Peruvian hairless dogs discovered at ancient site

Bone specimens and a mummified dog provide evidence of their coexistence with humans.

Peer-Reviewed Publication

Dartmouth College

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A puppy skull from Castillo de Huarmey in Peru. This individual was buried with the “Master Basketmaker.” 

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Credit: Photo by Weronika Tomczyk.

Peruvian hairless dogs—a medium-sized elegant Indigenous breed with pointy ears—a variation of which is today known as a Peruvian inca orchid breed by the American Kennel Club, are widely represented in ancient Andean coastal pottery. Celebrated as a national symbol, they were declared part of Peru's cultural heritage in 2000.

A new study published in the Journal of Anthropological Archaeology provides the first physical evidence of Peruvian hairless dogs from the only Wari Empire site found to date, on the coast of northern Peru, known as Castillo de Huarmey.

Situated about 190 miles north of Lima, the 110-acre site is a Wari administrative and funerary complex that existed between 600 and 1050 CE, 400 years before the Inca rose to power.

The site is famous for the discovery of the first undisturbed elite tomb in 2012 with 58 high-status females and 1,300 artifacts and six human sacrifices buried, and the side burials of elite craftsmen with gold and silver and bronze tools in 2022, yielding extraordinary finds and information about the Wari Empire's provincial management.

"Our findings indicate that humans and dogs coexisted at this Wari site, but reconstructing their bond is challenging, as past emotions are difficult to capture through archaeological methods," says first author, Weronika Tomczyk, a research associate in the Department of Anthropology and postdoctoral fellow in the Ecology, Evolution, Environment and Society Program at Dartmouth. “The goal of our study was to not only present data on Castillo de Huarmey’s dog burials, but also emphasize that people in the past had often contradictory relationships with the animals, just as they do today: a pet for one group of people could at the same time be considered a pest by their closest neighbors."

The site’s vicinity is one of the driest, hyper-arid deserts along the Pacific coast, which helped preserve organic materials and artifacts, such as hair, bone, decorated pottery, pigment, clothes, and leather.

One of the many artifacts found was a ceramic vessel in the shape of a seated, anthropomorphized Peruvian hairless dog holding an object resembling an instrument.

The remains of many South American camelids—most likely domesticated llamas and alpacas, which may have been funerary offerings and refuse—were discovered at the site between 2010 and 2025, and the archaeologists also found dog skeletal remains.

Large portions of Castillo de Huarmey have been heavily looted due to the 1970 earthquake, which caused one of the site's sides to collapse, opening up burial chambers with pottery and artifacts. While the deeper, never-looted layer preserved the Wari context, the upper layers where most of the animal remains have been found were intermixed.

As the archaeologists were exploring the northern part of the main ceremonial area, they found three sets of dog skeletal remains that caught their special attention. The first one was a naturally mummified dog skull with its hairless skin visible and ears still attached, painted with cinnabar—a popular pigment used to adorn deceased in ancient Peru. The team also found a larger dog skull, and a naturally mummified male dog skeleton in a shallow pit with only its lower front limbs missing. Initially, the team thought that the dog may have been buried 50 years ago when the looting had occurred, but Tomczyk noticed that the dog was hairless and all three individuals were missing their first premolars.

"What I noticed is that some of the dog skeletons were missing teeth, and not that they lost them during their lifespan; some teeth, especially first premolars and sometimes last molars, had just never erupted,” said Tomczyk. "And then I found in the literature that the same gene which is responsible for hairlessness in dogs is responsible for a reduced number of teeth, indicating that these were Peruvian hairless dogs."

The researchers used standard zooarchaeological methods to estimate how old the dogs were. They also conducted an isotopic analysis of bone and teeth, which provide information about the life of the animal such as what it ate and drank, and where it came from, based on the isotopes of carbon, nitrogen, oxygen, and strontium. The latter element represents the bioavailable geological signals of the region where an individual lived during a formation of specific sampled tissue, so it can be used to infer a provenance or migration patterns. Then, the researchers compared the data to camelid and human data from the site.

