cultural activity exert a powerful allure – and most people understand that this appeal is due to some deep link between the density, pace, wealth, and opportunity of cities. But what is a city, really? And why have the vast majority of human beings migrated to these intense and often difficult locations? Cities breed not just ideas but also crime, disease, and inequality. We live amidst a shift in what a normal human life looks and feels like, akin to the transition from our lives as nomadic hunter-gatherers to sedentary farmers — only this time, it is happening before our eyes. How can we cultivate the best that cities offer and minimize the predicaments they pose? A powerful new science of the city has emerged in just the last few years, connecting the metropolis through physics to the properties that govern animal metabolisms, ecological diversity, and economics.This week’s guest is Luis Bettencourt, External Professor at the Santa Fe Institute and Director of the Mansueto Institute for Urban Innovation at the University of Chicago. We spoke while he was visiting Santa Fe to lead SFI’s Global Sustainability Summer School to talk about what makes a city such a fertile zone for innovation of all kinds, and how to help ensure the future of the city is one human beings want to live in.Visit our website for more information or to support our science and communication efforts.Join our Facebook discussion group to meet like minds and talk about each episode.Visit The Mansueto Institute's Website.Watch a short video on Bettencourt’s work to eliminate slums.Here are the three papers we discussed in this episode:"Toward cities without slums: Topology and the spatial evolution of neighborhoods" in Science Advances."The Origins of Scaling in Cities" in Science.“Towards a statistical mechanics of cities” in Science Advances.Learn more about SFI's Global Sustainability Summer School.Follow us on social media:Twitter • YouTube • Facebook • Instagram • LinkedIn

Sabine Hauert, expert in complex systems science, discusses the marvel of self-organizing flocks like starling murmurations and how it inspires the development of robot swarms. She explores applications in medicine, ecology, and infrastructure and the evolution of swarm intelligence in robotics. The conversation delves into artificial evolution, engineering robots, practical implications, public engagement, and biomimetic design for swarm-level intelligence.

A few years after Charles Darwin published On the Origin of Species, upsetting centuries of certainty about the history of life, he wrote a now-famous letter to Joseph Dalton Hooker, British botanist and advocate of evolutionary theory. "But if (and oh what a big if),” Darwin’s letter reads, “we could conceive in some warm little pond with all sorts of ammonia and phosphoric salts, light, heat, electricity etcetera present, that a protein compound was chemically formed, ready to undergo still more complex changes.”That was 1871. Nearly 150 years hence, humankind has worked out the details of the evolutionary process to exquisite depth and resolution, but abiogenesis - the origins of life - remains one of the greatest mysteries of our world. Fierce theoretical debates rage on between those who think life got its start in deep sea hydrothermal vents and those who think it started in “some warm little pond” – not to mention more heterodox hypotheses. The consequences are enormous – shaping plans for interplanetary exploration, changing our approach to medicine, and maybe foremost, settling the existential question of what life is in the first place.This week’s episode was recorded live at the Santa Fe Institute’s InterPlanetary Festival in June 2019. The panel features evolutionary theorist David Krakauer, President of SFI; biochemist Sarah Maurer, Assistant Professor at Central Connecticut State University; and SFI Professor Chris Kempes, who works on biological scaling laws. In this discussion, we present a spectrum of perspectives on the origins of life debate, and speak to the importance of presenting this unsettled science as itself an evolutionary object...Visit our website for more information or to support our science and communication efforts.Join our Facebook discussion group to meet like minds and talk about each episode.David Krakauer's Webpage & Google Scholar Citations.Sarah Maurer's Website.Chris Kempes's Website.InterPlanetary Festival's Website.Complexity Explorer's Origins of Life Online Course.Follow us on social media:Twitter • YouTube • Facebook • Instagram • LinkedIn

For 300 years, the dream of science was to understand the world by chopping it up into pieces. But boiling everything down to basic parts does not tell us about the way those parts behave together. Physicists found the atom, then the quark, and yet these great discoveries don’t answer age-old questions about life, intelligence, or language, innovation, ecosystems, or economies.So people learned a new trick – not just taking things apart but studying how things organize themselves, without a plan, in ways that cannot be predicted. A new field, complex systems science, sprang up to explain and navigate a world beyond control.At the same time, improvements in computer processing enabled yet another method for exploring irreducible complexity: we learned to instrumentalize the evolutionary process, forging machine intelligences that can correlate unthinkable amounts of data. And the Internet’s explosive growth empowered science at scale, in networks and with resources we could not have imagined in the 1900s. Now there are different kinds of science, for different kinds of problems, and none of them give us the kind of easy answers we were hoping for.This is a daring new adventure of discovery for anyone prepared to jettison the comfortable categories that served us for so long. Our biggest questions and most wicked problems call for a unique and planet-wide community of thinkers, willing to work on massive and synthetic puzzles at the intersection of biology and economics, chemistry and social science, physics and cognitive neuroscience.Visit our website for more information or to support our science and communication efforts.Join our Facebook discussion group to meet like minds and talk about each episode.David Krakauer's Webpage & Google Scholar Citations.Follow us on social media: Twitter • YouTube • Facebook • Instagram • LinkedIn