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Switching on the Atlantic Ocean heat pump

Date:
August 22, 2019
Source:
Stockholm University
Summary:
34 million years ago the warm 'greenhouse climate' of the dinosaur age ended and the colder 'icehouse climate' of today commenced. Antarctica glaciated first and geological data imply that the Atlantic meridional overturning circulation, the global ocean conveyor belt of heat and nutrients that today helps keep Europe warm, also started at this time. Why exactly, has remained a mystery.
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34 million years ago the warm 'greenhouse climate' of the dinosaur age ended and the colder 'icehouse climate' of today commenced. Antarctica glaciated first and geological data imply that the Atlantic meridional overturning circulation, the global ocean conveyor belt of heat and nutrients that today helps keep Europe warm, also started at this time. Why exactly, has remained a mystery.

"We have found a new trigger to explain the start-up of the Atlantic current system during the greenhouse-icehouse climate transition: During the warm climate, buoyant fresh water flooded out of the Arctic and prevented the ocean-sinking that helps power the conveyor. We found that the Arctic-Atlantic gateway closed due to tectonic forces, causing a dramatic increase in North Atlantic salinity. This caused warming of the North Atlantic and Europe, and kickstarted the modern circulation that keeps Europe warm today," says David Hutchinson, researcher at the Department of Geological Sciences, Stockholm University, and lead author of the article published in Nature Communications.

The team of scientists, from the Bolin Centre for Climate Research, used a combination of geophysical data and climate modelling to show that the freshwater transport through the Arctic-Atlantic gateway plays a critical role in controlling the overturning circulation.

"Not only did deep water start forming in the Atlantic Ocean, it also stopped forming in the North Pacific at the same time, which matches geological evidence. We were surprised to find that our computer simulations can explain both of these changes due to salty ocean currents connecting the Pacific to the Atlantic. Our study is the first to show that these two events are linked, which is very exciting," says Hutchinson.

The climate at this time was very warm, with atmospheric CO2 levels two to three times the present day levels, and this contributed to extremely fresh Arctic waters. The study begs the question of whether in a future warm world, in which the Arctic may again be very fresh, the sinking in the Atlantic may cease again, which may dramatically alter the climate of Europe. Without the Atlantic conveyor belt, Europe can experience both colder winters and hotter and drier summers, making a more extreme and inhospitable climate.

"Our study helps to bridge the gap between climate modelling and geological observations of the deep past. We hope this will inspire further research from both communities on the deep circulation of the ocean," says Hutchinson.


Story Source:

Materials provided by Stockholm University. Note: Content may be edited for style and length.


Journal Reference:

  1. David K. Hutchinson, Helen K. Coxall, Matt OʹRegan, Johan Nilsson, Rodrigo Caballero, Agatha M. de Boer. Arctic closure as a trigger for Atlantic overturning at the Eocene-Oligocene Transition. Nature Communications, 2019; 10 (1) DOI: 10.1038/s41467-019-11828-z

Cite This Page:

Stockholm University. "Switching on the Atlantic Ocean heat pump." ScienceDaily. ScienceDaily, 22 August 2019. <www.sciencedaily.com/releases/2019/08/190822081156.htm>.
Stockholm University. (2019, August 22). Switching on the Atlantic Ocean heat pump. ScienceDaily. Retrieved March 28, 2024 from www.sciencedaily.com/releases/2019/08/190822081156.htm
Stockholm University. "Switching on the Atlantic Ocean heat pump." ScienceDaily. www.sciencedaily.com/releases/2019/08/190822081156.htm (accessed March 28, 2024).

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