"Isotopic analyses of a dog's tooth give a signal of its life as a puppy because dog teeth erupt so fast, and the bone gives a signal of more or less the last year of its life," said Tomczyk. "Such sampling strategy aimed to provide signals from distinct stages of a dog’s life.”

The research team recovered 341 dog bone specimens that are estimated to have come from a minimum of 19 dogs, as well as the complete mummified male dog. These included the bones of a 6- to 8-week-old puppy that were buried with one of the elite craftsman, nicknamed the "Master Basketmaker," bones of an adult dog that were buried in the site’s palace, and bones of a partial puppy skeleton that were buried with a male guardian recorded as XY, who was likely sacrificed as a tomb guardian.

Most of the dogs were adults when they were buried. Some were buried intentionally while others were just found as refuse. And very few had butchery marks indicating that they were not widely consumed.

In radiocarbon dating the mummified dog, the team determined that the dog is at least 1,200 years old, providing the oldest radiocarbon date from Castillo de Huarmey to date, which has important ramifications for the site's chronology.

The isotopic analysis revealed that most dogs consumed some maize—a staple in the Pre-Hispanic Andes, indicating that their diets were similar to those of humans. Moreover, when tested dogs suspected of hairlessness were puppies, their diet was more similar to the diet of children, whereas when they were adults, their diet became more variable.

"We do not know if the dogs were intentionally fed maize or if perhaps, they were just eating leftovers or trash," said Tomczyk. "Yet, the distinct dietary patterns of hairless puppies provide insights into what may have been organized breeding."

"While we will never know if any of the three dogs were pets or how people treated them, it is evident they received different treatment than other dogs," said Tomczyk.

Journal

Journal of Anthropological Archaeology

DOI

10.1016/j.jaa.2026.101767 

 

Historical DNA connects 1.3 million living relatives to 17th-century Maryland settlers

 

and may have identified the colony’s second governor

Analysis of Historic St. Mary’s City highlights the power of combining ancient DNA, archaeology, and genealogy to restore lost identities and track the migrations of America's earliest English colonists and their descendants.

At a Glance:

• DNA analysis of 49 colonists from 17th-century St. Mary’s City reveals over 1.3 million living genetic relatives of Maryland’s founding settlers.

• Researchers used DNA to trace the migration of St. Mary’s colonists from Great Britain and Ireland to Maryland, and subsequent migrations of their descendants across the United States, including a wave of migration of Maryland Catholics to Kentucky following the Revolutionary War. 

• The study uses a novel framework that combines genetic and genealogical information to propose possible identities for previously unknown individuals buried in Historic St. Mary’s City’s Chapel Field cemetery, leading to the possible identification of Maryland’s second governor, Thomas Greene (1609–1651).

As the United States prepares to mark its 250th anniversary, researchers from 23andMe Research Institute, Harvard University, and the Smithsonian Institution have teamed up to study one of the country’s founding settlements: St. Mary’s City, Maryland. 

Established in 1634, St. Mary’s City was the first English settlement in the colony of Maryland. Despite existing written records and the ability of many present-day Americans to trace their ancestry to the historic city, many gaps remain in our knowledge of this early founder population.

Published in Current Biology, the study focuses on the genetic ancestry of 49 colonists who were buried in St. Mary’s City’s Chapel Field cemetery between 1634–1730. 

By studying their DNA, the research team learned about the ancestral origins of this founding population and traced the migration of their descendants across the United States. Using a novel approach that combines genetic connections to research participants in the 23andMe database with self-reported family history information, they even propose possible identities for three previously unknown individuals buried in the cemetery, including Maryland's second governor, Thomas Greene.

“This work highlights the power of ancient DNA analyses to fill in gaps in the historical record,” said co-senior author David Reich, professor of genetics in the Blavatnik Institute at Harvard Medical School and professor of human evolutionary biology in Harvard’s FAS. “While written records are extraordinarily rich, genetic data can still address gaps in that record and yield surprises.” 

Expanding the Calvert Family

"This project has been decades in the making, starting with the excavation of three rare lead coffins from the Brick Chapel," said Douglas Owsley, curator of biological anthropology at the Smithsonian’s National Museum of Natural History. "Years of interdisciplinary research eventually led us to team up with Harvard for DNA analysis, which became the springboard for these incredible new genetic discoveries."

