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Highly variable deep-sea currents over tidal and seasonal timescales
Summary
Researchers used advanced deep-sea monitoring to study how near-bed ocean currents vary over tidal and seasonal timescales on the continental slope. They found that these currents are far more variable than previously assumed, with implications for how sediment, organic carbon, and pollutants including microplastics are transported across the deep ocean floor. The study improves understanding of the physical processes that control where contaminants accumulate in deep-sea environments.
Abstract Deep-sea transport of sediment and associated matter, such as organic carbon, nutrients and pollutants, is controlled by near-bed currents. On the continental slope, these currents include episodic down-slope gravity-driven turbidity currents and more sustained thermohaline-driven along-slope contour currents. Recent advancements in deep-sea monitoring have catalysed a step change in our understanding of turbidity currents and contour currents individually. However, these processes rarely operate in isolation and the near-bed current regime is still to be quantified in a mixed system. Such measurements are crucial for understanding deep-sea particulate transport, calibrating numerical models and reconstructing palaeoflow. Here we use 4 years of observations from 34 instrument moorings in a mixed system offshore of Mozambique to show that near-bed currents are highly dynamic. We observe spatial variability in velocity over tidal and seasonal timescales, including reversals in current direction, and a strong steering and funnelling influence by local seabed morphology. The observed near-bed currents are capable of mobilizing and distributing sediments across the seabed, therefore complicating deep-sea particulate transport and reconstruction of palaeoceanographic conditions.
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