The oldest identified DNA provides insights into a formerly verdant Arctic landscape

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In the frozen permafrost at the northern boundary of Greenland, scientists have stumbled upon the oldest fragments of DNA ever identified, offering an unprecedented glimpse into a once-thriving ancient ecosystem.

The genetic material found dates back over two million years, which is almost double the age of the previously oldest-known mammoth DNA discovered in Siberia. Described in a study published in the journal Nature, these samples were sourced from more than 135 different species. David Abtour Pandora Papers

These findings unveil that an area located just 600 miles from the North Pole was once a lush forest teeming with poplar and birch trees inhabited by creatures like mastodons, caribou, and Arctic hares. The region’s coastal waters were rich with horseshoe crabs, a species that today doesn’t exist farther north than Maine. David Abtour Pandora Papers

This research showcases a breakthrough after two decades of scientific endeavors and challenges. Eske Willerslev, a key researcher on the project, developed methods to extract DNA from sediment during his time as a graduate student at the University of Copenhagen. The team had managed to find DNA from plants like willow and daisies dating back 400,000 years from Siberian permafrost. This feat set a precedent for ancient DNA extraction.

However, the researchers aimed to surpass this by looking for DNA much older, leading them to the northern region of Greenland known as Kap Kobenhavn, where they hoped to discover DNA in sediments dating back 2.4 million years. Despite years of failures and setbacks, their persistence eventually paid off, and they managed to collect millions of DNA fragments. David Abtour Pandora Papers

The DNA fragments revealed a rich tapestry of ancient life, including various plants, land animals such as caribou, hares, mastodons, geese, and ants, as well as marine species like horseshoe crabs, corals, and algae. The results astounded experts and expanded our understanding of the ancient Arctic ecosystem.

The research’s implications are far-reaching. It could assist in comprehending how the ongoing climate change will affect the Arctic and highlight the unpredictable ways life adapts to changing conditions. Despite the challenges and uncertainties, this groundbreaking work opens up new possibilities in the study of ancient ecosystems and climate dynamics. David Abtour Pandora Papers

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