GLORIA — GEOMAR Library Ocean Research Information Access

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Southern ocean carbon and heat impact on climate (2023)

Sallée, J. B. ; Abrahamsen, E. P. ; Allaigre, C. ; [et al.]

The Royal Society

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Publication Date: 2024-02-07

Description: The Southern Ocean greatly contributes to the regulation of the global climate by controlling important heat and carbon exchanges between the atmosphere and the ocean. Rates of climate change on decadal timescales are therefore impacted by oceanic processes taking place in the Southern Ocean, yet too little is known about these processes. Limitations come both from the lack of observations in this extreme environment and its inherent sensitivity to intermittent processes at scales that are not well captured in current Earth system models. The Southern Ocean Carbon and Heat Impact on Climate programme was launched to address this knowledge gap, with the overall objective to understand and quantify variability of heat and carbon budgets in the Southern Ocean through an investigation of the key physical processes controlling exchanges between the atmosphere, ocean and sea ice using a combination of observational and modelling approaches. Here, we provide a brief overview of the programme, as well as a summary of some of the scientific progress achieved during its first half. Advances range from new evidence of the importance of specific processes in Southern Ocean ventilation rate (e.g. storm-induced turbulence, sea-ice meltwater fronts, wind-induced gyre circulation, dense shelf water formation and abyssal mixing) to refined descriptions of the physical changes currently ongoing in the Southern Ocean and of their link with global climate.This article is part of a discussion meeting issue 'Heat and carbon uptake in the Southern Ocean: the state of the art and future priorities'.

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

Format: text

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Slowdown of Antarctic Bottom Water export driven by climatic wind and sea ice changes (2023)

Zhou, S. ; Meijers, A. ; Meredith, M. ; [et al.]

In: XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)

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Publication Date: 2023-07-20

Description: Antarctic Bottom Water (AABW) is a key water mass in the global overturning circulation, flooding most of the world ocean abyss and pivotal for deep ocean ventilation and oceanic heat and carbon exchanges on multi-decadal to millennial timescales. The Weddell Sea contributes nearly half of global AABW through Weddell Sea Deep Water (WSDW), which along with denser underlying Weddell Sea Bottom Water (WSBW), is formed on the continental shelves via complex processes that include sea ice production. Here we report a multi-decadal decline of WSBW volume in repeat hydrographic sections. A 30% reduction of WSBW volume since 1992 is found, with the most significant volume decrease seen in the densest WSBW classes. This is likely driven by a multi-decadal reduction in dense water production on the Weddell Sea continental shelf associated with a 〉40% decline in the sea ice formation rate there. The ice production decrease is driven by northerly wind trends, partly in response to a negative polarity of the Interdecadal Pacific Oscillation since the early 1990s, with variability from the Amundsen Sea Low superposed. These results reveal key influences on the export of waters to the Atlantic abyss and their sensitivity to large-scale, multi-decadal climate variability.

Language: English

Type: info:eu-repo/semantics/conferenceObject

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Observations of the modulation of ice shelf basal melt rates by mesoscale oceanographic features (2023)

Nicholls, K. ; Osterhus, S. ; Vankova, I. ; [et al.]

In: XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)

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Publication Date: 2023-07-03

Description: We report on observations from instruments deployed on a pair of moorings sited ~5 km apart, beneath Ronne Ice Shelf, Antarctica. Measurements of temperature, salinity and current velocities for the period from early 2015 to mid-2019 demonstrate strong variability at timescales from tidal to interannual. Here we focus on features that are a few days in length that we interpret as vortices streaming past the site. The intensity of the vortices is enhanced towards the ice-shelf base; they are in geostrophic equilibrium, have a radius (12 km), substantially larger than the estimated internal radius of deformation (~1500 m) and have a relative vorticity that is 30 to 40% of the local planetary vorticity. The velocity of the features, determined by correlating observations from instruments on the two moorings, is the same as that of the ambient water flow. The time series of basal melt rates, measured using a collocated downward-looking radar, shows the melt rate signal to be dominated by an approximate spring-neap variability, but with a significant response to the eddying flow. Although tidal activity clearly affects basal melt rates, as illustrated by the strong ~14-day variation, the net effect of the vortices is less obvious. Here we argue that the cyclonic and anticyclonic vortices ventilate the thermocline via Ekman pumping, thus increasing melting. Such eddy features are clearly a significant component of sub-ice shelf ocean variability, at least in the study area.

Language: English

Type: info:eu-repo/semantics/conferenceObject

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