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11

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Southern Ocean Sector Centennial Climate Variability and Recent Decadal Trends (2013)

Latif, Mojib ; Martin, Torge ; Park, Wonsun

AMS (American Meteorological Society)

In: Journal of Climate, 26 . pp. 7767-7782.

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Publication Date: 2020-08-04

Description: Evidence is presented for the notion that some contribution to the recent decadal trends observed in the Southern Hemisphere, including the lack of a strong Southern Ocean surface warming, may have originated from longer-term internal centennial variability originating in the Southern Ocean. The existence of such centennial variability is supported by the instrumental sea surface temperatures (SSTs), a multimillennial reconstruction of Tasmanian summer temperatures from tree rings, and a millennial control integration of the Kiel Climate Model (KCM). The model variability was previously shown to be linked to changes in Weddell Sea deep convection. During phases of deep convection the surface Southern Ocean warms, the abyssal Southern Ocean cools, Antarctic sea ice extent retreats, and the low-level atmospheric circulation over the Southern Ocean weakens. After the halt of deep convection the surface Southern Ocean cools, the abyssal Southern Ocean warms, Antarctic sea ice expands, and the low-level atmospheric circulation over the Southern Ocean intensifies, consistent with what has been observed during the recent decades. A strong sensitivity of the time scale to model formulation is noted. In the KCM, the centennial variability is associated with global-average surface air temperature (SAT) changes of the order of a few tenths of a degree per century. The model results thus suggest that internal centennial variability originating in the Southern Ocean should be considered in addition to other internal variability and external forcing when discussing the climate of the twentieth century and projecting that of the twenty-first century.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.1175/JCLI-D-12-00281.1

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Atmospheric and Oceanic Response to Southern Ocean Deep Convection Oscillations on Decadal to Centennial Time Scales in Climate Models (2014)

Martin, Torge ; Reintges, Annika ; Park, Wonsun ; [et al.]

In: [Poster] In: AGU Fall Meeting 2014, 15.-19.12.2014, San Francisco, USA .

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Publication Date: 2015-01-12

Type: Conference or Workshop Item , NonPeerReviewed

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Assessing the potential and side effects of ocean albedo modification in the Arctic (2015)

Mengis, Nadine ; Keller, David P. ; Oschlies, Andreas ; [et al.]

In: [Poster] In: AGU Fall Meeting 2015, 14.-18.12.2015, San Francisco, USA .

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Publication Date: 2019-09-23

Type: Conference or Workshop Item , NonPeerReviewed

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14

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Southern Ocean Forcing of the North Atlantic at Multi-centennial Timescales in the Kiel Climate Model (2015)

Martin, Torge ; Park, Wonsun ; Latif, Mojib

Elsevier

In: Deep Sea Research Part II: Topical Studies in Oceanography, 114 . pp. 39-48.

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Publication Date: 2020-08-05

Description: Internal multi-centennial variability of open ocean deep convection in the Atlantic sector of the Southern Ocean impacts the strength of the Atlantic Meridional Overturning Circulation (AMOC) in the Kiel Climate Model. The northward extent of Antarctic Bottom Water (AABW) strongly depends on the state of Weddell Sea deep convection. The retreat of AABW results in an enhanced meridional density gradient that drives an increase in the strength and vertical extent of the North Atlantic Deep Water (NADW) cell. This shows, for instance, as a peak in AMOC strength at 30°N about a century after Weddell Sea deep convection has ceased. The stronger southward flow of NADW is compensated by an expansion of the North Atlantic subpolar gyre and an acceleration of the North Atlantic Current, indicating greater deep water formation. Contractions of the North Atlantic subpolar gyre enable warm water anomalies, which evolved in response to deep convection events in the Southern Ocean, to penetrate farther to the north, eventually weakening the AMOC and closing a quasi-centennial cycle. Gyre contractions are accompanied by increases in sea level of up to 20 cm/century in some areas of the North Atlantic. In the Southern Ocean itself, the heat loss during the convective regime results in a sea surface height decrease on the order of 10 cm/century, with a maximum of 30 cm/century in the Weddell Sea. Hence, the impact of the Southern Ocean Centennial Variability (SOCV) on regional as well as North Atlantic sea level is of the same order of magnitude as the rise of global average sea level during the 20th century, which amounts to about 15–20 cm. This suggests that internal variability on a centennial time scale cannot be neglected a priori in assessments of 20th and 21st century AMOC and regional sea level change.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.1016/j.dsr2.2014.01.018

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Assessing climate impacts and risks of ocean albedo modification in the Arctic (2016)

Mengis, Nadine ; Martin, Torge ; Keller, David P. ; [et al.]

AGU (American Geophysical Union) | Wiley

In: Journal of Geophysical Research: Oceans, 121 (5). pp. 3044-3057.

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Publication Date: 2020-11-23

Description: The ice albedo feedback is one of the key factors of accelerated temperature increase in the high northern latitudes under global warming. This study assesses climate impacts and risks of idealized Arctic Ocean albedo modification (AOAM), a proposed climate engineering method, during transient cli- mate change simulations with varying representative concentration pathway (RCP) scenarios. We find no potential for reversing trends in all assessed Arctic climate metrics under increasing atmospheric CO2 con- centrations. AOAM only yields an initial offset during the first years after implementation. Nevertheless, sea ice loss can be delayed by 25(60) years in the RCP8.5(RCP4.5) scenario and the delayed thawing of perma- frost soils in the AOAM simulations prevents up to 40(32) Pg of carbon from being released by 2100. AOAM initially dampens the decline of the Atlantic Meridional Overturning and delays the onset of open ocean deep convection in the Nordic Seas under the RCP scenarios. Both these processes cause a subsurface warming signal in the AOAM simulations relative to the default RCP simulations with the potential to desta- bilize Arctic marine gas hydrates. Furthermore, in 2100, the RCP8.5 AOAM simulation diverts more from the 2005–2015 reference state in many climate metrics than the RCP4.5 simulation without AOAM. Considering the demonstrated risks, we conclude that concerning longer time scales, reductions in emissions remain the safest and most effective way to prevent severe changes in the Arctic.

