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National Geographic photographer and conservationist Jaime Rojo has spent decades capturing the beauty and fragility of the monarch butterfly. Their epic migration is one of nature’s most breathtaking spectacles, but their survival is under threat. In this episode, Jaime shares how his passion for photography and conservation led him to document the monarchs’ journey. He and host Brian Lowery discuss the deeper story behind his award-winning images, one about resilience, connection, and the urgent need to protect our natural world. See Jaime's story on the monarch butterflies at his website: rojovisuals.com , and follow Brian Lowery at knowwhatyousee.com .…
Content provided by Kambiz Kamrani. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Kambiz Kamrani or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
Content provided by Kambiz Kamrani. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Kambiz Kamrani or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
The sudden appearance of the Huns in Europe during the late 4th century CE sent shockwaves through the continent. Within a few decades, they built an empire that stretched from the Eurasian steppe to the heart of Central Europe, reshaping political landscapes and leaving an imprint on European history. But where did they come from? For centuries, scholars have debated whether the Huns were direct descendants of the Xiongnu, the powerful confederation that dominated the Mongolian steppe before collapsing around 100 CE. The 300-year gap between the fall of the Xiongnu and the emergence of the Huns has made it difficult to confirm a direct link. A new study, published in Proceedings of the National Academy of Sciences 1 , provides fresh insights into this question by analyzing the ancient genomes of individuals from across Eurasia. Excavation photo of the Hun-period "eastern-type" burial from Budapest, Népfürdő Street (Hungary). Credit: Boglárka Mészáros, BHM Aquincum Museum A team of geneticists, archaeologists, and historians from the Max Planck Institute for Evolutionary Anthropology and the HistoGenes project examined the DNA of 370 individuals dating from the 2nd century BCE to the 6th century CE, spanning sites from Mongolia to Central Europe. The results paint a complex picture of migration, cultural blending, and long-distance connections. The Genetic Footprint of the Huns The study focused on 35 newly sequenced genomes from key archaeological sites, including a 3rd–4th century site in Kazakhstan and 5th–6th century burial contexts in the Carpathian Basin. These European burials included individuals with "eastern-type" traits—characteristics often associated with nomadic steppe traditions. Despite historical accounts suggesting a large migration of Huns into Europe, the genetic evidence tells a different story. The researchers found no widespread East Asian ancestry among the European populations of the Carpathian Basin following the Huns' arrival. Instead, the majority of individuals were of predominantly European origin, maintaining local genetic and cultural traditions. However, a small but distinct group of individuals, primarily from "eastern-type" burials, carried significant East Asian ancestry. These individuals stood out as genetic outliers in the region, hinting at direct steppe connections. A Direct Link to the Xiongnu Elite A breakthrough came when researchers analyzed shared DNA segments—known as identical-by-descent (IBD)—to trace genealogical connections between individuals. "It came as a surprise to discover that a few of these Hun-period individuals in Europe share IBD links with some of the highest-ranking imperial elite individuals from the late Xiongnu Empire," said Guido Alberto Gnecchi-Ruscone of the Max Planck Institute. One particularly striking connection involved an individual buried in the largest known terrace tomb of the Xiongnu. This finding suggests that, while the bulk of the European Huns’ population was genetically diverse, certain elite figures may have been direct descendants of high-status Xiongnu individuals from Mongolia. A Gradual Migration, Not a Mass Invasion While the study confirms some genetic continuity between the Xiongnu and the Huns, it also challenges the idea of a large-scale migration from the East. "DNA and archaeological evidence reveal a patchwork of ancestries, pointing to a complex process of mobility and interaction rather than a mass migration," said Zsófia Rácz of Eötvös Loránd University in Budapest. Gold animal figurine found in Árpás (Hungary), in a 5th century eastern-type burial. Credit: Rómer Flóris, Museum of Art and History This contrasts with later steppe migrations, such as the Avars in the 6th century, who arrived in Europe with a much more significant East Asian genetic footprint. The Huns, by contrast, appear to have gradually moved westward over generations, intermixing with local populations along the way. "The ancestors of Attila’s Huns took many generations on their way westward and mixed with populations across Eurasia," noted Walter Pohl of the Austrian Academy of Sciences. What This Means for European History The findings suggest that while the Huns altered the political and military landscape of Europe, their genetic impact outside of elite burials was relatively limited. The broader population in the Carpathian Basin remained largely local, with only selective steppe influences. "Although the Huns dramatically reshaped the political landscape, their actual genetic footprint—outside of certain elite burials—remains limited," explained Zuzana Hofmanová of the Max Planck Institute. This study highlights how genetic research, combined with archaeology and historical analysis, can help resolve long-standing debates about the origins of past populations. "From a broader perspective, the study underscores how cutting-edge genetic research, in combination with careful exploration of the archaeological and historical context, can resolve centuries-old debates about the composition and origin of past populations," said Johannes Krause, director of the Department of Archaeogenetics at the Max Planck Institute. While many questions remain, this research provides strong evidence for a direct but complex relationship between the Xiongnu elite and certain individuals within the Hun-period European population. Rather than a straightforward migration or invasion, the story of the Huns is one of gradual movement, adaptation, and integration across the vast expanse of Eurasia. Related Research de Barros Damgaard, P., Marchi, N., Rasmussen, S., et al. (2018). "137 ancient human genomes from across the Eurasian steppes." Nature, 557 , 369–374. DOI: 10.1038/s41586-018-0094-2 Examines the genetic history of steppe populations, including the Scythians, Sarmatians, and early Turkic groups. Veeramah, K. R. (2018). "The importance of ancient DNA in understanding migration patterns in prehistory." Annual Review of Genomics and Human Genetics, 19 , 263-289. DOI: 10.1146/annurev-genom-083117-021749 Discusses how ancient DNA is reshaping our understanding of human migration and cultural change. Kim, B. M., Roh, S., Kim, S. et al. (2021). "Ancient genomes from present-day Korea and Japan suggest genetic exchanges in East Asia." Science Advances, 7 (32), eabd9223. DOI: 10.1126/sciadv.abd9223 Investigates genetic exchanges between East Asian populations, shedding light on early migrations in the region. These studies provide additional perspectives on how ancient steppe societies moved, interacted, and influenced the genetic landscape of Eurasia over millennia. 1 G.A. Gnecchi-Ruscone, Z. Rácz, S. Liccardo, J. Lee, Y. Huang, L. Traverso, R. Radzevičiūtė, Z. Hajnal, A. Szécsényi-Nagy, B. Gyuris, O. Mateovics-László, Z. Bernert, T. Szeniczey, T. Hajdu, B. Mészáros, M. Bálint, B.G. Mende, B. Miller, Z. Samashev, [...]& Z. Hofmanová. Ancient genomes reveal trans-Eurasian connections between the European Huns and the Xiongnu Empire, Proc. Natl. Acad. Sci. U.S.A. 122 (9) e2418485122, https://doi.org/10.1073/pnas.2418485122 (2025).…
The Footprints That Rewrite History In the shifting gypsum sands of White Sands National Park in New Mexico, a series of fossilized human footprints have surfaced, casting a striking new light on the ingenuity of Ice Age inhabitants. These tracks, dated to approximately 22,000 years ago, provide the oldest known evidence of human transport technology—suggesting that long before the invention of the wheel, prehistoric peoples were building and using travois-like devices to move heavy loads across vast landscapes. Illustration of two types of travois, or sledge, that may have been used by ancient people in North America. Credit: Gabriel Ugueto The findings, published in Quaternary Science Advances 1 , come from a research team led by Matthew R. Bennett of Bournemouth University. Their study focuses on linear traces found alongside human footprints in the park’s Alkali Flat region—traces that appear to be drag marks made by wooden poles in contact with the ground. The researchers propose that these markings, found in association with human footprints, may represent the earliest known use of a human-drawn transport system. “These features, whatever their age, demonstrate traditional ancient Indigenous practices, driven by the universal human need to transport possessions and resources.” A Travois Without Wheels: Early Transport Innovation A travois—a simple sled-like structure made from wooden poles tied in an A-frame—has long been documented in Native American cultures. Historically, it was used by Plains peoples to haul loads across the land, often drawn by horses or dogs. But the traces uncovered at White Sands suggest that humans alone may have pulled these devices during the Last Glacial Maximum, thousands of years before the domestication of draft animals. The study identified three distinct types of track features: Single groove tracks , possibly from a single-pole travois. Broader, shallow runnels , suggesting a larger structure. Two parallel grooves , consistent with a travois made from two poles tied together, leaving evenly spaced markings. “The most parsimonious explanation is that they represent drag marks formed by travois consisting of a single pole or crossed poles pulled by humans, presumably during the transport of resources.” Unlike sleds or carts, travois do not require wheels—making them well suited for landscapes like White Sands, where loose sand and soft sediments would have made rolling transport inefficient. The presence of footprints associated with the drag marks suggests that the load bearers were likely small groups moving together, possibly carrying food, firewood, or other essential goods. What Else Could Have Made These Marks? Before jumping to conclusions, the researchers carefully considered alternative explanations for the linear features. Could they have been made by animals dragging objects? Or by natural forces such as water