The lead coffins contained the remains of Philip Calvert, his first wife, Anne Wolseley Calvert, and an infant son, who the genetic analysis revealed to be the son of Calvert and his second wife, Jane Sewell. The results of this genetic analysis were released in 2016 as part of a technical report, but are formally published for the first time in this study. 

Philip Calvert, who served as the colony’s fifth governor, was the youngest son of George Calvert, England’s first Baron Baltimore. The prominent Calvert family played a critical role in the founding of the colony of Maryland. The colony was first envisioned by George Calvert as an expansion of the King's realm and a place of religious freedom, especially for persecuted Catholics. The royal charter for the new colony was granted shortly after his death. In 1633, the first settlers set sail for Maryland aboard the ships The Ark and The Dove, led by George’s son Leonard Calvert. The travelers arrived at Maryland’s southern tip in 1634, where they founded St. Mary’s City. While many members of the Calvert family are known to have traveled to St. Mary’s City, only Philip’s burial location has been identified.

When comparing the DNA of Philip Calvert and his wife and son to the 46 other individuals included in this analysis, the research team identified three additional members of the Calvert family. 

“Although additional work is needed to determine exactly how these individuals were related to Philip, this finding is significant given that several members of the extended Calvert family, including Philip’s half-brothers Leonard (1610–1647) and George (1613–1634), died in St. Mary’s during this period,” said Owsley.

The DNA study also identified related individuals belonging to five additional families buried at the site, including one that spanned three generations. “Because mortality was so high in the early days of the colony, finding a multigenerational family was a surprise,” Owsley added. “It’s a discovery that simply wouldn’t have been possible without genetic study.”

DNA helps trace historic migrations

By studying patterns of genetic sharing between the St. Mary’s individuals and over 11.5 million research participants in the 23andMe genetic database, the researchers were able to identify the likely places of origin for many of the colonial city’s earliest inhabitants. The majority of these individuals share the strongest connection with participants from Great Britain, particularly in western England and Wales, while several appear genetically Irish.

Further, by examining patterns of sharing across the United States, they discovered a strong genetic signal that mirrored a documented migration of Catholics from Maryland to Kentucky that primarily occurred between 1780–1820, driven by economic pressures and anti-Catholic bias in Maryland.

"Detecting such a clear genetic signal of this documented historical migration to Kentucky highlights the power of our approach,” said Éadaoin Harney, Senior Scientist, Population Genetics Research and Development at 23andMe Research Institute. 

Possible identification of the colony of Maryland’s second governor, Thomas Greene (1609–1651) 

By focusing on research participants who shared the strongest genetic connections to the St. Mary’s individuals, and inviting them to share details of their family histories, the research team tackled a novel problem: identifying otherwise unknown individuals by harnessing their genetic connections to living people. 

Focusing on the burials of three related individuals identified at the site, researchers collected genealogical information from study participants who shared the strongest genetic connections to these individuals. By searching for overlaps in their family trees and integrating other anthropological information, the research team concluded that the most probable candidates for the identities of these individuals are Governor Thomas Greene, second governor of the colony of Maryland, his first wife Anne, and their son, Leonard. 

“This is the first time that ancient DNA has been used to help identify unknown individuals, without any prior knowledge of who they might have been. And it just so happens that one of those individuals turned out to be one of colonial Maryland’s most prominent figures” said Harney.

“We didn’t go into this study searching for Thomas Greene, but when the genetics team brought this name to me, it was remarkable how well the historical and archaeological records supported this potential identification,” said Henry Miller, Senior Research Fellow at Historic St. Mary’s City. “There is more work to be done to confirm his identity, but this genetic analysis was the key we needed to unlock this finding.”  

“The possibilities that this kind of approach holds for enabling future reidentifications of historical individuals are truly exciting,” said Reich.

Honoring America's 250th Anniversary through DNA

As the United States approaches its 250th anniversary, this research underscores the enduring connections between the nation's earliest European settlers and millions of living Americans. The project relied not just on cutting-edge science, but on the active support of the early Maryland descendant community, including those who trace their lineage to the original Ark and Dove voyage.

