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Instability of deep-sea currents over tidal and seasonal timescales

2023 2 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 30 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Ian Kane, Ian Kane, Michael Clare, Ian Kane, Elda Miramontes, Ian Kane, Ian Kane, Ian Kane, Ian Kane, Lewis Bailey, Michael Clare, Ian Kane, Michael Clare, Michael Clare, Michael Clare, Michael Clare, Ian Kane, Elda Miramontes, James E. Hunt Michael Clare, Ian Kane, Ian Kane, Ian Kane, Michael Clare, Ian Kane, Michael Clare, Ian Kane, Ian Kane, Ian Kane, Ian Kane, Ian Kane, Michael Clare, Michael Clare, Michael Clare, Michael Clare, Michael Clare, Michael Clare, James E. Hunt James E. Hunt Ian Kane, Ian Kane, Elda Miramontes, Elda Miramontes, Michael Clare, Michael Clare, Michael Clare, Ian Kane, Michael Clare, Michael Clare, Michael Clare, Elda Miramontes, Marco Fonnesu, James E. Hunt Michael Clare, Elda Miramontes, Ian Kane, James E. Hunt Ian Kane, Ian Kane, Ian Kane, James E. Hunt Elda Miramontes, Marco Fonnesu, Ricardo Argiolas, Ricardo Argiolas, Ian Kane, Ricardo Argiolas, G. Malgesini, Ian Kane, Ricardo Argiolas, G. Malgesini, Ian Kane, Régis Wallerand, Régis Wallerand, G. Malgesini, G. Malgesini, Lewis Bailey, Régis Wallerand, Régis Wallerand, Elda Miramontes, Michael Clare, Ian Kane, Ian Kane, Michael Clare, Michael Clare, Michael Clare, James E. Hunt

Summary

This study found that deep-sea seafloor currents are far more variable over tidal and seasonal timescales than previously thought, overturning the view that they are slow and steady. Dynamic deep-sea currents affect where sediment, carbon, and pollutants like microplastics ultimately accumulate on the ocean floor.

Study Type Environmental

<title>Abstract</title> Seafloor currents, including episodic sediment-laden turbidity flows and more sustained thermohaline-driven bottom currents, control the ultimate fate of sediment, carbon and pollutants in the deep-sea. Collectively, these currents form the largest sediment accumulations on Earth, from which past climate records are reconstructed. A long-standing view has been that thermohaline-driven bottom currents are persistent and stable; however, a paucity of direct near-seabed monitoring means this remains untested at field-scale. Here, using the most spatially-extensive and long-duration (4-yrs) monitoring of bottom currents at 34 deep-sea instrumented moorings, we show that such currents are far from steady and continuous. Bottom currents instead show dynamic, spatial variability in velocity and direction over tidal and seasonal timescales, being strongly influenced by local seabed morphology. Prior lower resolution monitoring has underestimated this spatio-temporal variability of bottom currents; hence our results highlight a need for near-bed measurements to more robustly quantify deep-sea sediment, carbon and pollutant fluxes.

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