or wind movement? The answer, they argue, is no. Animal activity? While mammoths, giant sloths, and other Ice Age creatures left their own footprints in White Sands, their tracks do not align with the drag marks. There’s no indication that large animals like mammoths dragged logs or sticks in a way that would match these parallel grooves. Natural formations? The markings are distinct from erosion patterns, ruling out fluvial activity or shifting sediment. Additionally, the grooves are located in areas where lake sediments were absent, making water-related explanations unlikely. Primitive boats? Some researchers have speculated that Pleistocene hunter-gatherers used watercraft. However, the parallel grooves are inconsistent with boat keels being dragged along shorelines, and White Sands lacks evidence of reed boats or canoes from this period. Drag marks made by ancient vehicles in White Sands National Park, New Mexico Credit: Bournemouth University This leaves one compelling explanation: humans, burdened with supplies, innovated an early transport system that helped them survive in an unforgiving Ice Age landscape. A Glimpse into Prehistoric Life The implications of this discovery go beyond technology. They offer a rare window into daily survival strategies of some of the earliest known inhabitants of North America. The presence of multiple footprints walking alongside the travois tracks suggests a cooperative effort—perhaps families or small social groups working together to transport goods. Moreover, this discovery adds weight to the controversial theory that humans arrived in the Americas much earlier than previously thought. The conventional timeline places the first migrations at around 15,000 years ago, following the retreat of the Ice Age glaciers. However, the dating of the White Sands footprints to 22,000 years ago (or possibly earlier) aligns with other emerging evidence suggesting that humans may have been present in the Americas as far back as 30,000 years ago. “The peopling of the Americas debate is a very controversial one, but we’re fairly confident about the dates.” Challenges and Questions for the Future Despite the excitement around these findings, some researchers remain skeptical. The dating of the footprints has been questioned by those who argue that environmental factors could have altered the stratigraphy of the site. Further studies will need to confirm whether these marks truly date back to the Last Glacial Maximum, or if they are younger than initially thought. Additionally, if these marks indeed represent transport technology, what exactly were these early humans carrying? Could they have been moving food, shelter materials, or even ritual items? Were these travois built for long-distance travel, or simply for short-term use within seasonal camps? Another lingering question is whether similar evidence exists elsewhere. Given that travois technology is unlikely to leave behind durable artifacts, identifying similar trackways in other ancient landscapes could help confirm the widespread use of this technology among early humans. The First Movers of North America This discovery at White Sands challenges long-held assumptions about early human migration, transport technology, and daily life. The evidence suggests that Ice Age peoples were not just moving through the landscape but actively shaping it—engineering solutions to the hardships they faced. The humble travois, often overlooked in discussions of prehistoric innovation, may have played a critical role in the survival and expansion of human populations. If confirmed, these 22,000-year-old footprints will stand as a testament to the ingenuity of our ancestors—proving that even before the invention of the wheel, humans were finding creative ways to carry their world with them. Related Research Bennett, M. R., et al. (2025). The ichnology of White Sands (New Mexico): Linear traces and human footprints, evidence of transport technology? Quaternary Science Advances. DOI: 10.1016/j.qsa.2025.100274 Bustos, D. et al. (2021). Footprints preserve terminal Pleistocene hunt? Science. DOI: 10.1126/science.abg7586 Pigati, J. S. et al. (2023). Footprints evidence of the earliest Americans? Science. DOI: 10.1126/science.adj1721 1 Bennett, M. R., Urban, T. M., Bustos, D. F., Reynolds, S. C., Jolie, E. A., Strehlau, H. C., Odess, D., Springer, K. B., & Pigati, J. S. (2025). The ichnology of White Sands (New Mexico): Linear traces and human footprints, evidence of transport technology? Quaternary Science Advances , 17 (100274), 100274. https://doi.org/10.1016/j.qsa.2025.100274…
What if collecting rare and beautiful objects wasn't just a uniquely human behavior? A recent study from the Prado Vargas Cave in Spain suggests that Neanderthals—long depicted as brutish, survival-driven beings—may have shared this deeply human impulse. The discovery of 15 marine fossils in a cave occupied by Neanderthals raises a provocative question: Did our ancient cousins collect objects for reasons beyond survival? Some of the fossils analyzed in the course of the study. Credits: Ruiz et al. 2024, Quaternary . CC BY 4.0 License The findings, published in Quaternary 1 by Marta Navazo Ruiz and colleagues, challenge the notion that only modern humans were capable of symbolic behavior. These fossils, deliberately transported into the cave and showing no signs of utilitarian use, suggest something far more intriguing: Neanderthals may have been the first collectors in history. A Cave of Curious Treasures The excavation at Prado Vargas unearthed an exceptional collection of marine fossils dating back to the Upper Cretaceous. Among them were mollusks, gastropods, bivalves, and even an echinoderm—none of which would have had any practical use for a group of hunter-gatherers. "Fossils, with one exception, show no evidence of having been used as tools," the authors note. "Thus, their presence in the cave could be attributed to collecting activities." This is where the mystery deepens. Unlike isolated fossils found at other Neanderthal sites, Prado Vargas presents the first known example of a deliberate collection. These fossils were gathered from the surrounding landscape and transported into the cave—possibly by children or other members of the group who were drawn to their shapes, textures, or colors. Why? That remains the unanswered question. Why Would Neanderthals Collect Fossils? The authors propose multiple theories, each offering a fascinating glimpse into the Neanderthal mind: Aesthetic Appreciation : Perhaps these fossils were simply seen as beautiful objects worth keeping. Just as modern humans collect seashells or gemstones, Neanderthals might have been drawn to their striking patterns and shapes. Symbolic or Ritual Use : Some fossils were found in association with Neanderthal remains, raising the possibility that they were linked to burial or social rituals. Could these fossils have carried meaning beyond mere decoration? Social Exchange or Status Markers : The researchers suggest that fossils might have been given as gifts, traded within or between groups, or used as markers of identity. Children’s Collections : A particularly intriguing idea is that Neanderthal children, much like their modern counterparts, might have enjoyed collecting these objects. The presence of juvenile remains at Prado Vargas strengthens this possibility. Each of these explanations challenges the outdated perception of Neanderthals as simple beings concerned only with basic survival. Instead, it suggests a species capable of curiosity, creativity, and possibly even an early form of symbolic thought. The Evolutionary Implications This discovery is part of a growing body of evidence reshaping our understanding of Neanderthals. Other sites have yielded pierced shells, ochre pigments, and even engravings, indicating that these early hominins engaged in complex cultural behaviors. "Collecting activities and the associated abstract thinking were present in Neanderthals before the arrival of modern humans," the study asserts. If Neanderthals collected objects purely for the sake of collecting, it suggests an ability to assign value beyond immediate survival needs—an ability that may have been a precursor to art, religion, and other forms of human culture. A Challenge to Longstanding Assumptions The idea that Neanderthals lacked symbolic thought has been steadily eroding. From cave paintings in Spain to the intentional burials of their dead, the Neanderthal world appears increasingly complex. Yet, skepticism remains. Some researchers argue that while Neanderthals may have collected fossils, it does not necessarily mean they assigned them symbolic meaning. Others caution that more evidence is needed to confirm these behaviors were widespread. Regardless, the fossils of Prado Vargas stand as a compelling case for reconsidering what we think we know about Neanderthal cognition. Conclusion: More Than Just Survivors The study from Prado Vargas reminds us that Neanderthals were not simply primitive hunters eking out an existence in Ice Age Europe. They were collectors, observers, and possibly even storytellers. If collecting is, as some psychologists argue, a deeply ingrained human impulse—one tied to memory, identity, and emotional connection—then perhaps it is time to redefine what it truly means to be "human." Did Neanderthals collect simply for the joy of it? Were they drawn to beauty, mystery, and meaning? The fossils of Prado Vargas leave us with more questions than answers, but they also hint at something extraordinary: The Neanderthal mind may not have been so different from our own. Related Research For further exploration of Neanderthal cognition and symbolic behaviors, check out the following studies: Ochre Use by Neanderthals in Europe – DOI: 10.1016/j.jas.2021.105388 Symbolic Behavior in Middle Paleolithic Neanderthals – DOI: 10.1007/s10816-022-09541-8 Neanderthal Burials and Rituals – DOI: 10.1126/science.abb6320 1 Navazo Ruiz, M., Benito-Calvo, A., Lozano-Francisco, M. C., Alonso Alcalde, R., Alonso García, P., de la Fuente Juez, H., Santamaría Diez, M., & Cristóbal Cubillo, P. (2024). Were Neanderthals the first collectors? First evidence recovered in level 4 of the Prado Vargas Cave, Cornejo, Burgos and Spain. Quaternary , 7 (4), 49. https://doi.org/10.3390/quat7040049…