"Community collaboration is at the heart of this work," concluded Miller. "The descendant community has championed this research from the beginning, and this genetic analysis allows us to directly link our archaeological findings with the living people who represent that enduring legacy today. It is incredibly meaningful as we reflect on the founding of our country."

Researchers reveal new clues about H. erectus evolution

 

Scientists from the Institute of Vertebrate Paleontology and Paleoanthropology (IVPP) of the Chinese Academy of Sciences have uncovered new information suggesting a potential connection between Homo erectus and modern humans, while also developing new, less invasive paleoproteomics methods of fossil research.

Homo erectus, or H. erectus, was the first species within the genus Homo to leave Africa, occupying a key position in human evolutionary history. However, due to the lack of molecular evidence from H. erectus, their genetic characteristics, population diversity, and especially their potential connections to modern humans remain unresolved. As a result, the role of H. erectus represents a major mystery and a focal point of debate in human evolution.

Molecular research on H. erectus remains has been limited because ancient human fossils are irreplaceable and a precious cultural heritage. For this reason, traditional destructive sampling methods are unacceptable and have long constrained the progress of relevant molecular research.

Now, however, the research team, led by FU Qiaomei from IVPP in collaboration with multiple institutions, has overcome this bottleneck by employing a micro-destructive sampling approach based on acid etching to recover molecular information from six Homo erectus teeth without damaging their morphology.

The team’s findings were published online in Nature on May 13.

The article was also accompanied by a concurrent commentary in Nature, which highlighted the role of enamel proteins from these six H. erectus teeth from China in providing “new insights into how ancient genetic material was eventually introduced into modern human populations.” 

The researchers identified two mutations from the fossil teeth, dating back to at least 400,000 years ago, from three different sites—Zhoukoudian (Peking Man), Hexian, and Sunjiadong. The mutations suggest genetic links between East Asian H. erectus and Denisovans, which themselves are linked to modern humans.

The first is the previously unknown AMBN-A253G mutation, which was identified as a potential molecular marker associated with these H. erectus populations. It provides the first evidence that H. erectus specimens from these three sites belonged to the same evolutionary population.

The second is the AMBN-M273V variant, previously thought to be specific to Denisovans. However, this study reveals that this variant is not unique to Denisovans but is shared by these H. erectus populations.

According to the researchers, the second variant may have entered the Denisovan lineage through admixture and was subsequently passed to some modern human populations (in Southeast Asia and Oceania) via Denisovan introgression. This provides the first insights into a possible connection between East Asian H. erectus (such as those from Zhoukoudian) and Denisovans, as well as the potential deep genetic links to some present-day modern humans.

Additionally, the study establishes a suite of new experimental and computational methodologies, including a sex determination method for ancient hominins based on the male-specific enamel protein AMELY, a cross-validation approach using tandem mass spectrometry and multiple data analysis pipelines, and DNA analysis methods linked to specific amino acid variants. Together, these tools provide a new framework for systematic paleoproteomics research.

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Journal

Nature

DOI

10.1038/s41586-026-10478-8 

Neanderthal dentists used stone drills to treat cavities nearly 60,000 years ago

 

A tooth from a Russian cave provides the oldest evidence of complex dental care

Peer-Reviewed Publication

PLOS

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Chagyrskaya 64 molar tooth and its macro-features: General view of the tooth in five projections.

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Credit: Zubova et al., 2026, PLOS One, CC-BY 4.0 (https://creativecommons.org/licenses/by/4.0/)

Neanderthals had the know-how to identify a tooth infection and the motor skills to drill out the damage, according to a study published May 13, 2026 in the open-access journal PLOS One by Alisa Zubova of Peter the Great Museum of Anthropology and Ethnography, Russian Academy of Sciences (Kunstkamera), St. Petersburg, and colleagues.

Archaeological discoveries have shown that Neanderthals used toothpicks to remove food from their teeth and might also have used medicinal plants, but the extent of their medical capabilities is unclear. In this study, Zubova and colleagues describe a Neanderthal tooth which received physical alterations to treat infection.

