Bangor University’s research vessel, the Prince Madog.
Credit: Bangor University
New research shows that summer storms play a vital role in replenishing deep-water oxygen levels in the UK, which is crucial for maintaining marine health as global warming progresses.
Recent research conducted by oceanographers at the School of Ocean Sciences, Bangor University, has demonstrated the critical role of oxygen ‘mixing down’ in sustaining healthy deep-water environments around the UK and beyond.
The groundbreaking research, published in Nature Communications, demonstrates that the mixing down of oxygen by summer storms is an important process in topping up the deep water oxygen levels in summer, and so in keeping these seas healthy.
Lead author Professor Tom Rippeth of Bangor University explains, “There is growing concern for the health of our coastal oceans as the climate warms because warmer water holds less oxygen. Living creatures in the ocean are reliant on oxygen to survive in the same way as animals on land are. Oxygen is also used up as rotting matter decomposes in the depths of the ocean. This creates a summer oxygen deficit in the deep seas around the UK. Unfortunately, as our climate warms, this deficit is forecast to grow.”
Oxygen Stratification and Research Techniques
The formation of stratification in the summer in the deeper water around the UK isolates the deep water from the atmosphere, which is the main source of oxygen.
The research team, from the School of Oceans Sciences at Bangor University, the University of Liverpool, and the National Oceanography Centre, used novel new techniques developed at Bangor University to estimate oxygen fluxes in the ocean. These new results show that the mixing down of oxygen by summer storms can slow the development of the deepwater oxygen deficit by as much as 50%.
Credit: Bangor University
These new results also have important implications for the proposed mass development of floating wind farms, in places like the Celtic Sea and northern North Sea, in pursuance of NetZero:
“The tidal flow passed from the proposed floating wind turbines will generate a turbulent wake which will mix down oxygen in the summer. This positive impact will improve ocean health. However, this new research highlights the need for the potential impacts of this modiļ¬ed mixing to be considered in the design of turbine foundations and in the spatial planning of new wind farms,” says Professor Rippeth.
These new results also have important implications for the proposed mass development of floating wind farms, in places like the Celtic Sea and northern North Sea, in pursuance of NetZero:
“The tidal flow passed from the proposed floating wind turbines will generate a turbulent wake which will mix down oxygen in the summer. This positive impact will improve ocean health. However, this new research highlights the need for the potential impacts of this modiļ¬ed mixing to be considered in the design of turbine foundations and in the spatial planning of new wind farms,” says Professor Rippeth.
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