A Mysterious Ritual Resurfaces in the Archaeological Record In the rugged landscapes of northeastern Iberia, ancient fortresses once stood, their walls bearing silent witness to the turbulent rituals of Iron Age societies. Among the most perplexing of these practices is the display of severed human heads—gruesome relics once nailed to walls or placed near entrances. Were they war trophies, grim warnings to enemies? Or were they revered ancestors, honored in death as a testament to their standing in the community? A new study, published in the Journal of Archaeological Science: Reports 1 , takes a fresh look at these enigmatic skulls, using isotope analysis to track the origins and movements of the individuals whose remains were subjected to this unsettling tradition. One of the severed heads found at Ullastret. Credit: MAC-Ullastret a De Prado, 2015 For decades, archaeologists speculated on the meaning of these skulls. Some believed they were the heads of foreign enemies, displayed to assert dominance. Others saw them as a way for Iron Age Iberians to commemorate their own fallen warriors. But without hard evidence—without a way to determine where these individuals had lived and died—the debate remained unresolved. Now, thanks to cutting-edge strontium and oxygen isotope analysis, researchers are beginning to piece together a more nuanced picture. "The severed heads represent a unique symbolic practice within the Iberian world and offer an exceptional opportunity to analyze these communities," the authors write. "It has been proposed that they might have been protective relics from ancestors or war trophies of foreign enemies. But these hypotheses have not been tested yet, nor has the relationship of these groups with their territory." Science Takes a Bite Out of Ancient Iberian Mythology To uncover the origins of these skulls, researchers analyzed human remains from two major sites: Ullastret and Puig Castellar. By examining the isotopic composition of their tooth enamel—specifically, strontium and oxygen levels—the scientists could determine whether these individuals grew up locally or if they had migrated from other regions. Strontium, an element absorbed from local bedrock through water and food, leaves a chemical signature in bones and teeth that matches the geology of a person's childhood home. Oxygen isotopes, meanwhile, can reveal patterns of water consumption, providing additional clues about mobility and climate. The results were striking: at Puig Castellar, three out of four individuals showed isotopic signatures that did not match the local geology. They were likely outsiders, reinforcing the idea that these skulls could have belonged to captured enemies. But in Ullastret, two of the three analyzed skulls did match the local baseline, suggesting that at least some of the severed heads belonged to community members, possibly venerated ancestors or individuals who had fallen out of favor. "At Puig Castellar, the isotope values of three of the four individuals differ significantly from the local strontium reference, which suggests that they were probably not from the local community," explains lead author Rubén de la Fuente-Seoane. "In contrast, Ullastret revealed a mixture of local and non-local origins." These findings challenge the assumption that the "nailed heads" ritual served a single, universal purpose. Instead, it seems that different settlements adapted the practice to their own needs. In some cases, it may have been a form of intimidation, meant to discourage rebellion or frighten enemies. In others, it may have been a way of honoring ancestors or reinforcing social cohesion. Ritual, Violence, and Power: A Complex Social Puzzle The positioning of the skulls offers additional insights into their significance. At Puig Castellar, the heads were prominently displayed near the settlement’s walls—a clear indication of their role in power projection and social control. "The fact that in Puig Castellar the skulls were exposed in an area such as the wall makes the researchers opt for the hypothesis that the reason for their exposure was aimed at the demonstration of power and coercion, both for internal repression and towards a group outside the community," the study states. But in Ullastret, the placement was more varied. Some skulls were displayed near homes or within the city itself, raising the possibility that they belonged to revered community members rather than outsiders. The presence of a single foreign skull at Ullastret suggests that the war trophy tradition still existed but was not the dominant function of the ritual. These insights paint a picture of a dynamic and complex society—one that used ritualized violence not just to threaten enemies but also to reinforce social order, honor certain individuals, or even define territorial boundaries. A First Step Toward a Broader Understanding This study represents the first systematic application of isotope analysis to severed heads in Iron Age Iberia. It not only provides direct evidence of human mobility patterns during this period but also highlights the importance of integrating bioarchaeological and isotope data to refine our understanding of past societies. "This differentiation reflects a dynamic and complex society with important local and external interactions," the researchers write. "At the same time, it suggests that the selection of individuals for the severed heads ritual was more complex than initially thought." While this study answers some questions, it raises many more. Why did Ullastret and Puig Castellar differ in their use of severed heads? Were there specific social or political factors that influenced these choices? And how did these practices compare to similar rituals in neighboring cultures? Future research, the authors suggest, will involve expanding the isotopic dataset and examining additional archaeological sites to see if these patterns hold true across the broader Iberian world. Conclusion: A Ritual Reimagined The severed heads of Iron Age Iberia were not just macabre relics of a violent past. They were symbols—of power, of memory, of fear, and of belonging. By combining advanced scientific techniques with careful archaeological analysis, researchers are bringing new clarity to these ancient traditions, revealing a world far more complex than we once imagined. "We have established a local strontium reference based on a rigorous protocol," the authors conclude, "applying in humans a pioneering methodology in Catalonia that, moreover, serves as a first step towards the creation of a Catalan map of bioavailable strontium." With this groundbreaking work, archaeologists have not only deepened our understanding of Iron Age Iberia but also demonstrated the power of modern science to rewrite ancient history. Related Research López-Onaindia, D., et al. (2024). "Strontium isotope analysis in prehistoric European societies." Journal of Archaeological Science . DOI: 10.1016/j.jas.2024.105035 Sanmartí, J., et al. (2023). "The role of ritual violence in Iberian society." Antiquity . DOI: 10.15184/aqy.2023.15 1 de la Fuente-Seoane, R., López-Onaindia, D., Codina Falgas, F., De Prado, G., Álvarez, C. F., Rovira Hortalà, M. C., Díaz-Zorita Bonilla, M., Nieto-Espinet, A., & Subirà, M. E. (2025). Territorialisation and human mobility during the Iron Age in NE Iberia: An approach through Isotope Analyses of the Severed Heads from Puig Castellar (Barcelona, Spain) and Ullastret (Girona, Spain). Journal of Archaeological Science, Reports , 62 (105035), 105035. https://doi.org/10.1016/j.jasrep.2025.105035…
A Pivotal Clue in the Inner Ear Neanderthals have long been a mystery. They were our closest relatives, yet they disappeared while we thrived. For decades, scientists have debated whether their extinction was the result of dwindling genetic diversity, climate pressures, or competition with early Homo sapiens . A new study published in Nature Communications 1 adds a surprising twist: the key to understanding Neanderthal population decline may lie in the shape of their inner ear. Artwork on the schematic representation of the distribution of morphological variation of the inner ear along time in Neanderthal lineage. Credit: Alessandro Urciuoli (Institut Català de Paleontologia Miquel Crusafont) A team of researchers, led by Alessandro Urciuoli of the Universitat Autònoma de Barcelona, turned to the semicircular canals—structures within the bony labyrinth of the inner ear responsible for balance—to test an idea. Could changes in Neanderthal ear morphology reflect a bottleneck event in their evolutionary past? Using a sophisticated geometric morphometric approach, they analyzed the semicircular canals of Neanderthal fossils spanning hundreds of thousands of years. Their findings suggest a sharp decline in morphological diversity that coincides with a long-suspected genetic bottleneck event. “Our results identify a significant reduction in disparity after the start of Marine Isotope Stage 5, supporting our hypothesis of a late bottleneck, possibly leading to the derived morphology of Late Pleistocene Neanderthals,” the authors state. This discovery offers a fresh perspective on Neanderthal evolution. Rather than a gradual decline in diversity, the evidence points to a late and abrupt event that may have set the stage for their eventual disappearance. The Bottleneck Hypothesis Revisited Neanderthals evolved from Middle Pleistocene populations, often grouped under Homo heidelbergensis , and were established in Eurasia by at least 400,000 years ago. Their genetic divergence from Homo sapiens and Denisovans occurred between 765,000 and 550,000 years ago, based on molecular clock estimates. But as Neanderthals became increasingly distinct, something peculiar happened. Schematic representation of the changes in morphological diversity along the evolutionary history of the Neanderthal clade. Sima de los Huesos and, particularly, Krapina populations show similarly large amounts of morphological variation, thus suggesting continuity during the Middle Pleistocene. Later, classic Neanderthals instead appear much less diverse, hence hinting for the presence of a drop in phenotypic variation right after the temperature maximum reached around 120,000 years ago, and at the beginning of the Last Glacial cycle. Credit: Alessandro Urciuoli (Institut Català de Paleontologia Miquel Crusafont) For years, scientists believed that Neanderthals experienced an early genetic bottleneck—a sharp reduction in population size that limited their genetic diversity. However, genetic data from fossils has not confirmed this theory. The new study challenges this assumption by using morphological data as a proxy for genetic variation. “Greater phenotypic variation should be present before a drastic reduction of genetic variation, such as before a bottleneck event,” the researchers explain. To test their hypothesis, they examined inner ear morphology from three key Neanderthal populations: Sima de los Huesos (Spain, ~430,000 years ago) – One of the earliest known populations on the Neanderthal lineage. Krapina (Croatia, 130,000–120,000 years ago) – A late Middle Pleistocene group showing clear Neanderthal traits. Late Neanderthals (40,000–64,000 years ago) – Fossils from Western Europe, representing the last phase of Neanderthal existence. The results were striking. Early Neanderthals at Sima de los Huesos and Krapina exhibited high levels of morphological diversity, suggesting a broad genetic pool. But in later Neanderthals, the variation plummeted—strongly implying a genetic bottleneck. “The reduction in diversity observed between the Krapina sample and classic Neanderthals