Intra-seasonal variability of the DWBC in the western subpolar North Atlantic

Fischer, Jürgen; Karstensen, Johannes; Zantopp, Rainer J.; Visbeck, Martin; Biastoch, Arne; Behrens, Erik; Böning, Claus W.; Quadfasel, Detlef; Jochumsen, Kerstin; Valdimarsson, Héðinn; Jónsson, Steingrímur; Bacon, Sheldon; Holliday, N. Penny; Dye, Stephen; Rhein, Monika; Mertens, Christian

doi:10.1016/j.pocean.2014.04.002

Cited by 47 publications

(66 citation statements)

References 40 publications

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“…The alongtrack altimeter data provide estimates of SLA and surface geostrophic currents. Additional data from in situ observations, such as moored current-meter (Fischer et al 2014), and bottom pressure data (Hughes et al 2013;Elipot et al 2014), are needed to evaluate model solutions at depth. In turn, the model results can help to interpret the discrete in situ measurements.…”

Section: Conclusion and Discussionmentioning

confidence: 99%

High-resolution modeling of the mean flow and meso-scale eddy variability around the Grand Banks of Newfoundland

Zhai

Higginson

et al. 2015

Ocean Dynamics

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The mean flow and meso-scale eddy variability in the region around the Grand Banks of Newfoundland (GBN) are quantified by analyzing surface drifter observations, mean dynamic topography (MDT), along-track satellite altimeter observations, and the solutions of two high-resolution ocean models. By increasing the horizontal resolution from 6.5 km (CREG12) to 2.2 km (GBN36), the modeled mean kinetic energy (MKE) decreases and the eddy kinetic energy (EKE) increases in the study area. GBN36 obtains the MKE of surface geostrophic currents and total currents similar to that derived from MDT and drifter data, whereas CREG12 overestimates these quantities by 40-53 %. CREG12 and GBN36 underestimate the EKE of surface geostrophic currents by 46 and 30 %, respectively, with respect to the EKE derived from along-track altimeter data. The models do not reproduce the strong eddy activity in the Gulf Stream and its downstream region, possibly related to a northward shift of the Gulf Stream position by 0.5°in latitude compared with observations. Both models obtain wavenumber spectra of sea level anomaly in close agreement with the spectrum derived from along-track altimeter data, with a slope of −5 at wavelengths near 100 km on logarithmic spectral density scales.

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Section: Conclusion and Discussionmentioning

confidence: 99%

High-resolution modeling of the mean flow and meso-scale eddy variability around the Grand Banks of Newfoundland

Zhai

Higginson

et al. 2015

Ocean Dynamics

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“…Since this time there have been many direct current measurements using moored instrumentation that confirm this equatorward flow pattern; in the subpolar gyre at 53 ∘ N Fischer et al, 2010Fischer et al, , 2015 at 47 ∘ N (Rhein et al, 2011;Mertens et al, 2014) and at the Grand Banks , close to the inter-gyre boundary at Line W 1 about 39 ∘ (see Figure 3-1) (Joyce et al, 2005;Toole et al, 2011;Peña-Molino et al, 2012), at Cape Hatteras (Pickart et al, 1990), at 26.5 ∘ N (Meinen et al, 2013a;Srokosz and Bryden, 2015), at 16 ∘ N (Kanzow et al, 2006(Kanzow et al, , 2008Köhler et al, 2014) and in the Southern…”

Section: Introductionmentioning

confidence: 86%

“…The additional measurement locations that we analyze include a time series at the exit of the Labrador Sea at 53 ∘ N 2 , where yearly shipboard hydrographic measurements have complemented a moored array across the DWBC since 1996 Fischer et al, 2010Fischer et al, , 2015. Our focus is on the shipboard data because they include salinity measurements.…”

Section: Water Mass Class Averagesmentioning

confidence: 99%

“…Because the directly measured speed of the DWBC is on the order of 5 −1 (Toole et al, 2011;Schott et al, 2006;Fischer et al, 2015), and will only get slower with horizontal averaging, the slower advection and mixing solution is much more realistic. For these solutions, is most sensitive to the relative amplitudes of the Line W and Labrador Sea time series; smaller relative amplitudes indicate shorter , or a larger role for mixing.…”

