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Energy Flux Observations in an Internal Tide Beam in the Eastern North Atlantic (2021)

Köhler, Janna ; Walter, Maren ; Mertens, Christian ; [et al.]

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Publication Date: 2021-10-01

Description: Low-mode internal waves propagate over large distances and provide energy for turbulent mixing when they break far from their generation sites. A realistic representation of the oceanic energy cycle in ocean and climate models requires a consistent implementation of their generation, propagation, and dissipation. Here we combine the long-term mean energy flux from satellite altimetry with results from a 1/10° global ocean general circulation model that resolves the low modes of internal waves and in situ observations of stratification and horizontal currents to study energy flux and dissipation along a 1000 km internal tide beam in the eastern North Atlantic. Internal wave fluxes were estimated from twelve 36- to 48-hr stations in along- and across-beam direction to resolve both the inertial period and tidal cycle. The observed internal tide energy fluxes range from 5.9 kW m−1 near the generation sites to 0.5 kW m−1 at distant stations. Estimates of energy dissipation come from both finestructure and upper ocean microstructure profiles and range, vertically integrated, from 0.5 to 3.3 mW m−2 along the beam. Overall, the in situ observations confirm the internal tide pattern derived from satellite altimetry, but the in situ energy fluxes are more variable and decrease less monotonically along the beam. Internal tides in the model propagate over shorter distances compared to results from altimetry and in situ measurements, but more spatial details close the main generation sites are resolved.

Keywords: 551.46 ; internal tide ; energy flux ; energy dissipation

Language: English

Type: map

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Volume Transport Time Series and Variability of the North Atlantic Eastern Boundary Current at Goban Spur (2021)

Moritz, Martin ; Jochumsen, Kerstin ; Kieke, Dagmar ; [et al.]

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Publication Date: 2022-03-23

Description: The Eastern Boundary Current is an essential part of the water mass exchange between the subtropical and subpolar North Atlantic. Here, we study the offshore branch of the European Shelf Current (ESC) over the Goban Spur slope area off Ireland. Our analysis is based on current measurements obtained from a multiyear mooring effort, complemented by ship‐board observations along a hydrographic section, satellite‐derived estimates of absolute dynamic topography with geostrophic currents, and float trajectories. These data serve to quantify the offshore branch of the ESC on intraannual to interannual timescales. From the moored observations, we derive a mean poleward along‐slope volume flux of 3.7 ± 0.7 Sv for the period 2017–2019. Using a multilinear regression model and geostrophic surface velocities, we extend the time series to the period 1993–2019 and obtain a long‐term mean transport of 3.2 ± 0.4 Sv. Both time series show strong variability ranging from −7.5 to 15.7 Sv. The variability is linked to a dynamic eddy field, especially a stationary cyclonic circulation pattern near the mooring array, and meandering of current branches originating from the North Atlantic Current. We find no evidence of a consistent deep boundary current extending from the shelf break to the position of the offshore mooring (4,500 m depth), but confirm a persistent along‐slope flow at the shallower slope (1,500 m depth). Geostrophic surface velocities and float trajectories reveal that the offshore branch of the ESC does not follow a clear northward path from the eastern subtropical regions but rather indicate the intermittent character of the flow.

Description: Plain Language Summary: In this study, we describe the European Shelf Current (ESC) in the eastern North Atlantic. The study area is the deeper part of the Goban Spur area off Ireland. We use current measurements of instruments deployed in the water column from 2016 to 2019 combined with satellite observations of surface circulation and drifting float paths. We aim to quantify the contribution of the offshore branch to the ESC system. We calculate a poleward volume transport following the slope that is on average 3.7 ± 0.7 Sverdrup (Sv; 1 Sv = 1 million cubic meter per second) for the period 2017–2019. We use a mathematical relation between mooring data and satellite observations to extend the time series to the period 1993–2019 and obtain an average transport of 3.2 ± 0.4 Sv. There occur strong changes over time ranging from −5 to 15 Sv. These changes are caused by rotating vortices (eddies), especially a counter‐clockwise rotating circulation pattern near the moorings, and changing positions of currents branching from the North Atlantic Current. We find that the offshore branch of the ESC does not follow a clear northward path from the eastern subtropical regions of the North Atlantic. Instead, the flow is of rather unsteady character.

Description: Key Points: The analysis of multiplatform observational efforts is used to study the circulation at the North Atlantic Eastern Boundary. The volume transport of the offshore branch of the European Shelf Current is on average 3.2 ± 0.4 Sv for the period 1993–2019. Transport variability is in the range of −7.5–15.7 Sv and induced by eddies and meandering North Atlantic Current branches.

Description: Bundesministerium für Bildung und Forschung (BMBF) http://dx.doi.org/10.13039/501100002347

Description: Deutsche Forschungsgemeinschaft (DFG) http://dx.doi.org/10.13039/501100001659

Keywords: ddc:551.46