is especially striking and clear, providing strong evidence of a bottleneck event,” the study states. What Caused the Bottleneck? A dramatic loss of genetic diversity often signals a major population crisis. The study suggests that the bottleneck occurred after 130,000 years ago, during a period of significant climate fluctuation. Marine Isotope Stage 5 (MIS 5), which lasted from roughly 130,000 to 80,000 years ago, saw fluctuating temperatures that may have fragmented Neanderthal populations. The findings align with previous research suggesting that Neanderthals were never a large, stable population. Instead, they lived in relatively isolated groups, with occasional waves of expansion and contraction. The study’s authors speculate that worsening climatic conditions and habitat fragmentation could have led to prolonged periods of low genetic exchange, further intensifying the effects of the bottleneck. “Drastic climatic changes likely had profound impacts on the genetic and morphological variability of the Neanderthal lineage,” the authors write. The implications are profound. While earlier studies have suggested that Neanderthals may have interbred with early Homo sapiens as far back as 200,000 years ago, this new evidence raises the possibility that hybridization was not enough to prevent their decline. Challenging the Traditional View of Neanderthal Evolution The study’s conclusions challenge traditional models of Neanderthal evolution. Previous theories largely fell into two camps: The Accretion Model – Neanderthals evolved gradually through accumulating small genetic changes over time. The Two-Phase Model – Neanderthals underwent two distinct evolutionary phases, with a major shift occurring due to a bottleneck. The new research suggests that neither model fully explains Neanderthal evolution. Instead, it paints a more complex picture in which early Neanderthals retained high levels of diversity, but something happened later that dramatically reduced their variability. “Neither accretion nor organismic models are entirely capable of describing the complex processes that shaped the variation observed in Middle and Late Pleistocene Neanderthals,” the study notes. This raises a key question: if Neanderthals had already experienced a severe genetic bottleneck before the arrival of Homo sapiens in Europe, were they already on the path to extinction before we ever encountered them? The End of the Neanderthals: A Slow Decline or a Sudden Fall? One of the most persistent debates in paleoanthropology is what ultimately led to the disappearance of Neanderthals around 40,000 years ago. Some argue that direct competition with Homo sapiens —either for resources or through conflict—was the decisive factor. Others suggest that climate change played a larger role. This new study complicates that narrative. If Neanderthals had already suffered a dramatic loss of genetic diversity 100,000 years before their final disappearance, it suggests that their downfall may have been a much longer process than previously thought. “The identification of a phenotypic bottleneck later than 130–120 ka has consequences for our understanding of Neanderthal evolution,” the study concludes. In other words, Neanderthals may have been struggling long before Homo sapiens arrived in large numbers. The genetic bottleneck may have left them vulnerable to further population declines, inbreeding, and a reduced ability to adapt to environmental changes. Rethinking Neanderthal Evolution This study provides an important missing piece in the puzzle of Neanderthal extinction. By using inner ear morphology as a proxy for genetic diversity, researchers have identified a major evolutionary bottleneck that likely played a pivotal role in shaping the fate of the Neanderthal lineage. Rather than viewing Neanderthals as a single, stable population that slowly declined, this research suggests they were part of a highly dynamic and fluctuating metapopulation, prone to cycles of expansion and collapse. Did this bottleneck seal their fate long before Homo sapiens became a dominant force in Europe? That remains an open question, but one thing is clear: Neanderthal evolution was far more complex than we once thought. Related Research Genetic Bottlenecks in Neanderthals and Denisovans ( Nature ) – DOI: 10.1038/nature18648 Climate Change and Neanderthal Extinction ( Science ) – DOI: 10.1126/science.aay8177 Neanderthal Morphological Variation ( PLOS ONE ) – DOI: 10.1371/journal.pone.0226555 1 Urciuoli, A., Martínez, I., Quam, R., Arsuaga, J. L., Keeling, B. A., Diez-Valero, J., & Conde-Valverde, M. (2025). Semicircular canals shed light on bottleneck events in the evolution of the Neanderthal clade. Nature Communications , 16 (1), 1–13. https://doi.org/10.1038/s41467-025-56155-8…
The Mystery of the Transitional Industries For decades, archaeologists have puzzled over a key moment in prehistory: the transition from the Middle to the Upper Paleolithic, a period marked by the gradual disappearance of Neanderthals and the spread of Homo sapiens across Europe. Central to this debate are two enigmatic stone tool industries, the Châtelperronian and the Uluzzian, both dating to roughly the same period—between 44,000 and 40,000 years ago. Found in different parts of Europe, these two industries have often been grouped together as “transitional industries,” implying that they might share a common technological or cultural origin. But do they? A new study published in the Journal of Paleolithic Archaeology 1 has upended this assumption. By directly comparing the stone tools (lithics) of these two cultures for the first time, researchers have found no meaningful technological connection between them. Instead, their findings suggest that these two groups—one in France and Spain (Châtelperronian) and the other in Italy and Greece (Uluzzian)—were not just geographically separate but fundamentally different in how they made and used their tools. Map illustrating the distribution of Uluzzian and Châtelperronian sites, with those used in this paper highlighted in white. Châtelperronian sites are compiled from Pelegrin and Soressi ( 2007 ) and Soressi and Roussel ( 2014 ) modified. Uluzzian sites are compiled after Marciani et al. ( 2020 ) and Douka et al. ( 2014 ) modified. The map background is GNU Free Documentation License A Side-by-Side Look at Ancient Craftsmanship The study, led by Giulia Marciani and colleagues, took an unprecedented approach. Until now, the Châtelperronian and Uluzzian industries had always been studied separately, often by researchers using different terminology and methodologies. To correct this, the team organized a workshop where archaeologists directly examined artifacts from both traditions side by side. The results were striking. Cores from the Châtelperronian of Les Cottés (US6). (1) Asymmetrically-reduced unidirectional bladelet core showing production of bladelets from wide and narrow flaking surfaces. Note the postero-lateral crest installed on the left edge of the core. (2) Unidirectional bladelet core produced on the edge of a core tablet ( débitage sur tranche ). (3) Unidirectional blade core reduced on wide and narrow flaking surfaces, note the postero-lateral crest installed on the back of the core. (4) ‘Rectangular’ blade core reduced on three distinct surfaces (two narrow, one wide). (5) Bidirectional ‘Rectangular’ blade core with a natural (cortical) back “Our analysis highlights significant technological divergences between these industries. The Châtelperronian is a blade industry with a minor bladelet component produced by freehand direct percussion, whereas the Uluzzian is a flake-bladelet industry with massive use of bipolar percussion.” In other words, the Châtelperronian people—likely Neanderthals—crafted their tools by carefully striking long, thin blades from stone cores using controlled blows. In contrast, the Uluzzians—believed to be early Homo sapiens —relied heavily on a technique called bipolar percussion, in which a rock was placed on an anvil and struck from above, resulting in smaller, flake-like tools. Cores from the Uluzzian layer rsa’’ of Castelcivita. (1) Core exploited by orthogonal planes. (2, 7) single-face cores with parallel detachments. (3) Semi-tournant core. (4) Refitting set of a core with two adjacent faces with parallel detachments (modified from Higham et al., 2024 ). (4a) blade-like. (4b) Core. (5, 6) Cores with three adjacent faces with parallel detachments. (7, 8) Core with two opposing faces with parallel detachments This fundamental difference in technique suggests that these groups did not learn from one another or share a common cultural tradition. Rather than representing a single “transitional” moment, these two industries reflect entirely separate traditions, developed in isolation from one another. Neanderthals vs. Modern Humans: Who Made What? The identity of the artisans behind these stone tools has long been debated. Traditionally, the Châtelperronian industry has been linked to Neanderthals, largely because of skeletal remains found in association with these tools at sites like Saint-Césaire in France. However, recent discoveries have complicated this picture. For example, at Grotte du Renne, a key Châtelperronian site, researchers recently identified a neonatal pelvis fragment that appears to belong to Homo sapiens rather than a Neanderthal. This has led some scholars to question whether Neanderthals really were the makers of these sophisticated blade tools—or whether early Homo sapiens had a hand in their production. Meanwhile, the Uluzzian industry has long been associated with modern humans. Human teeth from Uluzzian layers at Grotta del Cavallo in Italy have been identified as Homo sapiens , reinforcing the idea that this tool tradition belonged to the first wave of modern humans entering Europe. “Following the discoveries of Neanderthal remains in the Châtelperronian, the Uluzzian was also postulated to be a product of Neanderthals … However, recent morphometric analysis of teeth from Grotta del Cavallo confirmed that they belong to Homo sapiens.” This finding is crucial, as it suggests that Neanderthals and modern humans did not necessarily share cultural or technological traditions, even when they lived in the same broad regions at the same time. What This Means for Human Evolution The study’s conclusions challenge long-held assumptions about how Neanderthals and modern humans interacted. If the Châtelperronian and Uluzzian industries were truly unrelated, then the transition to the Upper Paleolithic was not a single, unified process. Instead, different groups in different regions developed their own solutions to the challenges of survival—without necessarily influencing each other. This has implications for how we view the spread of modern human culture. The Uluzzian industry, often seen as an early manifestation of Homo sapiens ’ superior adaptability, appears to be a distinct tradition rather than part of a gradual blending