Face of Overlooked Human Ancestor Could Set Record in Western Europe
Scientists have put a face, but not an official name, to the earliest human ancestor ever found in Western Europe.
This newly discovered hominin is a "new actor in the story of human evolution," says excavation coordinator Rosa Huguet, from the Catalan Institute of Human Paleoecology and Social Evolution in Spain.
The partial 'portrait' of this prehistoric individual is formed from the left side of a jaw and cheekbone uncovered in 2022 at the famous archaeological complex of Atapuerca in northern Spain.
After years of work, an international team of experts has dated the precious bones to between 1.1 and 1.4 million years old. When reconstructed, the remains create a narrow, flat face with fewer modern features than experts were expecting.
The face doesn't look like any other human species found at this time and in this part of the world.
That's partly why the individual is nicknamed Pink. In Spanish, the word for 'face' is the same as 'side,' and so researchers named the half-faced hominin in homage to Pink Floyd's iconic album, Dark Side of the Moon.
The name also serves as an unofficial hat tip to a key leader of the Atapuerca excavation, Rosa (Spanish for 'pink') Huguet.
Atapuerca is home to the oldest evidence of humans in Western Europe. Before Pink, the earliest remains belonged to the species Homo antecessor, which dates to between 800,000 and 1.2 million years ago and has a surprisingly similar face to that of modern humans.
Even though Pink was found at a neighboring site to H. antecessor, this individual's flat features and underdeveloped nose are more reminiscent of Homo erectus – the first humans to leave Africa, use fire, and make advanced tools.
The findings suggest Pink belonged to an overlooked, older species that arrived in Western Europe before H. antecessor. Both species may have overlapped in time and space, or they may have just missed each other.
"The evidence is still insufficient for a definitive classification, which is why it has been assigned to Homo affinis erectus (H. aff. erectus)," explains María Martinón-Torres, director of CENIEH and a lead researcher of the Atapuerca Project.
"This designation acknowledges Pink's affinities with Homo erectus while leaving open the possibility that it may belong to another species."
Martinón-Torres suspects Pink's ancestors came from eastern Europe and not across the Gibraltar strait from Africa, as more archaeological evidence is scattered along the former migratory path.
The earliest evidence of human activity at the "gates of Europe" dates back to around 2 million years ago, which leaves plenty of time for waves of early human migrants to make it to Western Europe by the Early Pleistocene.
Previous archaeological evidence has found signs of early human tools and a single tooth in Western Europe dating to around 1.4 million years ago, however, additional human remains from this time have proved elusive.
The Atapuerca complex in Spain could help us understand who these first inhabitants of the Iberian Peninsula were, what they looked like, and where they lived.
At the site where Pink was found, researchers also uncovered stone tools and animal remains with cut marks on them. This suggests H. affinis erectus knew how to make simple yet effective tools to exploit the wet and warm region's resources.
Researchers working at the Atapuerca complex have noticed a 'chronological gap' between the site where Pink was found (called Sima del Elefante) and the neighboring spot where H. antecessor was found (called Gran Dolina).
Some of the authors have argued this discontinuity represents a "depopulation" of the Iberian Peninsula, possibly because of extreme climate changes.
Perhaps there was a significant decline in populations of H. affinis erectus around this time, leaving the landscape open to a new wave of early hominin migrants. Genetic research suggests there was a bottleneck in human diversity around 900,000 years ago, which also aligns with a substantial gap in African and Eurasian fossil records.
With many questions left to answer, excavations of the Sima del Elefante site continue.
"This discovery heralds another prodigious era for the Atapuerca Project," says José María Bermúdez de Castro, co-director of the Atapuerca Project and co-author of the study.
The study was published in Nature.
Ancestor of Black Death Has Been Discovered in Bronze-Age Sheep
International Women's Day: Female Science Stars to Follow in 2025
Discovery of 1.5-Million-Year-Old Bone Tools Rewrites Early Human History
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
9 hours ago
- Yahoo
Penn State environmental program receives state award
PENNSYLVANIA (WTAJ) — A Penn State program is one of 19 projects that have been granted the 2025 Governor's Awards for Environmental Excellence. The projects were evaluated on their degree of environmental protection, innovation, partnership, economic impact, consideration of climate change, sustainability, and environmental justice, as well as outcomes achieved. SCASD to pay $150k to settle discrimination lawsuit Penn State's Center for Science and the Schools AG Seed-Lings program was one of the awardees. The program is a K-5 educational program funded by a USDA NIFA K-14 grant. It works to teach students about pollination, pollinators and their impact on food security. The program's curriculum consists of 19 STEELS-aligned lessons provided in both English and Spanish. Last year, the program was implemented in 42 school districts and reached over 1,700 students. 'The Environmental Excellence honorees embody the innovative thinking needed to protect our environment and shape a more sustainable future here in Pennsylvania,' Department of Environmental Protection Acting Secretary Jessica Shirley said. 'Together, we will spur the next generation of environmental stewards. These projects showcase our ability to work collaboratively to preserve and protect Pennsylvania's natural resources.' You can read about the other 18 projects and what they're doing for their community on the Department of Environmental Protection website. Copyright 2025 Nexstar Media, Inc. All rights reserved. This material may not be published, broadcast, rewritten, or redistributed.
