Ensemble-based estimation of sea-ice volume variations in the Baffin Bay
Sea ice in the Baffin Bay plays an important role in deep water formation in the Labrador Sea and contributes to the variation of the Atlantic meridional overturning circulation (AMOC) on larger scales. Sea-ice data from locally merged satellite observations (Sat-merged SIT) in the eastern Canadian...
Published in: | The Cryosphere |
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Main Authors: | , , , , |
Format: | Article in Journal/Newspaper |
Language: | English |
Published: |
Copernicus Publications
2021
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Subjects: | |
Online Access: | https://doi.org/10.5194/tc-15-169-2021 https://doaj.org/article/196b7d14f7cf49e8a49842b152292e28 |
Summary: | Sea ice in the Baffin Bay plays an important role in deep water formation in the Labrador Sea and contributes to the variation of the Atlantic meridional overturning circulation (AMOC) on larger scales. Sea-ice data from locally merged satellite observations (Sat-merged SIT) in the eastern Canadian Arctic and three state-of-the-art sea ice–ocean models are used to quantify sea-ice volume variations from 2011 to 2016. Ensemble-based sea-ice volume (SIV) fluxes and the related standard deviations in the Baffin Bay are generated from four different estimates of SIV fluxes that were derived from Sat-merged SIT, three modeled SITs and satellite-based ice-drift data. Results show that the net increase in the SIV in Baffin Bay occurs from October to early April with the largest SIV increase in December (113 ± 17 km 3 month −1 ) followed by a reduction from May to September with the largest SIV decline in July ( − 160 ± 32 km 3 month −1 ). The maximum SIV inflow occurs in winter with the amount of 236 ( ± 38) km 3 while ice outflow reaches the maximum in spring with a mean value of 168 ( ± 46) km 3 . The ensemble mean SIV inflow reaches its maximum (294 ± 59 km 3 ) in winter 2013 caused by high ice velocity along the north gate while the largest SIV outflow (229 ± 67 km 3 ) occurs in spring of 2014 due to the high ice velocity and thick ice along the south gate. The long-term annual mean ice volume inflow and outflow are 411 ( ± 74) km 3 yr −1 and 312 ( ± 80) km 3 yr −1 , respectively. Our analysis also reveals that, on average, sea ice in the Baffin Bay melts from May to September with a net reduction of 335 km 3 in volume while it freezes from October to April with a net increase of 218 km 3 . In the melting season, there is about 268 km 3 freshwater produced by local melting of sea ice in the Baffin Bay. In the annual mean, the mean freshwater converted from SIV outflow that enters the Labrador Sea is about 250 km 3 yr −1 (i.e., 8 mSv), while it is only about 9 % of the net liquid freshwater flux through the Davis ... |
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