The Southern Ocean is revealing surprising complexities about how carbon is stored in the deep seas.
A new study by the UK’s National Oceanography Centre (NOC) sheds light on the critical role microscopic algae play in this process, and it challenges long-held assumptions about the biological carbon pump.
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Diatoms, tiny algae with silica-based shells, are known for their unique ability to pull carbon from the atmosphere into the ocean.
This process is especially important in the Southern Ocean, which holds about one-third of the organic carbon stored globally.
These algae were believed to sink into the ocean depths, dragging carbon with them, due to their dense, glass-like structures.
Dr. Sari Giering, Research Lead at NOC, explains: “The ocean plays a key role in the global carbon cycle, with tiny, microscopic plants taking up billions of tons of carbon from the atmosphere every year. For years, it has been believed that this group of plankton – diatoms – play a crucial role in efficiently transporting carbon to the deep ocean, where it is held out of contact with the atmosphere.”
This long-held belief has now been reevaluated by the NOC team.
The biological carbon pump refers to the natural processes that move carbon from the surface to the ocean depths.
Diatoms were thought to be key players in this process, but the study reveals that their skeletons often remain near the surface.
Surprisingly, carbon still makes its way to deeper waters, suggesting other mechanisms are at work.
Dr. Giering highlights this unexpected finding: “We now understand that diatoms are not always contributing as heavily to the Southern Ocean’s carbon pump as we once thought. This means there are unknown or poorly measured processes happening in the deep ocean that we need to learn more about.”
This discovery shifts the focus to other potential pathways for carbon storage in the ocean.
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Ocean warming has been a significant concern, especially in regions like the Southern Ocean.
Warmer waters could reduce diatom populations, potentially weakening the biological carbon pump. However, the study provides some reassurance.
Jack Williams, a researcher at the University of Southampton, explains: “The Southern Ocean is vulnerable to ocean warming, which may alter the availability of nutrients and reduce diatom numbers in the future. But our results suggest these changes may not impact the strength of Southern Ocean carbon storage as much as previously thought.”
The findings suggest that carbon storage mechanisms in the ocean might be more resilient than assumed.
Much of the carbon’s journey occurs in the ocean’s twilight zone, a layer spanning depths of 100 to 1,000 meters. Despite limited light, this zone teems with life and plays a crucial role in carbon sequestration.
In the twilight zone, sinking particles called marine snow—aggregates of organic material, dead plankton, and detritus—carry carbon to the ocean floor. However, the exact processes enabling this descent remain a mystery.
This zone acts as a gatekeeper, controlling how much carbon reaches the deep ocean.
Unveiling these mechanisms is essential for improving climate models and understanding how the ocean might respond to global warming.
The study underscores the importance of continued research into oceanic carbon storage, particularly in poorly understood regions like the twilight zone. It also highlights the resilience of natural systems in the face of environmental changes.
The full study is available in the journal Nature, offering deeper insights into the evolving science of carbon sequestration.
As the Southern Ocean continues to challenge our assumptions, it’s clear that unlocking the mysteries of these hidden processes is vital for shaping future climate strategies.
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