with Neanderthal technology. The Châtelperronian, meanwhile, may not represent an attempt by Neanderthals to “catch up” with modern humans, as some have suggested, but rather an independent innovation that arose within Neanderthal communities. “The distinctiveness of the Châtelperronian and Uluzzian highlights that technological behaviours in western Europe during the 45–40 ka period can be very diverse and that general labels such as ‘transitional industries’ are unsatisfactory in describing this diversity.” Looking Ahead: More Questions Than Answers As with any major study, these findings raise new questions. If the Châtelperronian and Uluzzian traditions were completely separate, what does this say about the interactions between Neanderthals and modern humans? Did they live alongside each other without exchanging ideas, or were their encounters too brief to leave lasting cultural traces? And what about other so-called “transitional” industries across Eurasia? Were they also independent developments, or is there still evidence of cultural transmission between Neanderthals and Homo sapiens waiting to be uncovered? Future research will need to examine other sites with the same side-by-side approach used in this study. Only by directly comparing artifacts across different regions and traditions can we begin to piece together the true story of how human culture evolved in the shadow of extinction. Related Research For those interested in exploring this topic further, here are some key studies: Higham, T., et al. (2024). Reevaluating the stratigraphic integrity of Grotta del Cavallo: New insights into Uluzzian chronology. DOI: 10.1016/j.quascirev.2024.107012 Djakovic, I., et al. (2022). Radiocarbon chronology of the Châtelperronian: A Bayesian approach. DOI: 10.1080/00310222.2022.2104378 Moroni, A., et al. (2018). Technological organization in the Uluzzian: Implications for the behavior of early Homo sapiens in Europe. DOI: 10.1016/j.jhevol.2018.06.004 1 Marciani, G., Carmignani, L., Djakovic, I., Roussel, M., Arrighi, S., Rossini, M., Boschin, F., Ronchitelli, A., Benazzi, S., Moroni, A., & Soressi, M. (2025). The uluzzian and châtelperronian: No technological affinity in a shared chronological framework. Journal of Paleolithic Archaeology , 8 (1). https://doi.org/10.1007/s41982-024-00202-1…
The Ancient Hearths of Fuente del Salín Fire has long been a cornerstone of human existence, providing warmth, protection, and a means to cook food. But was its use during the Upper Paleolithic purely practical, or did it hold deeper cultural significance? A new study from the Fuente del Salín cave in Cantabria, Spain, seeks to answer this question by examining the role of fire in Gravettian hunter-gatherer life. The research, published in Archaeological and Anthropological Sciences 1 , presents compelling micro-archaeological evidence that fire was not just a survival tool but a defining cultural trait of the Gravettian tradition. Excavation inside the cave with negative red handprints inside the cave associated with the Gravettian foragers Through detailed analysis using micromorphology, micro-X-ray fluorescence (µ-XRF), and scanning electron microscopy (SEM-EDX), the researchers reconstructed the use of fire at the site. Their findings challenge the assumption that intensive fire use was simply an adaptation to periglacial conditions in central and eastern Europe, instead suggesting that it was an integral part of Gravettian identity across the continent. “The intensive burning, systematic reuse of combustion features, and multiple purposes of the fires at Fuente del Salín are comparable with Gravettian sites from central and eastern Europe, indicating that these fire-use behaviors probably do not reflect a regional adaptation to periglacial environments but a cultural trait of the Gravettian tradition across Europe.” Fire as Culture, Not Just Survival For years, archaeologists have debated whether fire use among Paleolithic hunter-gatherers was primarily dictated by environmental necessity or if it was a deeply ingrained social practice. The Gravettian period, which lasted from roughly 33,000 to 22,000 years ago, saw some of the coldest climates of the Ice Age, particularly in regions like the Middle Danube Basin. Sites such as Dolní Věstonice in the Czech Republic and Grub-Kranawetberg in Austria have revealed extensive evidence of fire use, leading some researchers to conclude that it was a response to extreme climatic conditions. However, Fuente del Salín offers a different perspective. Unlike central and eastern Europe, Cantabria did not experience the same periglacial conditions. Yet, the evidence from the cave suggests that Gravettian foragers used fire in strikingly similar ways. The presence of stacked hearths, burnt bones, charred organic material, and layers of ashes indicates a systematic approach to fire maintenance and reuse. These patterns suggest that fire was more than just a means to combat the cold—it was part of a broader social and cultural practice. A Ritual of Flames? One of the most intriguing aspects of the study is the discovery of burnt grass beddings . In other Upper Paleolithic sites, such as Sibudu Cave in South Africa, similar layers of burnt vegetation have been interpreted as evidence of deliberate sanitation practices. Burning old bedding could have helped control parasites, a behavior still observed in some modern hunter-gatherer societies. The presence of these features at Fuente del Salín suggests that Gravettian groups may have engaged in comparable hygienic practices, reinforcing the idea that fire was not merely a tool but an element of daily life with ritualistic or symbolic importance. Additionally, the researchers found high concentrations of manganese oxides in the combustion features. Some scholars have speculated that Neanderthals used manganese dioxide to aid in fire-starting, as it reduces the ignition temperature of wood. Could the Gravettian people have inherited this knowledge? If so, it would further emphasize the sophistication of their pyrotechnology. The Fire That Binds Beyond its practical applications, fire likely played a critical role in fostering social cohesion among Gravettian groups. Sitting around a fire would have been a time for storytelling, teaching, and reinforcing group identity. The repetitive use of specific hearths suggests that Gravettian sites were not just temporary encampments but places of recurrent gathering and social continuity. a Elevation model of the Cantabrian region with the location of Fuente del Salín cave. b Plane of the cave which locates the excavation, rock art, and the modern and paleolithic entrances. A line indicates the path from the modern entrance to the Paleolithic entrance, divided into red and blue sections. c Longitudinal section of the cave, displaying the topography and representing the same path as shown in (b), providing an alternative view of the cave’s structure. The study’s findings align with other research suggesting that Gravettian populations had relatively low population densities and high mobility, yet maintained strong regional traditions. The standardization of fire use across diverse environments indicates a shared cultural knowledge passed down through generations. Revising the Gravettian Narrative The study at Fuente del Salín contributes to a growing body of evidence that challenges the notion of the Gravettian as simply an adaptive response to Ice Age conditions. Instead, it presents a more nuanced picture of these hunter-gatherers as active cultural agents who manipulated fire for multiple purposes beyond survival. While fire may have initially been a necessity, it evolved into something more—a medium for social organization, hygiene, and possibly even ritual. The Gravettian mastery of fire provides a glimpse into the complexity of their cultural traditions, reshaping our understanding of how early humans structured their lives. Conclusion: The Legacy of the Gravettian Firekeepers The Gravettian people were not merely surviving in their environment—they were shaping it. Their use of fire, as evidenced by the Fuente del Salín cave, was systematic, widespread, and deeply ingrained in their culture. This challenges long-held assumptions that early human technologies were purely reactionary adaptations. Instead, the Gravettian mastery of fire reflects an early example of humans creating intentional cultural traditions, shaping their environments in ways that would influence future generations. As archaeologists continue to unearth more evidence from Paleolithic sites, one thing is clear: fire was not just an element of survival—it was a beacon of human ingenuity. Related Research For those interested in the evolution of fire use and cultural practices among ancient human populations, here are some key studies: Murphree & Aldeias (2022) – Examines how Gravettian populations used a variety of combustion features, including fire installations and baked clay structures. DOI: 10.1007/s12520-024-02126-x Mallol et al. (2017) – Discusses the micromorphological analysis of combustion features in Paleolithic sites. DOI: 10.1016/j.quaint.2017.04.006 Sorensen (2024) – Explores how manganese dioxide was used in fire-starting techniques by early humans. DOI: 10.3989/egeol.44131.593 1 Alzate-Casallas, G., Sánchez-Carro, M. A., Barbieri, A., & González-Morales, M. R. (2025). Was fire use a cultural trait of the Gravettian? New micro-archaeological data from Fuente del Salín cave (Val de San Vicente, Cantabria). Archaeological and Anthropological Sciences , 17 (1). https://doi.org/10.1007/s12520-024-02126-x…
