Broullón, E 
ORCID: 0000-0002-6487-5792, Castro, BF, Garabato, ACN, Clément, L, Oltmanns, M and Williams, RG
(2026)
Isopycnal Stirring and Diapycnal Mixing in the Eastern North Atlantic Inferred from Argo Observations
Journal of Physical Oceanography, 56 (3).
pp. 627-641.
ISSN 0022-3670, 1520-0485
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phoc-JPO-D-25-0090.1.pdf - Author Accepted Manuscript Available under License Creative Commons Attribution. Download (5MB) | Preview |
Abstract
The variability of isopycnal stirring and diapycnal mixing associated with mesoscale and microscale turbulence, respectively, is assessed using Argo float observations in the eastern subtropical North Atlantic. A new method is introduced combining a finescale parameterization with a triple decomposition framework to separate isopycnal stirring and diapycnal mixing. Our approach is validated by comparing with microstructure measurements from an independent North Atlantic tracer release experiment in the 1990s. Both sets of diagnostics reveal that diapycnal mixing dominates in the upper thermocline and that isopycnal stirring prevails in deeper, intermediate layers, influenced by Mediterranean Outflow Water. The analysis of Argo data for years 2014–24 reveals substantial interannual variations in stirring and mixing rates and in the relative contributions of mesoscale and microscale processes to thermohaline variance dissipation, which persisted in time (~3 yr) and across isopycnal layers (26.75–27.5 kg m-3). A shift in the relative contributions to the variance dissipation occurred over the period, with more prevalent isopycnal stirring in the thermocline after 2018. This enhancement of isopycnal stirring, which concurred with lower isopycnal diffusivities, is attributed to increased property gradient along-isopycnals induced by a large-scale cooling and freshening of the eastern subtropical North Atlantic. Our results highlight how property contrasts in the thermocline, induced originally by ocean ventilation, are modified by isopycnal stirring and diapycnal mixing. This application of finescale parameterizations constitutes a powerful tool that has the potential to capture and quantify the temporal evolution of isopycnal stirring and diapycnal mixing rates from Argo observations across the global ocean.
| Item Type: | Article |
|---|---|
| Uncontrolled Keywords: | North Atlantic Ocean, Diapycnal mixing, Mixing, Turbulence, Isopycnal mixing, Ventilation |
| Divisions: | Faculty of Science & Engineering Faculty of Science & Engineering > School of Environmental Sciences Faculty of Science & Engineering > School of Environmental Sciences > Earth, Ocean and Ecological Sciences |
| Depositing User: | Symplectic Admin |
| Date Deposited: | 29 Jan 2026 09:12 |
| Last Modified: | 05 Mar 2026 05:35 |
| DOI: | 10.1175/JPO-D-25-0090.1 |
| Related Websites: | |
| URI: | https://livrepository.liverpool.ac.uk/id/eprint/3196807 |
| Disclaimer: | The University of Liverpool is not responsible for content contained on other websites from links within repository metadata. Please contact us if you notice anything that appears incorrect or inappropriate. |
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