Acta Oceanologica Sinica

, Volume 36, Issue 8, pp 101–108 | Cite as

Accumulation of freshwater in the permanent ice zone of the Canada Basin during summer 2008

  • Jinlu Tong
  • Min Chen
  • Weifeng Yang
  • Run Zhang
  • Hong Pan
  • Minfang Zheng
  • Yusheng Qiu
  • Wangjiang Hu
  • Jian Zeng
Article
First Online:
Received:
Accepted:

Abstract

A combination of δ 18O and salinity data was employed to explore the freshwater balance in the Canada Basin in summer 2008. The Arctic river water and Pacific river water were quantitatively distinguished by using different saline end-members. The fractions of total river water, including the Arctic and Pacific river water, were high in the upper 50 m and decreased with depth as well as increasing latitude. In contrast, the fraction of Pacific river water increased gradually with depth but decreased toward north. The inventory of total river water in the Canada Basin was higher than other arctic seas, indicating that Canada Basin was a main storage region for river water in the Arctic Ocean. The fraction of Arctic river water was higher than Pacific river water in the upper 50 m while the opposite was true below 50 m. As a result, the inventories of Pacific river water were higher than those of Arctic river water, demonstrating that the Pacific inflow through the Bering Strait is the main source of freshwater in the Canada Basin. Both the river water and sea-ice melted water in the permanent ice zone were more abundant than those in the region with sea-ice just melted. The fractions of total river water, Arctic river water, Pacific river water increased northward to the north of 82°N, indicating an additional source of river water in the permanent ice zone of the northern Canada Basin. A possible reason for the extra river water in the permanent ice zone is the lateral advection of shelf waters by the Trans-Polar Drift. The penetration depth of sea-ice melted waters was less than 30 m in the southern Canada Basin, while it extended to 125 m in the northern Canada Basin. The inventory of seaice melted water suggested that sea-ice melted waters were also accumulated in the permanent ice zone, attributing to the trap of earlier melted waters in the permanent ice zone via the Beaufort Gyre.

Keywords

18freshwater river water sea ice melted water Canada Basin 
This is a preview of subscription content, log in to check access.