Yahoo
15 hours ago
- Yahoo
SpliceBio lands $135M for a new kind of eye gene therapy
This story was originally published on BioPharma Dive. To receive daily news and insights, subscribe to our free daily BioPharma Dive newsletter. SpliceBio, a Spanish biotechnology company working on next-generation gene therapies, said Wednesday it raised $135 million in a Series B round to advance its lead program in Stargardt disease into further clinical testing. The startup is built around a technology that's meant to overcome a key limitation of current gene therapies. Scores of gene therapy developers use adeno-associated viruses, or AAVs, to deliver genetic cargo into the body. But because of their small size, AAVs can't carry larger corrective genes, leaving many diseases out of reach or forcing companies to come up with creative solutions. One example is in Duchenne muscular dystrophy. Because of the large size of the gene coding for the muscle-protecting protein dystrophin Duchenne patients lack, several companies, like Sarepta Therapeutics, have developed gene therapies that make a shortened form. The approach comes with drawbacks, however, as a truncated version of the protein might not work as well as the original. SpliceBio has a different workaround. The company is using two separate AAVs to send pieces of a large gene into cells. Once inside, specially engineered splicing molecules help reassemble their cargo into full-length proteins. Stargardt disease, for example, is caused by mutations to the ABCA4 gene, which is too large to stuff into an AAV. SpliceBio says its method can help the body produce a functional version of the protein that gene produces. Its lead program, SB-007, is in a Phase 1/2 trial. SpliceBio isn't the only biotech pursuing this type of approach to treat Stargardt, an inherited eye condition that causes progressive vision loss. Another European company, AAVantgarde, has a similar type of program in early-stage testing. SpliceBio's technology is based on research conducted at Princeton University, where co-founder and CEO Miquel Vila-Perelló was studying protein design and engineering. Launched in 2014 under the name ProteoDesign, the biotech is also working on additional programs in ophthalmology, neurology and other undisclosed therapeutic areas. Its Series B round was co-led by EQT Life Sciences and Sanofi Ventures, and involved seven other backers including Roche Venture Fund, New Enterprise Associates and Novartis Venture Fund. "The support from such high-quality investors underscores the strength of our programs and our unique protein splicing platform and its potential to unlock gene therapies for diseases that remain untreatable today,' Vila-Perelló said in a statement. The company raised €50 million in a Series A round in 2022. Gene and cell therapy startups backed by the roughly two dozen investment firms BioPharma Dive tracks have secured a little over $1.1 billion in venture dollars so far in 2025. Half of those fundings have come in the form of 'megarounds' exceeding $100 million apiece, continuing an ongoing trend. Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
Yahoo
16 hours ago
- Yahoo
New images reveal treasures aboard ‘holy grail' shipwreck
Sign up for CNN's Wonder Theory science newsletter. Explore the universe with news on fascinating discoveries, scientific advancements and more. New research revealing details of gold coins found aboard a shipwreck off Colombia provides further evidence that the vessel was the San José galleon, a 300-year-old Spanish warship believed to contain artifacts worth billions of dollars. Scientists used an unmanned underwater vehicle to survey the wreck and captured images of some of its cargo, according to a study published in the journal Antiquity on Tuesday. They then used photogrammetry to make three-dimensional reconstructions of the coins, revealing a Jerusalem cross and heraldic symbols of the crowns of the Spanish monarchs of Castile and León. They also uncovered symbols showing that the coins were minted in Lima, Peru, in 1707, proving the shipwreck occurred after that date. Historical records show that the San José was part of a shipping fleet known as the Flota de Tierra Firme. It was one of a number of ships in the fleet that left Peru in 1707 carrying a large amount of royal cargo, but records show that it never reached Spain, instead sinking off Colombia following a battle with British forces in 1708. Researchers say the coins strengthen the case that this is indeed the San José, often called the 'holy grail of shipwrecks.' 'Hand-struck, irregularly shaped coins — known as cobs in English and macuquinas in Spanish — served as the primary currency in the Americas for more than two centuries,' lead researcher Daniela Vargas Ariza from Colombia's national history and anthropology institute (ICANH) said in a statement published Tuesday. 'The Tierra Firme Fleet, commanded by the San José Galleon, held the exclusive monopoly on transporting royal treasures between South America and the Iberian Peninsula,' she said. 'This find presents a rare opportunity to explore an underwater archaeological site and deepen our understanding of eighteenth-century maritime trade and routes,' said Vargas Ariza. Study author Jesús Alberto Aldana Mendoza, an archaeologist specializing in underwater cultural heritage, told CNN that it was 'very surprising to find them during our research and to be able to analyze them so closely.' The project 'has been able to study the artifacts from the site like never before, as it has managed to link archaeological material with historical documents,' he added. Since it sank, the ship has lain undisturbed off the coast of the Caribbean port city of Cartagena, despite the historical significance of the artifacts contained in it, which are worth an estimated $17 billion, due to an ongoing multi-billion-dollar legal battle. While the Colombian government maintains that it first discovered the San José in 2015 with help from international scientists, its claims have been disputed by a US-based marine salvage company named Sea Search-Armada (SSA), formerly known as Glocca Morra, which argues that it discovered the shipwreck in the early 1980s. SSA has launched a legal battle against the Colombian government in the international Permanent Court of Arbitration, claiming it is entitled to approximately $10 billion — half the estimated value of the shipwreck's treasure. The Colombian government disputes SSA's claims.
