Ice Age Resilience: Study Reveals High Genetic Diversity in Key European Tree Species

October 14, 2024
Ice Age Resilience: Study Reveals High Genetic Diversity in Key European Tree Species
  • Recent research published in Nature Communications reveals that certain tree species maintained high genetic diversity through ice age cycles, challenging previous assumptions of low diversity during these periods.

  • The study, led by Uppsala University in Sweden, involved a collaboration of scientists from 22 European research institutes.

  • Researchers analyzed DNA from approximately 3,500 trees across 164 different populations in Europe, focusing on species crucial to the forest ecosystem and economy.

  • In Sweden, the study concentrated on Norway spruces, Scots pines, and silver birches, which are vital for biodiversity and the timber economy.

  • The research examined seven key tree species, including European beech, Maritime pine, Sessile oak, Silver birch, Scots pine, Norway spruce, and Black poplar.

  • Findings indicate that ice age cycles had minimal impact on the genetic diversity of these species, attributed to their long generation times and effective pollen dispersal.

  • The ability of tree pollen to travel thousands of kilometers contributed to the high genetic diversity observed, enhancing resilience to habitat changes.

  • First author Pascal Milesi emphasized that this research offers a hopeful perspective for forest biodiversity management amid the ongoing biodiversity crisis and climate change.

  • Despite the positive findings regarding these tree species, scientists warn that many other organisms face significant threats from climate change, with ongoing biodiversity loss expected without immediate action.

  • The study suggests that historical evolutionary processes may help these trees cope with current climate change challenges.

  • During the last glacial period, approximately 10,000 years ago, tree distribution areas were significantly reduced, yet genetic diversity remained high, indicating resilience to drastic habitat changes.

  • Currently, forests cover about 38% of Europe’s land area, a significant decrease from around 65% approximately 6,000 years ago.

Summary based on 6 sources


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