This tooth is a single molar from Chagyrskaya Cave in Russia, around 59,000 years old. In the center of the tooth is a deep hole extending into the pulp cavity. The researchers conducted experiments on three modern human teeth to demonstrate that a hole of the same shape and same patterns of microscopic grooves can be created by drilling into the tooth with a stone point similar to tools that have been found within Chagyrskaya Cave. The hole in this damaged molar, as well as toothpick grooves along the side of the tooth, is an example of a caries lesion in the same population, which is rare among Neanderthals.

This procedure would have hurt, but it would also have ultimately alleviated the pain of a tooth infection by removing the damaged part of the tooth. These modifications provide evidence that Neanderthals had the capacity to identify the source of pain, to determine how to treat it, to apply the manual dexterity needed for an efficient operation, and to endure painful treatment to alleviate future discomfort. This is the first time such behavior has been demonstrated outside of Homo sapiens, and it is the oldest example of such behavior by more than 40,000 years.

The authors add: “This finding currently represents the world's oldest evidence of successful dental treatment. The damage documented on the Neanderthal tooth from Chagyrskaya Cave in Siberia points not only to intentional pulp removal but also to antemortem wear - wear that could only have developed if the individual kept using the tooth while alive. We also identified areas of demineralization where remnants of carious damage were preserved, further indicating that the concavity in the tooth was associated with treatment.”

Alisa Zubova adds: "We were intrigued by the unusual shape of the concavity on the tooth's chewing surface. It differed from the normal morphology of the pulp chamber and did not match the typical pattern of carious lesions seen in Homo sapiens. Moreover, distinctly visible scratches suggested that the concavity was not the result of natural damage but of intentional actions."

"Computed microtomography revealed changes in dentin mineralization consistent with severe caries. Human manipulation of carious lesions has already been documented for the Upper Paleolithic, Mesolithic, and later periods. We therefore hypothesized that the damage we observed could also represent traces of such medical intervention - but from a significantly earlier period."

Lydia Zotkina adds: “To interpret the concavity on the occlusal surface of the tooth, we conducted experimental manual drilling on a series of specimens: a modern human tooth and two Homo sapiens teeth from a Holocene archaeological collection of uncertain temporal and cultural provenance. Comparison of the microscopic traces on the original Neanderthal specimen with those produced experimentally revealed a clear match. The findings demonstrate that drilling a carious lesion using a sharp, thin stone tool is entirely effective, permitting the rapid removal of damaged dental tissue.”

Ksenia Kolobova adds: “Neanderthals arrived in this region 70–60 thousand years ago during a migration from Central and Eastern Europe and inhabited it until at least 40–45 thousand years ago. Altai became a new and suitable home for them thanks to its biological diversity, climate similar to that of Europe, abundant raw materials for stone tool production, and their usual prey - wild bison and horses. Analysis of stone tool industries and paleogenetic studies have shown that the Neanderthals from Chagyrskaya Cave are very closely related to the bearers of the so-called Micoquian industry, who also lived in the Caucasus and Crimea.”

 

The freely available article in PLOS One: https://plos.io/429tPn

Prehistoric Danish people continued to eat fish and hunt even after the rise of agriculture

 

Agriculture reached the coast of southern Denmark around 4000 BCE, but these prehistoric Scandinavians continued to fish and hunt too, according to a study published May 13, 2026 in the open-access journal PLOS One by Daniel Groß from the Museum Lolland-Falster, Denmark, Sofie Folsach Hellerøe from Aarhaus University, Denmark, and colleagues.

The coast of southern Denmark features archeological sites revealing a rich history of human habitation across millennia. In this study, the research team analyzed aquatic and land animal remains from the Syltholm Fjord on the island of Lolland, including samples dating back to the transition from the Mesolithic to the Early Neolithic (roughly 4500 - 3500 BCE), the Middle Neolithic (3500 - 2800 BCE), the Late Neolithic (2800 - 1800 BCE) and into the Bronze Age, from 1800 - 800 BCE. The samples spanned the introduction of agriculture into the region, around 4000 BCE.