A Genetic Mystery Unraveled For years, scientists have tried to piece together the evolutionary puzzle of human language. How did our ancestors acquire the ability to speak? What genetic shifts allowed humans to develop the intricate vocal control necessary for language? Unlike bones and tools, words do not fossilize, leaving researchers to scour DNA for clues. Now, a new study, published in Nature Communications 1 , offers a fresh perspective: a single genetic change in a gene called NOVA1 may have played a role in the development of complex human speech. NOVA1-producing cells highlighted in green in this mouse brain. Research suggests that mutations in the human NOVA1 gene may have played a role in the development of language. Credit: Darnell Laboratory, via The Rockefeller University In a new experiment, a team of researchers led by Yoko Tajima, César Vargas, and Erich Jarvis engineered mice with a humanized version of the NOVA1 gene —a gene that underwent a significant mutation after modern humans split from Neanderthals and Denisovans. The results were striking: these modified mice produced different vocalizations, suggesting that this single genetic alteration influenced how sounds are structured and communicated . “Our findings suggest that this human-specific NOVA1 substitution may have been part of an ancient evolutionary selective sweep in a common ancestral population of Homo sapiens, possibly contributing to the development of spoken language,” the researchers write. The Role of NOVA1 in the Brain NOVA1 is a neuronal RNA-binding protein , which means it helps regulate how other genes are processed in the brain. In most mammals, this gene is highly conserved —meaning it has remained almost identical across species for millions of years. However, in modern humans, a single amino acid change (I197V) appeared, distinguishing our version from that found in other primates, Neanderthals, and Denisovans. To understand its impact, researchers used CRISPR gene-editing technology to introduce the human-specific version of NOVA1 into mice. Surprisingly, the genetic alteration did not disrupt the mice’s development or basic brain function. However, it did affect how certain genes were expressed in brain regions associated with vocalization. The Mice That Squeaked Differently One of the most remarkable findings of the study was that humanized NOVA1 mice vocalized in ways distinct from their unaltered counterparts . When pups were separated from their mothers, their distress calls—measured as ultrasonic vocalizations (USVs) —showed noticeable differences in structure. “The humanized NOVA1 mice exhibited altered vocalization patterns as pups and adults, demonstrating changes in both sound complexity and frequency,” the study states. These differences became even more pronounced in adult male mice during courtship . Male mice typically "sing" complex ultrasonic songs when attempting to attract a mate. In the modified mice, these courtship songs contained more intricate frequency modulations , a characteristic reminiscent of the way human speech patterns evolved to become more nuanced over time. Did NOVA1 Pave the Way for Language? The implications of these findings are profound. While the FOXP2 gene has long been considered one of the key genetic players in the evolution of speech, NOVA1 appears to fine-tune the neural circuits that control vocal learning and complexity . The two genes may have worked in tandem, shaping the way early humans communicated. Interestingly, Neanderthals and Denisovans lacked this specific NOVA1 mutation , raising the possibility that their vocal capabilities were different from those of early Homo sapiens. Did this genetic divergence give modern humans a competitive advantage in terms of communication, social organization, and culture? While we may never know for sure, this study adds a new piece to the puzzle. A Thought-Provoking Critique While the findings are compelling, they also raise critical questions. The humanized NOVA1 mice still produced sounds within the natural range of mouse communication . The changes were subtle, suggesting that while NOVA1 may have contributed to the evolution of human speech, it was likely only one part of a much larger genetic network . Moreover, the study highlights the challenges of translating findings from mice to humans. Mice are not capable of learning new vocal patterns the way humans are , so their altered vocalizations may not fully capture the evolutionary significance of the NOVA1 mutation in early hominins. Future research using other primates or human-derived brain organoids might provide deeper insights. A Glimpse into the Evolution of Speech The evolution of human speech remains one of the most fascinating mysteries in anthropology and genetics. This study adds a new gene to the roster of potential contributors and suggests that the emergence of language was not the result of a single mutation but a gradual accumulation of changes across multiple genes . As researchers continue to decode the genetic origins of speech, the findings from NOVA1 point toward an exciting possibility: that subtle molecular tweaks, accumulated over generations, might have given our ancestors the first whispers of language —and eventually, the ability to tell stories, build civilizations, and shape the modern world. Related Research For those interested in further reading, here are some related studies exploring the genetics of human language and vocalization: Dediu & Levinson (2013) – "On the antiquity of language: The reinterpretation of Neanderthal linguistic capabilities" ( Frontiers in Psychology ). DOI: 10.3389/fpsyg.2013.00397 Lai et al. (2001) – "A forkhead-domain gene is mutated in a severe speech and language disorder" ( Nature ). DOI: 10.1038/35054099 Schreiweis et al. (2014) – "Humanized Foxp2 accelerates learning by enhancing transitions from declarative to procedural performance" ( PNAS ). DOI: 10.1073/pnas.1414542111 Zeberg & Pääbo (2020) – "A genomic region associated with speech and language has been under recent positive selection in modern humans" ( Science Advances ). DOI: 10.1126/sciadv.abc6916 1 Tajima, Y., Vargas, C. D. M., Ito, K., Wang, W., Luo, J.-D., Xing, J., Kuru, N., Machado, L. C., Siepel, A., Carroll, T. S., Jarvis, E. D., & Darnell, R. B. (2025). A humanized NOVA1 splicing factor alters mouse vocal communications. Nature Communications , 16 (1). https://doi.org/10.1038/s41467-025-56579-2…
For decades, the story of how human pigmentation changed as Homo sapiens spread across Europe has been told in broad strokes. Early humans arrived from Africa with dark skin, and as they adapted to lower UV radiation in northern latitudes, their skin lightened—a simple narrative of evolutionary selection. But a new study, conducted by researchers at the University of Ferrara and published as a preprint on bioRxiv 1 , challenges this oversimplified account. By analyzing ancient DNA from 348 individuals spanning 45,000 years, the researchers have reconstructed a far more intricate picture—one in which light pigmentation emerged gradually, in fits and starts, rather than in a smooth, inevitable progression. Temporal and geographical distribution of skin pigmentation estimates in Eurasia from Paleolithic to Iron Age. Credit: bioRxiv (2025). DOI: 10.1101/2025.01.29.635495 A Revolutionary Look at Ancient Pigmentation Using a probabilistic genotype likelihood approach, the researchers examined DNA from well-known ancient specimens, including the 45,000-year-old Ust'-Ishim individual from Siberia and the 9,000-year-old SF12 from Mesolithic Sweden. Their goal was to infer eye, hair, and skin color from genetic data while accounting for the challenges of working with low-coverage ancient DNA. Their findings upend traditional assumptions. Dark pigmentation remained dominant across Europe for much longer than previously thought. Even well into the Copper and Iron Ages—thousands of years after farming spread from Anatolia—half of the sampled individuals still had dark or intermediate skin tones. "The shift towards lighter pigmentations turned out to be all but linear in time and place, and slower than expected, with half of the individuals showing dark or intermediate skin colors well into the Copper and Iron Ages," the study notes. This contradicts earlier hypotheses that light skin became widespread in Europe soon after humans arrived from Africa. Instead, the researchers found that the first light-skinned individuals did not appear until the Mesolithic period (~12,000 years ago), and even then, they were rare. The shift to predominantly lighter skin did not take hold until the Bronze and Iron Ages. The Mystery of the Mesolithic Eye Color Spike One of the most unexpected findings concerns eye color. The study found that while skin lightened slowly, light eye color—especially blue—experienced a spike in frequency during the Mesolithic period, only to decline again in the Neolithic and re-emerge later. "This spike in light eye pigmentation appears to be specific to the Mesolithic period. It suggests that, for a brief interval in human prehistory, there was a higher occurrence of the light eye trait compared to both earlier (Paleolithic) and later (Neolithic and Bronze Age) periods." Why did blue eyes become more common in the Mesolithic and then decline? The researchers speculate that it could be due to genetic drift, localized selection, or social factors that temporarily favored individuals with this trait. The Role of Farming and Migration The transition from hunting and gathering to farming reshaped the genetic makeup of Europe in many ways, and pigmentation was no exception. The study found that the major shift toward lighter pigmentation coincided with the arrival of Neolithic farmers from Anatolia (~8,000–4,000 years ago). These newcomers carried genes for lighter skin, and their migration triggered a transformation in European pigmentation. However, the study cautions against viewing this as a simple replacement of dark-skinned hunter-gatherers with light-skinned farmers. Instead, it suggests that the change was gradual and shaped by complex interactions between migration, gene flow, and adaptation. "Pigmentation changes appear to have been driven primarily by migration and gene flow rather than a linear pattern of selection," the authors write. "The spread of Neolithic farming populations played a key role in shifting pigmentation traits across Europe." Surprisingly, even as late as the Iron Age (~3,000 to 1,700 years ago), darker pigmentation was still common in Southern Europe, Russia, and parts of Central Asia. This suggests that light skin was never an evolutionary necessity but rather one of many possible adaptations shaped by cultural and environmental factors. Genetics Behind the Color Shift To understand these changes, the researchers looked at specific genetic variants associated with pigmentation. They confirmed that two well-known genes— SLC24A5 and TYR —played a key role in the emergence of light skin. The SLC24A5 variant, in particular, is found at nearly 100% frequency in modern Europeans but was almost absent in the earliest samples. Other genes, such as OCA2 , influenced eye color, while MC1R and HERC2 contributed to variations in hair color. Interestingly, the researchers also found evidence of adaptive gene flow , meaning that some pigmentation traits may have been introduced through interbreeding with different populations rather than through direct natural selection. The Evolutionary Implications This study adds to a growing body of research showing that human evolution is not a straight path but a complex web of interactions. The authors emphasize that pigmentation traits do not follow a simple north-to-south gradient; instead, they vary based on migration patterns, population mixing, and historical contingency. "We do not think that the changes described in this paper can be regarded as the effects of a wave of migration proceeding at a regular pace," the researchers write. "Rather, what we think we are observing is a process in which, above and beyond the major Neolithic demic diffusion over much of Western Eurasia, localized processes of migration and admixture, or lack thereof, played a significant role." A Complex, Ongoing Story The history of European pigmentation is far more intricate than previously thought. Rather than a straightforward adaptation to UV exposure, it is a story of migration, gene flow, and cultural shifts. Dark pigmentation persisted much longer than expected, light eye color fluctuated in unexpected ways, and genetic changes occurred in a patchwork pattern rather than a smooth transition. This research challenges conventional wisdom and opens up new avenues for studying human adaptation. It suggests that many of our assumptions about how and why humans evolved certain traits need re-examining. If nothing else, it reminds us that the past was not a monochrome progression toward modernity, but a kaleidoscope of changing traits shaped by history, environment, and chance. Related Research Jablonski, N.G., & Chaplin, G. (2000). The evolution of human skin coloration. Journal of Human Evolution , 39(1), 57–106. DOI: 10.1006/jhev.2000.0403 Fu, Q., et al. (2014). Genome sequence of a 45,000-year-old modern human from western Siberia. Nature , 514, 445–449. DOI: 10.1038/nature13810 Olalde, I., et al. (2018). The Beaker phenomenon and the genomic transformation of northwest Europe. Nature , 555, 190–196. DOI: 10.1038/nature25738 Sikora, M., et al. (2019). The population history of northeastern Siberia since the Pleistocene. Nature , 570, 182–188. DOI: 10.1038/s41586-019-1279-z Lin, M., et al. (2018). Rapid evolution of a skin-lightening allele in southern African KhoeSan. PNAS , 115(52), 13324–13329. DOI: 10.1073/pnas.1801948115 1 Perretti, S., Vizzari, M. T., Santos, P., Tassani, E., Benazzo, A., Ghirotto, S., & Barbujani, G. (2025). Inference of human pigmentation from ancient DNA by genotype likelihood. In bioRxiv . https://doi.org/10.1101/2025.01.29.635495…
A Discovery in the Desert The story of human migration is often told in sweeping arcs—great waves of Homo sapiens leaving Africa, moving into Eurasia, and eventually populating the entire planet. But every now and then, a new discovery forces a rewrite of this narrative, reminding us that human history is more intricate than we once thought. One such discovery has emerged from the archaeological site of Jebel Faya, a rock shelter nestled in the Emirate of Sharjah, United Arab Emirates. Here, researchers have unearthed the oldest-known Middle Paleolithic stone tool assemblage in the region, dating back approximately 80,000 years, an era when the Arabian Peninsula was at the crossroads of human expansion. Examples of retouched artifacts from the stratigraphically youngest Middle Palaeolithic assemblage at Jebel Faya, Emirate of Sharjah, United Arab Emirates. Credit: Archaeological and Anthropological Sciences (2025). DOI: 10.1007/s12520-025-02164-z The findings, published in Archaeological and Anthropological Sciences 1 , offer crucial insights into early human technology and adaptation. The study, led by Knut Bretzke and a team of international archaeologists, geologists, and paleoenvironmentalists, reconstructs a vivid picture of a community of toolmakers refining their craft in a harsh yet resource-rich environment. The Art of the Blade: A Technological Leap Forward At the heart of the discovery is a remarkable collection of stone tools—long flakes with parallel edges, meticulously crafted using bidirectional techniques. These artifacts stand out for their sophistication, demonstrating a clear departure from earlier Middle Paleolithic traditions. The research team found that the tools were produced predominantly using Levallois and non-Levallois reduction strategies, with a strong preference for elongated blades rather than the triangular and ovoid flakes common in contemporary Arabian sites. "One striking feature of the Jebel Faya assemblage is the presence of a laminar system," the researchers explain. "The entire knapping sequence, from decortication to obtaining of end-products, is present in the lithic assemblage and indicates that blade production was carried out on-site." Unlike many stone tools found in Arabia, which tend to be more generalized, these blades suggest a higher level of planning and precision. The tools' makers were not just chipping away at stones haphazardly; they were following a refined tradition, optimizing each flake for efficiency. A Region at the Crossroads of Migration The implications of this discovery extend far beyond the blades themselves. The research suggests that the Arabian Peninsula, often seen as a mere corridor between Africa and Asia, was in fact a region of sustained human occupation and technological innovation. "Our results contradict previous conclusions about the possibility of a 40,000-year-old occupation at this site," the study states. "Instead, we provide new chronometric data indicating human presence at the end of the MIS 5 humid period, around 80,000 years ago." Map showing the location of site FAY-NE1, Jebel Faya and other Middle Paleolithic sites. Credit: Archaeological and Anthropological Sciences (2025). DOI: 10.1007/s12520-025-02164-z This challenges a long-standing assumption that early humans merely passed through Arabia on their way to more hospitable regions. Instead, the evidence suggests that Homo sapiens established enduring populations, adapting their tool-making strategies to the resources available in the region. The study also raises intriguing questions about how climate shaped human movement. Around 80,000 years ago, the Arabian Peninsula was transitioning from a wetter phase to a drier one. Did these early toolmakers migrate northward as conditions worsened, or did they remain, eking out a living in an increasingly arid landscape? The absence of human remains at Jebel Faya leaves these questions open, but the stone tools speak volumes about the resilience of these early inhabitants. A Break in the Pattern: Technological Divergence in Arabia Perhaps the most fascinating aspect of this research is how it highlights regional differences in stone tool production. Contemporary sites in northern Arabia, such as those in the Nefud Desert, primarily feature centripetal Levallois methods—technologies associated with classic Middle Paleolithic traditions. In contrast, the assemblage at Jebel Faya shows a clear shift toward bidirectional reduction, emphasizing the production of elongated flakes and blades. This suggests that different groups across Arabia may have been developing their own localized traditions rather than adhering to a single, uniform technological culture. "The focus on the production of blades and elongated flakes using bidirectional reduction at Jebel Faya at about 80,000 years ago is complemented by evidence from Dhofar, southern Oman," the researchers note. "Here, lithic records indicate a distinct trajectory toward Nubian technology." The Rub' al Khali, the vast desert that stretches across much of southern Arabia, may have acted as a geographic barrier, fostering these divergent technological traditions. This underscores a broader theme in human prehistory: adaptation is rarely uniform, and local conditions play a profound role in shaping cultural evolution. What Comes Next? The discoveries at Jebel Faya open the door for further research into early human settlement in Arabia. Future excavations could uncover additional layers of occupation, perhaps even yielding skeletal remains that might clarify the identity of these toolmakers. Additionally, ongoing paleoenvironmental studies may shed light on how shifting climates influenced migration and settlement patterns. Did these early inhabitants leave behind genetic legacies in modern populations? How did their technologies influence later cultural developments in the region? These are the questions that will shape the next phase of research. For now, the stone blades of Jebel Faya stand as a testament to the ingenuity of early humans. Far from being passive travelers through a barren landscape, they were innovators, shaping their world one flake at a time. Related Research Bretzke, K., et al. (2025). Archaeology, chronology, and sedimentological context of the youngest Middle Palaeolithic assemblage from Jebel Faya, United Arab Emirates. Archaeological and Anthropological Sciences , 17:60. DOI: 10.1007/s12520-025-02164-z Rose, J.I., et al. (2011). The Nubian Complex of Dhofar, Oman: An African Middle Stone Age Industry in Southern Arabia. PLoS ONE , 6(11), e28239. DOI: 10.1371/journal.pone.0028239 Groucutt, H.S., et al. (2018). Homo sapiens in Arabia by 85,000 years ago. Nature Ecology & Evolution , 2, 800–809. DOI: 10.1038/s41559-018-0518-2 Petraglia, M.D., et al. (2012). Hominin dispersal into the Nefud Desert and Middle Paleolithic settlement along the Jebel Qattar and Jebel Katefeh. Quaternary Science Reviews , 57, 32–47. DOI: 10.1016/j.quascirev.2012.11.008 1 Bretzke, K., Preusser, F., Raith, K., Preston, G., Kim, S., Jasim, S., Yousif, E., & Parker, A. G. (2025). Archaeology, chronology, and sedimentological context of the youngest Middle Palaeolithic assemblage from Jebel Faya, United Arab Emirates. Archaeological and Anthropological Sciences , 17 (3). https://doi.org/10.1007/s12520-025-02164-z…
Human societies are built on layers of culture, law, and technology, yet beneath it all, some of the oldest instincts in the animal kingdom continue to shape our world. From political power struggles to economic inequality and environmental exploitation, an evolutionary past rooted in dominance, survival, and competition still drives much of human behavior today. In A New Approach to Human Social Evolution 1 , neuroscientist and anthropologist Jorge A. Colombo argues that these deeply embedded instincts are at the core of modern crises, from authoritarianism to resource depletion. Unless societies actively work to counteract these primal drives, he warns, inequality, conflict, and environmental destruction will only intensify. “Ancient survival mechanisms continue to shape human behavior,” Colombo writes. “Without conscious intervention through education and universal values, humanity risks perpetuating cycles of dominance, inequality, and ecological collapse.” From Prey to Predator: How Evolution Wired the Human Brain The human brain evolved not in isolation, but through a long struggle for survival. Early hominins were prey before they became predators, and this transition shaped their neurological development. According to Colombo, this shift rewired human cognition, embedding survival mechanisms deep within the brain's structure. At its core, the human brain retains an ancient architecture. The basal regions—the parts responsible for basic survival instincts—still govern fundamental behaviors such as territorialism, reproduction, and fight-or-flight responses. Over time, layers of cognitive complexity were added, allowing for abstract thought, creativity, and social cooperation. Yet these evolutionary advances did not eliminate older instincts; they merely redirected them. The aggression once used to escape predators now plays out in warfare and political struggles. The drive to secure food and territory manifests in economic competition and resource hoarding. Even