Mixing waters up in the Southern Ocean
The Southern Ocean encircles Antarctica and plays a key role in controlling the global climate. It is here that ocean currents return from the abyss to the surface, closing the global ocean overturning circulation. This circulation drives the poleward transport of heat, which is critical to the relatively mild weather here in the UK.
New research by 香港六合彩挂牌资料 and the National Oceanography Centre, Liverpool, has for the first time identified a new process that contributes to this upwelling of abyssal water, a key component of the global overturning circulation.
The research, recently published in the leading American Geophysical Union Journal presents the first direct evidence of a hypothesised mechanism that enables the transport of deep waters to the surface over the Antarctic continental slope.
鈥淭he ocean interior is stratified, with surfaces of constant density separating the layers of water. In the Southern Ocean, strong winds cause these density surfaces to incline, tilting upwards towards Antarctica. It has long been known that the slow, upward diffusion of waters along these density surfaces is unable to account for all upwelling here. It had been hypothesised that another mechanism - the mixing of heat and mass across these density surfaces- might provide a shortcut,鈥 explains Ocean Physics PhD student Jess Mead Silvester.
鈥淚n fact, we observed very high levels of mixing across the density surface that generally separates the upwelling branch of the global overturning circulation from waters that have already been exposed to the surface and which are on their way northwards. This means that waters are short-cutting the longer route via the surface.鈥
鈥淲e believe that the interaction of tidal currents with the sea bed on the steep continental slope provided the energy driving the mixing. We think that this process may be occurring over as much as 30% of the Antarctic continental slope, making a significant contribution to the upwelling, and hence the strength of the global overturning circulation.鈥
Jess鈥 main supervisor, Dr Yueng-Djern Lenn commented:
鈥淥ur ability to predict the strength of ocean overturning and its impact on climate is hindered by poor representation of the mixing processes that facilitate the water mass transformations that drive it. Jess鈥檚 work is of particular significance because it challenges the Southern Ocean paradigm by presenting new evidence of a process that is currently missing in our representation of Southern Ocean mixing. Our results further highlight the continental slope regions as being important players in overturning, and the need to take time-series measurements when attempting to resolve intermittent turbulent mixing processes."
Postgraduate student Jess is a former pupil of Ysgol Brynrefail and Coleg Llandrillo where she gained her International Baccalaureate. She graduated in Geography from 香港六合彩挂牌资料.
This research forms part of Jess Mead Silvester鈥檚 PhD which is supervised by Dr Yueng-Djern Lenn and Professor Tom Rippeth at the , 香港六合彩挂牌资料 and Drs Jeff Polton and Miguel Morales Maquedas at the National Oceanography Centre, Liverpool. The PhD is funded by the Natural Environmental Research Council.
Publication date: 1 December 2014