Section: Analytical Modelmentioning

confidence: 99%

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Dynamics of North Atlantic western boundary currents

Bras¹,

Isabela²

2017

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The Gulf Stream and Deep Western Boundary Current (DWBC) shape the distribution of heat and carbon in the North Atlantic, with consequences for global climate. This thesis employs a combination of theory, observations and models to probe the dynamics of these two western boundary currents.First, to diagnose the dynamical balance of the Gulf Stream, a depth-averaged vorticity budget framework is developed. This framework is applied to observations and a state estimate in the subtropical North Atlantic. Budget terms indicate a primary balance of vorticity between wind stress forcing and dissipation, and that the Gulf Stream has a significant inertial component.The next chapter weighs in on an ongoing debate over how the deep ocean is filled with water from high latitude sources. Measurements of the DWBC at Line W, on the continental slope southeast of New England, reveal water mass changes that are consistent with changes in the Labrador Sea, one of the sources of deep water thousands of kilometers upstream. Coherent patterns of change are also found along the path of the DWBC. These changes are consistent with an advective-diffusive model, which is used to quantify transit time distributions between the Labrador Sea and Line W. Advection and stirring are both found to play leading order roles in the propagation of water mass anomalies in the DWBC.The final study brings the two currents together in a quasi-geostrophic process model, focusing on the interaction between the Gulf Stream's northern recirculation gyre and the continental slope along which the DWBC travels. We demonstrate that the continental slope restricts the extent of the recirculation gyre and alters its forcing mechanisms. The recirculation gyre can also merge with the DWBC at depth, and its adjustment is associated with eddy fluxes that stir the DWBC with the interior. This thesis provides a quantitative description of the structure of the overturning circulation in the western North Atlantic, which is an important step towards understanding its role in the climate system.

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“…They are not only utilized to study ocean dynamics and the role of the ocean in the climate system (e.g., Griffies and Treguier, 2013), but they also guide the establishment of ocean observing system and are used for analysis in conjunction with direct ocean observations (Fischer et al, 2014;Hirschi et al, 2003). In an interdisciplinary context, OGCMs play an important role by providing the physical circulation that determines the distribution of biogeochemical tracers or the spreading of marine organisms and particles (Duteil et al, 2014;Baltazar-Soares et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Simulating the Agulhas system in global ocean models – nesting vs. multi-resolution unstructured meshes

et al. 2018

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A B S T R A C TMany questions in ocean and climate modelling require the combined use of high resolution, global coverage and multi-decadal integration length. For this combination, even modern resources limit the use of traditional structured-mesh grids. Here we compare two approaches: A high-resolution grid nested into a global model at coarser resolution (NEMO with AGRIF) and an unstructured-mesh grid (FESOM) which allows to variably enhance resolution where desired. The Agulhas system around South Africa is used as a testcase, providing an energetic interplay of a strong western boundary current and mesoscale dynamics. Its open setting into the horizontal and global overturning circulations also requires global coverage.Both model configurations simulate a reasonable large-scale circulation. Distribution and temporal variability of the wind-driven circulation are quite comparable due to the same atmospheric forcing. However, the overturning circulation differs, owing each model's ability to represent formation and spreading of deep water masses. In terms of regional, high-resolution dynamics, all elements of the Agulhas system are well represented. Owing to the strong nonlinearity in the system, Agulhas Current transports of both configurations and in comparison with observations differ in strength and temporal variability. Similar decadal trends in Agulhas Current transport and Agulhas leakage are linked to the trends in wind forcing.Although the number of 3D wet grid points used in FESOM is similar to that in the nested NEMO, FESOM uses about two times the number of CPUs to obtain the same model throughput (in terms of simulated model years per day). This is feasible due to the high scalability of the FESOM code.

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Intra-seasonal variability of the DWBC in the western subpolar North Atlantic

Cited by 47 publications

References 40 publications

High-resolution modeling of the mean flow and meso-scale eddy variability around the Grand Banks of Newfoundland

High-resolution modeling of the mean flow and meso-scale eddy variability around the Grand Banks of Newfoundland

Dynamics of North Atlantic western boundary currents

Simulating the Agulhas system in global ocean models – nesting vs. multi-resolution unstructured meshes

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