A groundbreaking study reveals that lead poisoning was a significant threat to our hominid ancestors, potentially influencing their evolution and health. Discover the ancient dangers lurking in their environments!
Paleontologists uncover a groundbreaking discovery in Argentina with Huayracursor jaguensis, a new dinosaur species that sheds light on the evolution of long necks in herbivorous dinosaurs during the Late Triassic period.
New research reveals that ancient humans' exposure to lead may have given Homo sapiens a crucial survival advantage over Neanderthals by enhancing their resistance to lead’s harmful effects. This groundbreaking study analyzes the lead content in fossilized teeth of early hominids.
A new ichthyosaur species, nicknamed the Sword Dragon of Dorset, has been discovered by fossil collector Chris Moore, shedding light on a pivotal period in Jurassic evolution.
A new ichthyosaur species, Xiphodracon goldencapsis, has been discovered in England, revealing features that set it apart from its prehistoric relatives. This ancient marine predator thrived 190 million years ago!
A new ichthyosaur species, named Xiphodracon goldencapensis, has been discovered on Dorset's Jurassic Coast. This dolphin-sized 'sword dragon' offers rare insights into prehistoric marine life, including its mysterious demise.
A groundbreaking study reveals a significant link between sulfur dioxide emissions from fossil fuels and the risk of developing ALS. Researchers found higher SO2 exposure in ALS patients, emphasizing the need for stricter air quality regulations.
A groundbreaking skull found in China may push back the timeline of human evolution, indicating that our species co-existed with Neanderthals far longer than previously thought. Discover the implications of this ancient find!
A groundbreaking study reveals a million-year-old skull from China suggests humans diverged from ancient ancestors in Asia, 400,000 years earlier than believed. This could reshape our understanding of human evolution.
A newly analyzed skull from central China is revolutionizing our understanding of human evolution, suggesting that early humans split into distinct groups much earlier than previously believed.