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. Aagaard K, Carmack E C. 1989. The role of sea ice and other fresh water in the Arctic circulation. J Geophys Res, 94(C10): 14485–14498CrossRefGoogle Scholar
  2. Anderson L G, Andersson P S, Björk G, et al. 2013. Source and formation of the upper halocline of the Arctic Ocean. J Geophys Res, 118(1): 410–421CrossRefGoogle Scholar
  3. Bauch D, Erlenkeuser H, Andersen N. 2005. Water mass processes on Arctic shelves as revealed from δ18O of H2O. Glob Planet Change, 48(1–3): 165–174CrossRefGoogle Scholar
  4. Bauch D, Schlosser P, Fairbanks R G. 1995. Freshwater balance and the sources of deep and bottom waters in the Arctic Ocean inferred from the distribution of H2 18O. Prog Oceanogr, 35(1): 53–80CrossRefGoogle Scholar
  5. Bauch D, van der Loeff M R, Andersen N, et al. 2011. Origin of freshwater and polynya water in the Arctic Ocean halocline in summer 2007. Prog Oceanogr, 91(4): 482–495CrossRefGoogle Scholar
  6. Bourg C, Stievenard M, Jouzel J. 2001. Hydrogen and oxygen isotopic composition of aqueous salt solutions by gas-water equilibration method. Chem Geol, 173(4): 331–337CrossRefGoogle Scholar
  7. Cai Weijun, Chen Liqi, Chen Baoshan, et al. 2010. Decrease in the CO2 uptake capacity in an ice-free Arctic Ocean Basin. Science, 329(5991): 556–559CrossRefGoogle Scholar
  8. Carmack E C, Macdonald R W, Perkin R G, et al. 1995. Evidence for warming of Atlantic water in the Southern Canadian Basin of the Arctic Ocean: results from the Larsen-93 Expedition. Geophys Res Lett, 22(9): 1061–1064CrossRefGoogle Scholar
  9. Carmack E C. 2000. The Arctic Ocean’s freshwater budget: sources, storage and export. In: Lewis E L, Jones E P, Lemke P, et al., eds. The Freshwater Budget of the Arctic Ocean. Netherlands: Springer, 91–106CrossRefGoogle Scholar
  10. Chen Min, Huang Yipu, Jin Mingming, et al. 2003. The sources of the upper and lower halocline water in the Canada Basin derived from isotopic tracers. Sci China Series D Earth Sci, 46(6): 625–639CrossRefGoogle Scholar
  11. Cooper L W, Benner R, McClelland J W, et al. 2005. Linkages among runoff, dissolved organic carbon, and the stable oxygen isotope composition of seawater and other water mass indicators in the Arctic Ocean. J Geophys Res, 110(G2): G02013CrossRefGoogle Scholar
  12. Cooper L W, McClelland J W, Holmes R M, et al. 2008. Flow-weighted values of runoff tracers (δ18O, DOC, Ba, alkalinity) from the six largest Arctic rivers. Geophys Res Lett, 35(18): L18606CrossRefGoogle Scholar
  13. Cooper L W, Whitledge T E, Grebmeier J M, et al. 1997. The nutrient, salinity, and stable oxygen isotope composition of Bering and Chukchi Seas waters in and near the Bering Strait. J Geophys Res, 102(C6): 12563–12573CrossRefGoogle Scholar
  14. Coplen T B, Kendall C. 2000. Stable isotope and oxygen isotope ratios for selected sites of the US Geological Survey’s NASQAN and Benchmark surface-water networks. US Geological Survey Open-File Report 00-160, 409Google Scholar
  15. Eicken H, Krouse H R, Kadko D, et al. 2002. Tracer studies of pathways and rates of meltwater transport through Arctic summer sea ice. J Geophys Res, 107(C10): 8046CrossRefGoogle Scholar
  16. Ekwurzel B, Schlosser P, Mortlock R A, et al. 2001. River runoff, sea ice meltwater, and Pacific water distribution and mean residence times in the Arctic Ocean. J Geophys Res, 106(C5): 9075–9092CrossRefGoogle Scholar
  17. Giles K A, Laxon S W, Ridout A L, et al. 2012. Western Arctic Ocean freshwater storage increased by wind-driven spin-up of the Beaufort Gyre. Nat Geosci, 5(3): 194–197CrossRefGoogle Scholar
  18. Grebmeier J M, Cooper L W, DeNiro M J. 1990. Oxygen isotopic composition of bottom seawater and tunicate cellulose used as indicators of water masses in the northern Bering and Chukchi Seas. Limnol Oceanogr, 35(5): 1182–1195CrossRefGoogle Scholar
  19. Guay C K H, Falkner K K, Muench R D, et al. 2001. Wind-driven transport pathways for Eurasian Arctic river discharge. J Geophys Res, 106(C6): 11469–11480CrossRefGoogle Scholar
  20. Holloway G, Wang Zeliang. 2009. Representing eddy stress in an Arctic Ocean model. J Geophys Res, 114(C6): C06020CrossRefGoogle Scholar
  21. Horita J, Ueda A, Mizukami K, et al. 1989. Automatic dD and δ18O analyses of multi-water samples using H2-and CO2-water equilibration methods with a common equilibration set-up. Int J Rad Appl Instrum Part A Appl Rad Isot, 40(9): 801–805CrossRefGoogle Scholar
  22. Johnson M A, Polyakov I V. 2001. The Laptev Sea as a source for recent Arctic Ocean salinity changes. Geophys Res Lett, 28(10): 2017–2020CrossRefGoogle Scholar
  23. Jones E P, Anderson L G. 1986. On the origin of the chemical properties of the arctic ocean halocline. J Geophys Res, 91(C9): 10759–10767CrossRefGoogle Scholar
  24. Jones E P, Anderson L G, Jutterström S, et al. 2008. