Arctic freshwater export: Status, mechanisms, and prospects

Haine, Thomas W. N.; Curry, Beth; Gerdes, Rüdiger; Hansen, Edmond; Kärcher, Michael; Lee, Craig; Rudels, Bert; Spreen, Gunnar; Steur, Laura de; Stewart, Kial Douglas; Woodgate, Rebecca A.

doi:10.1016/j.gloplacha.2014.11.013

Cited by 371 publications

(545 citation statements)

References 137 publications

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“…The four major Arctic gateways (Davis, Fram and Bering Strait and the Barents Sea Opening) have been monitored by several research groups for many years (Dickson et al, 2007;Haine et al, 2015). Integrating the individual mooring arrays across the 10 Arctic boundary, Tsubouchi et al (2017b) The main data source are 138 moored instruments spread across the Arctic gateways.…”

Section: Observation-based Data (Obs)mentioning

confidence: 99%

“…For computation of the observation-based data, the initial surface freshwater flux is set to 0.18 Sv, based on climatological 'P minus E' and R values compiled from a few different sources (Tsubouchi et al, 2012). We would like to point out that the observation-based volume transport estimate of -0.15 ± 0.06 Sv together with the volume transport by sea 15 ice (-0.07 Sv, derived from -2080 km³/yr (Haine et al, 2015) using 1Sv = 31,536 km³/yr) nicely balances the 0.20 ± 0.08 Sv surface freshwater flux obtained from the inverse-model calculations, as discussed by Tsubouchi et al (2017b). This is also in excellent agreement with the updated surface freshwater flux estimate (0.203 ± 0.016 Sv or 6400 km³/yr, Carmack et al, 2016).…”

Section: Net Transportmentioning

confidence: 99%

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Volume and temperature transports through the main Arctic Gateways: A comparative study between an ocean reanalysis and mooring-derived data

Pietschnig

Mayer

Tsubouchi

et al. 2017

Preprint

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Oceanic transports through the Arctic gateways represent an integral part of the polar climate system, but comprehensive insitu-based estimates of this quantity have been lacking in the past. New observation-based estimates of oceanic volume, 15 temperature and freshwater transports have recently become available. Those estimates have been derived from moored observations in the four major gateways by applying mass and salinity constraints. We seize this opportunity to compare a recent ocean reanalysis release with those observation-based estimates. First, time series of integrated volume and temperature transports through each strait are considered. Good agreement is found for Davis Strait volume transports, but considerable disagreement of up to 1.1 Sv in Fram Strait and the Barents Sea Opening. The annual mean net volume export through the 20 gateways is -0.03 ± 0.23 Sv in the reanalysis, weaker than the -0.15 ± 0.06 Sv derived from the observation-based estimate (uncertainties represent the monthly standard deviation). The net ocean heat transport to the Arctic Ocean is similar in the two datasets (observation-based: 153 ± 44 TW, reanalysis: 145 ± 35 TW). Discrepancies in the integrated transports are further investigated by studying cross-sections of velocity, temperature and temperature flux density. These reveal good qualitative agreement in all straits, but considerable differences in the strength of major features like the East Greenland Current and the 25 West Spitzbergen Current. Examination of the instrumental coverage reveals that areas of discrepancy are often co-located with poorly observed regions. In conclusion, both types of data sets have their merits and are recommended to be used complementarily for climate studies in this data-sparse region. We hope that the results presented in this study can assist in planning future observational efforts and in the development of ocean reanalysis products. 30Ocean Sci. Discuss., https://doi

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Section: Observation-based Data (Obs)mentioning

confidence: 99%

Section: Net Transportmentioning

confidence: 99%

Volume and temperature transports through the main Arctic Gateways: A comparative study between an ocean reanalysis and mooring-derived data

Pietschnig

Mayer

Tsubouchi

et al. 2017

Preprint

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“…The recent warming of the Arctic and the change of its water cycle has been linked to the following manifestations: a significant reduction and thinning of the sea ice cover (Johannessen et al, 2004;Shimada et al, 2006;Rothrock et al, 2008;Kwok and Rothrock, 2009), more freshwater in the Arctic in the 2000s (Haine et al, 2015) and more mobility and faster deformations of the Arctic sea ice (Rampal et al, 2009;Spreen et al, 2011). The interpretation of such changes is severely hampered by the sparseness of the concerned observations, which should not be improved dramatically in the near future.…”

Section: Introductionmentioning

confidence: 99%

Quality assessment of the TOPAZ4 reanalysis in the Arctic over the period 1991–2013

Xie¹,

Bertino²,

Counillon³

et al. 2017

Ocean Sci.

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Abstract. Long dynamical atmospheric reanalyses are widely used for climate studies, but data-assimilative reanalyses of ocean and sea ice in the Arctic are less common. TOPAZ4 is a coupled ocean and sea ice data assimilation system for the North Atlantic and the Arctic that is based on the HYCOM ocean model and the ensemble Kalman filter data assimilation method using 100 dynamical members. A 23-year reanalysis has been completed for the period 1991-2013 and is the multi-year physical product in the Copernicus Marine Environment Monitoring Service (CMEMS) Arctic Marine Forecasting Center (ARC MFC). This study presents its quantitative quality assessment, compared to both assimilated and unassimilated observations available in the whole Arctic region, in order to document the strengths and weaknesses of the system for potential users. It is found that TOPAZ4 performs well with respect to near-surface ocean variables, but some limitations appear in the interior of the ocean and for ice thickness, where observations are sparse. In the course of the reanalysis, the skills of the system are improving as the observation network becomes denser, in particular during the International Polar Year. The online bias estimation successfully maintains a low bias in our system. In addition, statistics of the reduced centered random variables (RCRVs) confirm the reliability of the ensemble for most of the assimilated variables. Occasional discontinuities of these statistics are caused by the changes of the input data sets or the data assimilation settings, but the statistics remain otherwise stable throughout the reanalysis, regardless of the density of observations. Furthermore, no data type is severely less dispersed than the others, even though the lack of consistently reprocessed observation time series at the beginning of the reanalysis has proven challenging. IntroductionThe Arctic Ocean plays an important role in the global climate system, where the sea ice at the interface between atmosphere and ocean regulates the fluxes of heat, moisture and momentum. The recent warming of the Arctic and the change of its water cycle has been linked to the following manifestations: a significant reduction and thinning of the sea ice cover (Johannessen et al., 2004;Shimada et al., 2006;Rothrock et al., 2008;Kwok and Rothrock, 2009), more freshwater in the Arctic in the 2000s (Haine et al., 2015) and more mobility and faster deformations of the Arctic sea ice (Rampal et al., 2009;Spreen et al., 2011). The interpretation of such changes is severely hampered by the sparseness of the concerned observations, which should not be improved dramatically in the near future. It can be assisted by free-running model simulations, but those are usually hampered by mislocations of ice edge and certain water masses. One possibility is to study surrogate locations where similar processes are assumed to take place. Another solution is to correct the dynamical model by assimilating observations available over relevant timescales.The latter activities thu...

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“…The Arctic Ocean (AO) receives ∼ 10 % of the global freshwater discharge (Opsahl et al, 1999 and references therein), of which the larger part (∼ 54-64 %) originates from six main pan-Arctic rivers (Haine et al, 2015;Holmes et al, 2012;Aagaard and Carmack, 1989). Over the past 30 years, the Arctic freshwater cycle intensified as reflected by changes in snow cover (Bring et al, 2016), evapotranspiration from terrestrial vegetation (Bring et al, 2016), and precipitation (Vihma et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

Towards an assessment of riverine dissolved organic carbon in surface waters of the western Arctic Ocean based on remote sensing and biogeochemical modeling

Fouest

Matsuoka²,

Manizza

et al. 2018

Biogeosciences

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Abstract. Future climate warming of the Arctic could potentially enhance the load of terrigenous dissolved organic carbon (tDOC) of Arctic rivers due to increased carbon mobilization within watersheds. A greater flux of tDOC might impact the biogeochemical processes of the coastal Arctic Ocean (AO) and ultimately its capacity to absorb atmospheric CO 2 . In this study, we show that sea-surface tDOC concentrations simulated by a physical-biogeochemical coupled model in the Canadian Beaufort Sea for 2003-2011 compare favorably with estimates retrieved by satellite imagery. Our results suggest that, over spring-summer, tDOC of riverine origin contributes to 35 % of primary production and that an equivalent of ∼ 10 % of tDOC is exported westwards with the potential of fueling the biological production of the eastern Alaskan nearshore waters. The combination of model and satellite data provides promising results to extend this work to the entire AO so as to quantify, in conjunction with in situ data, the expected changes in tDOC fluxes and their potential impact on the AO biogeochemistry at basin scale.

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Arctic freshwater export: Status, mechanisms, and prospects

Cited by 371 publications

References 137 publications

Volume and temperature transports through the main Arctic Gateways: A comparative study between an ocean reanalysis and mooring-derived data

Volume and temperature transports through the main Arctic Gateways: A comparative study between an ocean reanalysis and mooring-derived data

Quality assessment of the TOPAZ4 reanalysis in the Arctic over the period 1991–2013

Towards an assessment of riverine dissolved organic carbon in surface waters of the western Arctic Ocean based on remote sensing and biogeochemical modeling

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