Type: Article , PeerReviewed

Format: text

DOI: 10.1002/2015JC011433

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Southern Ocean deep convection in global climate models: A driver for variability of subpolar gyres and Drake Passage transport on decadal timescales (2016)

Behrens, Erik ; Rickard, Graham ; Morgenstern, Olaf ; [et al.]

AGU (American Geophysical Union) | Wiley

In: Journal of Geophysical Research: Oceans, 121 (6). pp. 3905-3925.

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Publication Date: 2019-02-01

Description: We investigate the individual and joint decadal variability of Southern Ocean state quantities, such as the strength of the Ross and Weddell Gyres, Drake Passage transport, and sea ice area, using the National Institute of Water and Atmospheric Research UK Chemistry and Aerosols (NIWA-UKCA) model and CMIP5 models. Variability in these quantities is stimulated by strong deep reaching convective events in the Southern Ocean, which produce an Antarctic Bottom Water-like water mass and affect the large-scale meridional density structure in the Southern Ocean. An increase in the (near) surface stratification, due to freshwater forcing, can be a precondition for subsequent strong convection activity. The combination of enhanced-gyre driven sea ice and freshwater export, as well as ongoing subsurface heat accumulation, lead to a time lag between changes in oceanic freshwater and heat content. This causes an ongoing weakening of the stratification until sudden strong mixing events emerge and the heat is released to the atmosphere. We find that strong convection reduces sea ice cover, weakens the subpolar gyres, increases the meridional density gradient and subsequently results in a positive Drake Passage transport anomaly. Results of available CMIP5 models confirm that variability in sea ice, Drake Passage transport, and the Weddell Gyre strength is enhanced if models show strong open ocean convective events. Consistent relationships between convection, sea ice, Drake Passage transport, and Ross Gyre strength variability are evident in most models, whether or not they host open ocean convection.

Type: Article , PeerReviewed

Format: text

Format: other

DOI: 10.1002/2015JC011286

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17

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Understandng simulated long-term changes in the North Atlantic MOC (2011)

Latif, Mojib ; Martin, Thomas ; Reintges, A. ; [et al.]

In: [Talk] In: RAPID - USA MOC International Science Meeting, 12.-15.07.2011, Bristol, UK .

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Publication Date: 2012-02-23

Description: Future changes in the Atlantic meridional overturning circulation (MOC) will result from processes both internal and external to the climate system. Here, using the CMIP3 database and simulations with the Kiel Climate Model (KCM), three aspects of modelbased projections of the Atlantic MOC will be discussed: First, while most climate models predict a weakening of the North Atlantic meridional overturning circulation (MOC) during the twenty-first century, large uncertainty exists. Quantification of the different sources of uncertainty – external, internal and model – indicates model error is the largest component, internal variability is significant during the first decades, while scenario uncertainty is almost negligible. The different contributions to model uncertainty – wind and density, salinity versus temperature – will be also discussed. Second, individual studies suggest that multidecadal changes in the MOC are strongly related to large-scale salinity anomalies and therefore to changes in the surface freshwater fluxes and freshwater transport. Here, the general relationship between the MOC and freshwater budget of the Northern Hemisphere is analyzed for the twentieth and twenty-first centuries. Global warming leads to an implified hydrological cycle, which affects the vertical salinity and temperature profiles. The meridional changes in the oceanatmosphere interaction diminish the meridional oceanic density contrast. In the North Atlantic sinking regions, these changes are strongly related to salinity anomalies at the surface. We find in the multi-model mean a strong freshwater export from the Arctic into the northern part of the North Atlantic, stressing the importance of a realistic representation of the hydrological cycle in the models. Third, experiments with KCM indicate that ocean-sea ice-atmosphere interaction in the Southern Ocean could give rise to significant centennial scale changes in the MOC. The model simulates an internal mode of variability on a multi-centennial time-scale set by the interaction between sea-ice cover, open ocean convection in the Weddell Sea and the global MOC. The multi-centennial mechanism is similar to what has been reported with a standalone ocean model forced with mixed boundary conditions and was thought to be spurious

Type: Conference or Workshop Item , NonPeerReviewed

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Multi-Centennial Southern Ocean Variability and global impacts in the Kiel Climate Model (2012)

Latif, Mojib ; Martin, Torge ; Park, Wonsun

In: [Invited talk] In: Ocean Sciences Meeting 2012, 20.-24.02.2012, Salt Lake City, USA .

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Publication Date: 2015-12-15

Type: Conference or Workshop Item , NonPeerReviewed

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Two types of multi-centennial variability of the Southern Ocean deep convection: How sea ice tips the scale (2011)

Martin, Torge ; Park, Wonsun ; Latif, Mojib

In: [Poster] In: EGU General Assembly 2011, 03.-08.04.2011, Vienna, Austria .

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Publication Date: 2012-02-23

Type: Conference or Workshop Item , NonPeerReviewed

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Southern Ocean deep-convection as a driver of Antarctic warming events (2016)

Pedro, J. B. ; Martin, Torge ; Steig, E. J. ; [et al.]

In: [Poster] In: IPICS 2. Open Science Conference, 07.-11.03.2016, Hobart, Australia .

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Publication Date: 2016-11-23

Type: Conference or Workshop Item , NonPeerReviewed

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