Southern Ocean storms cause outgassing of carbon dioxide

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Storms over the waters around Antarctica drive an outgassing of carbon dioxide into the atmosphere, according to a new international study with researchers from the University of Gothenburg. The research group used advanced ocean robots for the study, which provides a better understanding of climate change and can lead to better global climate models.

The world's southernmost ocean, the Southern Ocean that surrounds Antarctica, plays an important role in the global climate because its waters contain large amounts of carbon dioxide. A new international study, in which researchers from the University of Gothenburg participated, has examined the complex processes driving air-sea fluxes of gasses, such as carbon dioxide.

Storms bring carbon dioxide-rich waters to the surface
The research group is now delivering new findings that shed light on the area's important role in climate change.

“We show how the intense storms that often occur in the region increase ocean mixing and bring carbon dioxide-rich waters from the deep to the surface. This drives an outgassing of carbon dioxide from the ocean to the atmosphere. There has been a lack of knowledge about these complex processes, so the study is an important key to understanding the Southern Ocean's significance for the climate and the global carbon budget”, says Sebastiaan Swart, professor of oceanography at the University of Gothenburg and co-author of the study.

Facilitates better climate models
Half of all carbon dioxide bound in the world's oceans is found in the Southern Ocean. At the same time, climate change is expected to result in more intense storms in the future. Therefore, it is vital to understand the storms' impact on the outgassing of carbon dioxide into the atmosphere, the researchers point out.

“This knowledge is necessary to be able to make more accurate predictions about future climate change. Currently, these environmental processes are not captured by global climate models”, says Marcel du Plessis at the University of Gothenburg, who also participated in the study.

Pioneering ocean robotics
Measuring the inaccessible and stormy waters around Antarctica for a long period of time is a real challenge, which the researchers tackled with the help of unique robot technology. For several months, autonomous ocean robots; drones and ocean gliders, collected data from the surface and through to depths of one kilometer.

“This pioneering technology gave us the opportunity to collect data with long endurance, which would not have been possible via a research vessel. Thanks to these ocean robots we can now fill important knowledge gaps and gain a better understanding of the importance of the ocean for the climate, says Sebastiaan Swart.

Title: "Storms drive outgassing of CO2 in the subpolar Southern Ocean" The article has been published in Nature Communications

Contact: Sebastiaan Swart, Professor of Oceanography at the University of Gothenburg, Department of Marine Sciences. Phone: 0046 723 667672, E-mail: sebastiaan.swart@marine.gu.se

About the research
The international study was carried out in a collaboration between Sebastiaan Swart and Marcel du Plessis at the Department of Marine Sciences at the University of Gothenburg and, among others, CSIR (Council for Scientific and Industrial Research) in South Africa. The first author is Sarah Nicholson at CSIR.

The contributions to the study from University of Gothenburg have been supported by the Knut and Alice Wallenberg Foundation through the Wallenberg Academy Fellows Program and the Swedish Research Council.

Photos
Wave Glider, photographer: Fred Fourie
Slocum glider, photographer: Sea Technology Services
Photo of Sebastiaan Swart, photographer: Sofia Sabel

Ulrika Ernström
Press officer
Faculty of Science, University of Gothenburg
Phone: 0046 31-786 6970, 0046 766-186970

E-mail: ulrika.ernstrom@science.gu.se

University of Gothenburg is one of the major universities in Europe, with about 53 500 students and a staff of 6 500. Its eight faculties offer training in the Creative Arts, Social Sciences, Natural Sciences, Humanities, Education, Information Technology, Business, Economics and Law, and Health Sciences. The University’s unique breadth in education and research provides an interdisciplinary environment conducive to collaboration with private enterprise and public institutions. The quality of the University has earned recognition in the form of numerous awards, including a Nobel Prize, and a steady stream of applicants at all levels.

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There has been a lack of knowledge about these complex processes, so the study is an important key to understanding the Southern Ocean's significance for the climate.
Sebastiaan Swart