The evolution of the North Atlantic Meridional Overturning Circulation since 1980

Jackson, Laura; Biastoch, Arne; Buckley, Martha W.; Desbruyères, Damien; Frajka‐Williams, Eleanor; Moat, Ben; Robson, Jon

doi:10.1038/s43017-022-00263-2

Cited by 99 publications

(122 citation statements)

References 194 publications

(320 reference statements)

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“…Since the subpolar AMOC time series from the eastern part of the OSNAP array only span the 2014–2018 period, we turn to an ocean reanalysis to confirm the robustness of the observed sea‐surface height and upper‐ocean density patterns. The GloSea5 ocean reanalysis is used for this purpose since its AMOC variability has been shown to be comparable to observations from both the RAPID and OSNAP arrays (Jackson et al., 2022; Moat et al., 2020; Zou et al., 2020).…”

Section: Resultsmentioning

confidence: 99%

“…A similar stability of the subtropical and subpolar AMOC since the 1990 has also been reported by Fu et al (2020) that combined repeated hydrographic sections with an inverse model constrained using satellite altimetry. Jackson et al (2022) concluded that there is no evidence for an AMOC slowdown both in the subtropics and the SPNA since 1980, although these authors recognize that a weakening on longer timescales such as that expected from anthropogenic warming may simply be obscured by the large interannual and decadal variability. Taken together, we conclude that there is yet no consensus regarding basin-wide North Atlantic slowdown of the overturning circulation.…”

Section: What Can Irminger Sea Density Tell Us About the Strength Of ...mentioning

confidence: 99%

“…Another complication is that, on decadal timescales, the overturning variability appears to differ in the North Atlantic between subtropical and subpolar latitudes (see Jackson et al., 2022, and references therein). Because of the lack of decadal‐scale coherency between these two regions, it is indeed uncertain which aspect of the AMOC available large‐scale proxies represent.…”

Section: Introductionmentioning

confidence: 99%

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Irminger Sea Is the Center of Action for Subpolar AMOC Variability

Chafik

Holliday

Bacon

et al. 2022

Geophysical Research Letters

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The climate-regulating meridional overturning circulation in the Atlantic Ocean is largely hidden from us (Lozier, 2012) and although continuous monitoring of its strength only commenced in 2004 and 2014 in the subtropical (Frajka-Williams, 2015) and subpolar (Lozier et al., 2017) North Atlantic, respectively, this rich system of ocean currents conveying heat and freshwater to higher latitudes is claimed, largely based on sea-surface temperature proxies, to have slowed down during the twentieth century (e.g., Caesar et al., 2018). Some studies have, however, pointed out that serious care should be taken when interpreting and attributing North Atlantic sea-surface temperature change to Atlantic Meridional Overturning Circulation (AMOC) slowdown since atmospheric effects play a large role in establishing these trends and, as such, these proxies are poor predictors of

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Section: Resultsmentioning

confidence: 99%

Section: What Can Irminger Sea Density Tell Us About the Strength Of ...mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Irminger Sea Is the Center of Action for Subpolar AMOC Variability

Chafik

Holliday

Bacon

et al. 2022

Geophysical Research Letters

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“…The AMOC also plays a significant role in the present and future European climate due to its role in the poleward transfer of heat and ocean circulation. It also impacts on the NA SST (Jackson et al, 2022;Zhang, 2008;Zhang et al, 2019;Yeager and Robson, 2017), thereby influencing the SST impact on European climate discussed above. The CMIP5 and CMIP6 ensemble both predict a reduction in the AMOC by the end of century for higher emissions pathways, (Menary et al, 2020;Bellomo et al, 2021).…”

Section: Ocean Criteriamentioning

confidence: 99%

Performance based sub-selection of CMIP6 models for impact assessments in Europe

Palmer

McSweeney

Booth

et al. 2022

Preprint

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Abstract. We have created a performance-based assessment of CMIP6 models for Europe that can be used to inform the sub-selection of models for this region. Our assessment covers criteria indicative of the ability of individual models to capture a range of large-scale processes that are important for the representation of present-day European climate. We use this study to provide examples of how this performance-based assessment may be applied to multi-model ensemble of CMIP6 models to a) filter the ensemble for performance against these climatological/ processed-based criteria and, b) create a smaller sub-set of models based on performance, that also maintains model diversity and the filtered projection range as far as possible. Filtering by excluding the least realistic models leads to higher sensitivity models remaining in the ensemble as an emergent consequence of the assessment. This results in both the 25th percentile and the median of the projected temperature range being shifted toward greater warming for the filtered set of models. We also weight the unfiltered ensemble against global trends. In contrast this shifts both the distribution of towards less warming. This highlights a tension for regional model selection in terms of selection based on regional climate processes versus the global mean warming trend.

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“…S3d & h). According to ocean & sea-ice models forced with historical surface ux elds, the North Atlantic Oscillation (NAO) is the main driver of the AMOC variability at interannual to interdecadal time scales [49][50][51] . However, due to a baroclinic adjustment time of the subpolar North Atlantic Ocean circulation, it takes 3 ~ 15 years for the AMOC to respond to the NAO-induced surface buoyancy forcing and associated deep water formation 49,52 .…”

Section: The Atlantic Oceanmentioning

confidence: 99%

Human-induced changes in the global meridional overturning circulation are emerging from the Southern Ocean

Lee¹,

Lumpkin

Gómez

et al. 2022

Preprint

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In a warming climate, the Global Meridional Overturning Circulation (GMOC) is expected to slow down with a significant risk of disrupting the global redistribution of ocean properties that sustains marine ecosystems, carbon cycle, and others. Here, we analyze the GMOC and its interdecadal changes since the mid-1950s derived from an ocean & sea-ice model with its temperature and salinity restored toward historical hydrographic observations. We find that significant changes in the GMOC have already occurred, most notably in the upper and lower overturning cells in the Southern Ocean. The former has expanded poleward and into denser water and strengthened by 3~4 Sv since the mid-1970s, while the latter has contracted and weakened by a similar rate during the same period. These changes are driven by the increasing Southern Hemisphere (SH) Ferrel cell and associated increases in the westerlies and the surface buoyancy loss over its sinking branch, and the increasing Antarctic meltwater discharge that are resulted from the combined effect of ozone depletion in the SH stratosphere and increasing CO2 in the atmosphere. A large-scale readjustment of the GMOC seems to be underway in the South Atlantic and Indo-Pacific Oceans since the mid-2000s in response to the Southern Ocean changes.

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The evolution of the North Atlantic Meridional Overturning Circulation since 1980

Cited by 99 publications

References 194 publications

Irminger Sea Is the Center of Action for Subpolar AMOC Variability

Irminger Sea Is the Center of Action for Subpolar AMOC Variability

Performance based sub-selection of CMIP6 models for impact assessments in Europe

Human-induced changes in the global meridional overturning circulation are emerging from the Southern Ocean

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