High-resolution simulations of ocean circulations 34 million years ago are shedding a new light on the 50-year-old question about how and why the Antarctic ice sheets formed.
High-resolution simulations of ocean circulations 34 million years ago are shedding a new light on the 50-year-old question about how and why the Antarctic ice sheets formed. The simulations show that the tectonic opening of Southern Ocean seaways caused a fundamental reorganisation of ocean currents, heat transport and initiated a strong Antarctic surface water cooling of 5 °C. The new study conducted by an international team of researchers has been published in the November 9th issue of Nature Communications.
New research led by Dr Isabel Sauermilch, researcher at Utrecht University, shows that the opening of seaways in the Southern Ocean is closer linked to the formation of the Antarctic ice sheets, than previously thought. The high-resolution ocean simulations show that only a small deepening of the Southern Ocean seaways by a few hundred metres led to a dramatic cooling of the Antarctic surface waters. Together with declining atmospheric carbon dioxide (CO2) concentrations, this tectonic event played a crucial role in the first glaciation of Antarctica and in the Earth’s transition into an Icehouse world.
The last land bridges connecting Antarctica with its surrounding continents, Australia, and South America, broke off about 34 million years ago. This tectonic event did not only leave the polar continent isolated by other land masses; it also led to a major reorganisation of ocean currents in the Southern Ocean. A circumpolar current started to flow preventing subpolar gyres from transporting warm surface waters to the Antarctic coast. At the same time, ice sheets started to build on Antarctica and the Earth underwent one of its most fundamental climate change events, transitioning from warm Greenhouse to cold Icehouse conditions. The role of the opening seaways in the formation of Antarctic ice sheets, versus decreasing amounts of greenhouse gases in the atmosphere, has always been strongly debated.
Read more at Utrecht University
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