religion and ideology, Colombo argues, often serve as vehicles for ancient survival behaviors, reinforcing group identity and justifying conflict. “Fight and flight remain basic behavioral principles,” he writes. “Even when subdued under religious or mystic beliefs, aggressive and defensive behaviors emerge to defend or fight for even the most sophisticated peaceful ideologies.” Power, Politics, and the Persistence of Dominance Colombo argues that political and economic systems are not just cultural constructs; they are extensions of primal instincts for hierarchy and control. In human societies, dominance is expressed through military force, propaganda, financial control, and social class divisions. “Dominance exerted through political, economic, social class, or military power creates privileged structures that shape social hierarchies,” he writes. History provides ample evidence of this dynamic. Empires rise and fall based on territorial expansion and resource acquisition. Religious institutions have often enforced authority through punitive doctrines. Economic systems—whether feudalism, capitalism, or communism—revolve around the struggle for resources and influence. Modern consumer culture, Colombo suggests, is another expression of this primal drive. Advertising and corporate interests fuel excessive consumption, mirroring the instinct to stockpile resources for survival. Meanwhile, environmental destruction, fueled by industrial expansion and short-term economic gains, reflects a failure to override these ancient impulses. The Future of Human Evolution: Can Instinct Be Overcome? While evolutionary forces have shaped the human brain, they do not dictate the future. Colombo argues that the key to transcending these ancient drives lies in education and the promotion of universal values. “Profound cultural changes are only possible and enduring if humans come to grips with their actual primary condition,” he writes. Education, he suggests, must go beyond academic knowledge and address the psychological and neurological roots of human behavior. Societies must actively counteract inherited biases toward competition and hierarchy, fostering a sense of global responsibility. Colombo points to artificial intelligence as a test case for this challenge. As AI transforms the economy and workforce, those with access to education and resources will gain even more power, while underprivileged communities risk further marginalization. Without policies designed to close this gap, technological advances will only deepen existing inequalities. “More communities will become undernourished, impoverished, and without access to primary healthcare or adequate education for the continuous changes in the modern world,” he warns. The alternative, he argues, is a world where survival instincts dictate global affairs—where dominance, greed, and tribalism continue to drive decision-making at the highest levels. A Call for Conscious Evolution Colombo’s work challenges the assumption that human progress is inevitable. While science and technology have advanced, the biological and psychological forces that shaped early human societies remain largely unchanged. The question is whether modern humans can recognize these instincts for what they are—and make the conscious decision to rise above them. Without deliberate intervention, he warns, the same forces that shaped ancient power struggles will continue to dictate the course of history. The choice between a just, sustainable world and one driven by dominance and destruction, he argues, depends on whether humanity can override its most deeply embedded instincts. “The aggressiveness, cruelties, social inequities, and unrelenting individual and socioeconomic class ambitions are the best evidence that humans must first recognize and assume their fundamental nature to change their ancestral drive,” he writes. The ability to create a more just and sustainable future, Colombo suggests, may depend not just on technological progress, but on a deeper understanding of the ancient forces still shaping human behavior. Related Research Sapolsky, R. M. (2017). Behave: The Biology of Humans at Our Best and Worst. Penguin Random House. DOI: 10.1111/nyas.13391 Wrangham, R. (2019). The Goodness Paradox: The Strange Relationship Between Virtue and Violence in Human Evolution. Pantheon Books. DOI: 10.1016/j.tree.2019.04.001 Harari, Y. N. (2014). Sapiens: A Brief History of Humankind. Harper. DOI: 10.1111/j.1755-263X.2014.00239.x 1 Colombo, J. A. (2025). A new approach to human social evolution: Persistence of ancient drives in behaviour and development. Routledge.…
This podcast episode examines a recent study challenging the traditional understanding of dog domestication. The study used agent-based modeling to explore the possibility of wolf "self-domestication," suggesting that wolves could have evolved into dogs much faster than previously thought, potentially without direct human intervention. The model highlights the importance of sexual selection and access to human food sources as key drivers in this rapid evolution. These findings suggest that wolves may have actively adapted to life alongside humans, recognizing the benefits of this partnership. However, further research, especially genetic analysis, is needed to validate the model's findings and account for the possibility of multiple, independent domestication events.…
For centuries, human remains recovered from the River Thames have puzzled archaeologists. Were they the result of accidental drownings, burials disturbed by shifting tides, or evidence of ritual deposition? A new study in Antiquity 1 has established a far more precise timeline, revealing that these skeletal remains span nearly 6,000 years—from the Neolithic to the post-medieval period. Human remains are found in unusually high amounts in the Thames River. Credit: flickr/ Alastair Rae CC BY-SA 2.0 Researchers from the Natural History Museum in London and Historic England analyzed 61 individuals, using 30 newly obtained radiocarbon dates to refine previous chronological estimates. Their findings indicate that many of these remains belong to the Bronze and Iron Ages, aligning with wider European traditions of depositing human bodies in rivers and wetlands. A Long History of Human Remains in the Thames For more than two centuries, human bones have been recovered from the Thames, particularly in the lower reaches of the river that run through London. Early accounts from the 19th and 20th centuries often linked these finds to prehistoric burials, but without scientific dating methods, many of these interpretations remained speculative. Over time, researchers recognized that human remains in the river represented a complex history of deposition. Were they the victims of crime or execution? Did they drown accidentally? Or were they deliberately placed in the river as part of cultural or religious practices? The lack of precise dating prevented scholars from answering these questions. Dating the Dead: Establishing a Chronology To create a more complete timeline, researchers selected samples from 61 individuals, applying rigorous radiocarbon dating techniques to 30 of them. By combining this new dataset with previous radiocarbon results, they built a chronological framework spanning from approximately 4000 BCE to 1800 CE. One of the most significant findings was the clustering of remains in the Bronze and Iron Ages. Sixteen individuals dated to the Bronze Age (2500–800 BCE), with a particularly strong presence from the Late Bronze Age (1200–800 BCE). Another 15 individuals belonged to the Iron Age (800 BCE–100 CE), with the highest concentration in the Early Iron Age (800–400 BCE). While remains from the Roman, medieval, and post-medieval periods were also present, their numbers were much lower. Interestingly, there was a gap in the dataset between 300 and 600 CE, corresponding to the early medieval period, which may reflect changes in burial practices or a reduced population near the river. Patterns of Deposition: Evidence of Ritual Practice? The spatial distribution of the remains provided further clues. By dividing the lower Thames into 5-kilometer study zones, researchers found that Bronze and Iron Age remains were concentrated upstream, while post-medieval individuals were more common in central London and the Isle of Dogs. This pattern aligns with broader evidence from northwest Europe, where rivers and wetlands played a role in later prehistoric ritual activities. Archaeological sites across Britain and the Continent have shown that human bodies—sometimes whole, sometimes disarticulated—were deliberately placed in watery locations, possibly as offerings or part of funerary customs. “The concentration of remains from the Late Bronze and Early Iron Ages in upstream zones suggests a cultural tradition of deposition,” the researchers wrote. The practice of depositing objects, animals, and even human remains into rivers has been well-documented at sites such as Flag Fen in England and Hjortspring Bog in Denmark. These finds suggest that rivers were seen as liminal spaces—boundaries between the living and the dead, the earthly and the spiritual. Future Research: Expanding the Picture The newly refined chronology provides a foundation for further research. Scientists now have the opportunity to explore questions related to taphonomy (how bodies decay and are preserved in river environments), demographics (age and sex distribution), skeletal trauma (evidence of violence or execution), and isotopic analyses (clues about diet and migration). Understanding why people ended up in the Thames over thousands of years will require more than just radiocarbon dates. Ongoing research may reveal whether these individuals met violent ends, whether their remains were part of structured ritual activity, or whether they represent forgotten funerary customs lost to time. “These findings provide a crucial framework for future research into the human remains of the Thames,” the study concluded. As scientists continue to investigate the river’s archaeological record, the Thames may yet offer more stories from the deep—stories of lives lost, rituals performed, and a connection to the water that has persisted for millennia. Related Research Brück, J. (1995). "A Place for the Dead: The Role of Human Remains in Late Bronze Age Britain." Proceedings of the Prehistoric Society , 61, 245–277. DOI: 10.1017/S0079497X00003036 **Bradley, R. (2017). "The Idea of Order: The Circular Archetype in Prehistoric Europe." Oxford University Press. DOI: 10.1093/oso/9780198792516.001.0001 **Needham, S., Parfitt, K., & Varndell, G. (2006). "The Ringlemere Cup: Precious Cups and the Beginning of the Channel Bronze Age." British Museum Research Publication 163. 1 Arthur, N., Sidell, J., & Bonney, H. (2025). Human remains from the River Thames: new dating evidence. Antiquity , 1–18. https://doi.org/10.15184/aqy.2024.233…
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