Remains from domestic animals such as cattle were found in all of these eras, indicating an introduction of agricultural practices. However, remains from fish also showed up consistently, suggesting that fish were a part of the human diet during each of these periods. Flatfish like flounder made up a large proportion of the fish remains from all eras, as did eels, which were commonly found in all eras except the Late Neolithic, when settlement activity in the area may have been lower. The researchers suggest that fishers here targeted the same species for thousands of years — and that their fishing practices may have been sustainable for generations.

Land animal composition fluctuated a little more. Remains from deer were more common from around 3000 BCE, for example, potentially due to a resurgence of hunting amid cultural changes in Denmark around this time. The researchers also noted that species diversity declined between around 4000 and 3000 BCE, possibly as a result of increased human pressure on the ecosystem, before stabilizing.

The researchers believe that their findings challenge the notion of an abrupt Neolithic transition to eating domesticated animals, illustrating instead a more diverse dietary strategy integrating fishing and hunting alongside agricultural practices over millennia.

Dr. Daniel Groß adds: “Even though people were fishing in the fjord for millennia, their impact on the environment was not clearly traceable. This research indicates that Neolithic fishing was sustainable, to a degree.”

“The introduction of livestock is often considered a major change in subsistence strategies, yet we do not see any significant changes in other areas of food production – fish just continued to be a relevant food source.”

“At Syltholm Fjord, the introduction of Neolithic traditions did not alter the composition of food as much as earlier assumed, whereas the changing landscape does translate in the archaeological datasets.”

“Our analysis shows that it is important to incorporate different perspectives and datasets of different character into reconstructing the past.”

The freely available article in PLOS One: https://plos.io/4n3bceo

The first domesticated horses: 6,000 years of a complex story

Horses were being ridden, worked, and traded long before anyone thought it possible. New research pushes back the accepted timeline of human use of horses by centuries, showing that humans used horses in organized ways as early as the 4th millennium BCE,

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Archaeological, osteo-zoological and ancient DNA evidence reveals that three distinct horse populations – DOM1, DOM2, and DOM3 – once ranged from western Siberia to Central Europe. Early taming efforts occurred independently across regions and populations around 3500–3000 BCE, if not centuries earlier. Shortly before 3000 BCE, Yamnaya people were already riding DOM2 horses and bringing these into the western regions. However, only horses from the DOM2 population were fully domesticated between 2200 and 2100 BCE. These horses, spread by mobile human groups, rapidly expanded across Eurasia and into the Middle East, becoming the ancestors of all modern domestic horses.

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Credit: Jani Närhi

Taming and domestication were not single events. They were a slow, stop-start process, full of setbacks, playing out over generations and across vast regions, before full domestication set in shortly before 2000 BCE.

"Horses were already being used in sophisticated, widespread ways before we could pin down full domestication. That gap reshapes how we understand human history," says
Professor Volker Heyd, co-lead author of the research.

“The role of horses in major historical developments is almost too vast to measure, hence the saying that the world was conquered on horseback,” Heyd says.

From the sweeping movements of Eurasian nomadic groups such as the Huns, Avars, Magyars, and the Mongol Empire, to their decisive use in warfare (well into World Wars I and II), horses have been central to human conflict and expansion. They also accompanied conquistadors over the Atlantic to the Americas and served as the primary means of transport across much of the world until the rise of industrialisation and motorisation.

The wheel, the horse, and the words we still speak

Today, truly wild horses no longer exist. Even Przewalski's horse, long held up as a living relic of the wild, is now known to descend from early domesticated populations, showing how deeply humans have shaped horse populations over time.

The timing matters. Around 3,500 to 3,000 BCE, steppe populations began pushing east and west across Eurasia. They brought the wheel with them. Cattle pulled the first wagons. Horses came at the same time. A rider could cover ground in hours that a wagon took days to cross but both were key innovations in mobility and transport, revolutionizing human society.

Researchers now link that leap in mobility to the spread of Proto-Indo-European languages. The horse carried people. And with them, words. The languages spoken across much of Europe and Asia today trace back to those early riders and wagon drivers.

“Today, horses are a source of attraction, companionship, and friendship for many people. Therefore, it is important to learn about the earliest stages of human–horse relationships and how this unique partnership first emerged,” Volker Heyd says.

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Journal

Science Advance

DOI

10.1126/sciadv.ady7336