Reframing the polar Southern Ocean carbon cycle

MacGilchrist, G. A. and Naveira Garabato, A. C. and Brown, P. J. and Jullion, L. and Bacon, S. and Bakker, D. C. E. and Hoppema, M. and Meredith, M. P. and Torres-Valdes, S.


abstract: Global climate is critically sensitive to physical and biogeochemical dynamics in the subpolar Southern Ocean, since it is here that deep, carbon-rich layers of the world ocean outcrop and exchange carbon with the atmosphere. Here, we present evidence that the conventional framework for the subpolar Southern Ocean carbon cycle, which attributes a dominant role to the vertical overturning circulation and shelf-sea processes, fundamentally misrepresents the drivers of regional carbon uptake. Observations in the Weddell Gyre—a key representative region of the subpolar Southern Ocean—show that the rate of carbon uptake is set by an interplay between the Gyre’s horizontal circulation and the remineralization at mid-depths of organic carbon sourced from biological production in the central gyre. These results demonstrate that reframing the carbon cycle of the subpolar Southern Ocean is an essential step to better define its role in past and future climate change.

@article{MacGilchrist-etal-2019,
  author = {MacGilchrist, G. A. and Naveira~Garabato, A. C. and Brown, P. J. and Jullion, L. and Bacon, S. and Bakker, D. C. E. and Hoppema, M. and Meredith, M. P. and Torres-Valdes, S.},
  title = {Reframing the polar {Southern Ocean} carbon cycle},
  journal = {Science Adv.},
  year = {2019}
}