freshwater release
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2022 ◽  
Vol 194 (2) ◽  
Author(s):  
Katherine McFarland ◽  
Darren Rumbold ◽  
Ai Ning Loh ◽  
Lesli Haynes ◽  
S. Gregory Tolley ◽  
...  

2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Jiaxu Zhang ◽  
Wilbert Weijer ◽  
Michael Steele ◽  
Wei Cheng ◽  
Tarun Verma ◽  
...  

AbstractThe Beaufort Gyre (BG), the largest Arctic Ocean freshwater reservoir, has drastically increased its liquid freshwater content by 40% in the past two decades. If released within a short period, the excess freshwater could potentially impact the large-scale ocean circulation by freshening the upper subpolar North Atlantic. Here, we track BG-sourced freshwater using passive tracers in a global ocean sea-ice model and show that this freshwater exited the Arctic mostly through the Canadian Arctic Archipelago, rather than Fram Strait, during an historical release event in 1983–1995. The Labrador Sea is the most affected region in the subpolar North Atlantic, with a freshening of 0.2 psu on the western shelves and 0.4 psu in the Labrador Current. Given that the present BG freshwater content anomaly is twice the historical analog studied here, the impact of a future rapid release on Labrador Sea salinity could be significant, easily exceeding similar fluxes from Greenland meltwater.


2019 ◽  
Vol 9 (1) ◽  
Author(s):  
Kerstin Perner ◽  
Matthias Moros ◽  
Odd Helge Otterå ◽  
Thomas Blanz ◽  
Ralph R. Schneider ◽  
...  

AbstractInstrumental data evidence an accelerating freshwater release from Arctic sea ice export and the Greenland Ice Sheet over the past three decades causing cooling and freshening in the subpolar North Atlantic region. However, evaluating the observed acceleration on a historical oceanic and climatic perspective remains challenging given the short available instrumental time series. Here we provide a marine perspective on the freshwater releases to the ocean since 1850 as reflected in the northern limb of the Subpolar Gyre. Our reconstructions suggest that the recent acceleration tracks back to the 1940s/50s and is unprecedented since 1850. The melting, initiated by the 1920s natural rise in solar irradiance, accelerated in response to a combined effect of natural and anthropogenic forcing factors. We find that Greenland’s freshwater discharge has contributed to a nutrient-driven fertilization of the upper ocean and consequently increased the marine primary productivity since the 1940s/50s.


2019 ◽  
Vol 53 (7-8) ◽  
pp. 3893-3915 ◽  
Author(s):  
Didier Swingedouw ◽  
Christophe Colin ◽  
Frédérique Eynaud ◽  
Mohamed Ayache ◽  
Sébastien Zaragosi

2018 ◽  
Vol 121 ◽  
pp. 76-89 ◽  
Author(s):  
Nacho Merino ◽  
Nicolas C. Jourdain ◽  
Julien Le Sommer ◽  
Hugues Goosse ◽  
Pierre Mathiot ◽  
...  

2015 ◽  
Vol 23 (1) ◽  
pp. 8-9
Author(s):  
DM Roche ◽  
H Renssen ◽  
C Morrill ◽  
Hugues Goosse ◽  
A Mairesse

2010 ◽  
Vol 30 (1) ◽  
pp. 5858 ◽  
Author(s):  
Dorothea Bauch ◽  
Matthias Gröger ◽  
Igor Dmitrenko ◽  
Jens Hölemann ◽  
Sergey Kirillov ◽  
...  

2010 ◽  
Vol 6 (3) ◽  
pp. 295-303 ◽  
Author(s):  
M. Siddall ◽  
E. J. Rohling ◽  
T. Blunier ◽  
R. Spahni

Abstract. Millennial variability is a robust feature of many paleoclimate records, at least throughout the last several glacial cycles. Here we use the mean signal from Antarctic climate events 1 to 4 to probe the EPICA Dome C temperature proxy reconstruction through the last 500 ka for similar millennial-scale events. We find that clusters of millennial events occurred in a regular fashion over half of the time during this with a mean recurrence interval of 21 kyr. We find that there is no consistent link between ice-rafted debris deposition and millennial variability. Instead we speculate that changes in the zonality of atmospheric circulation over the North Atlantic form a viable alternative to freshwater release from icebergs as a trigger for millennial variability. We suggest that millennial changes in the zonality of atmospheric circulation over the North Atlantic are linked to precession via sea-ice feedbacks and that this relationship is modified by the presence of the large, Northern Hemisphere ice sheets during glacial periods.


2010 ◽  
Vol 6 (1) ◽  
pp. 19-34
Author(s):  
M. Siddall ◽  
E. J. Rohling ◽  
T. Blunier ◽  
R. Spahni

Abstract. Millennial variability is a robust feature of many paleoclimate records, at least throughout the last several glacial cycles. Here we use the signal from an Antarctic climate event to probe the EPICA Dome C temperature proxy reconstruction through the last 500 ka for similar millennial-scale events. We find that clusters of millennial events occurred in a regular fashion over half of the time during this with a mean recurrence interval of 21 kyr. We find that there is no consistent link between ice-rafted debris deposition and millennial variability. Instead we speculate that changes in the zonality of atmospheric circulation over the North Atlantic form a viable alternative to freshwater release from icebergs as a trigger for millennial variability. We suggest that millennial changes in the zonality of atmospheric circulation over the North Atlantic are linked to precession and that this relationship is modified by the presence of the large, Northern Hemisphere ice sheets during glacial periods.


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