Wolf DNA lurks in many modern dog breeds

Archaeologists have identified the oldest genetically confirmed dog remains from a site in Turkey dating back 15,800 years, pushing the timeline for canine domestication by about 5,000 years. Additional remains from the UK, around 14,300 years old, show dogs were widespread across Europe during the hunter-gatherer era. The findings suggest early humans spread domesticated dogs through cultural exchanges.

16 maggio 2026 Riportato dall'IA

In the remote heights of Ladakh, Himalayan wolves are breeding with feral dogs to create hybrids known as khipshang. These animals are raising alarms among conservationists and locals due to their boldness and potential to outcompete native species. The development comes amid rapid environmental changes in the region.

A large-scale genetic analysis has identified a previously overlooked third ancestral group in Japan, challenging the long-held dual origins theory. Researchers linked the new ancestry to the ancient Emishi people of northeastern Japan. The findings also connect archaic DNA from Neanderthals and Denisovans to modern health conditions.

19 febbraio 2026 Riportato dall'IA

Researchers at Uppsala University have used ancient DNA to reveal that Stone Age burials in Sweden involved extended family members beyond immediate relatives. Analysis of shared graves at the Ajvide site on Gotland shows second- and third-degree kin were often buried together, suggesting strong community ties. The findings challenge assumptions about simple family structures in hunter-gatherer societies 5,500 years ago.

Scientists are using DNA testing to identify the plant sources of honey, detect adulteration, and reveal hive pathogens. This method helps distinguish pure local honey from imported or syrup-contaminated products. Advances in genetic sequencing are making these detections more accurate and accessible.

09 aprile 2026 Riportato dall'IA

Scientists have found genetic evidence that modern humans reached New Guinea and Australia around 60,000 years ago, backing the long chronology over more recent estimates. The international team, led by researchers at the University of Huddersfield and the University of Southampton, analyzed nearly 2,500 mitochondrial DNA genomes from Aboriginal Australians, New Guineans, and Southeast Asian populations. Their work suggests early migrants used at least two routes through Southeast Asia.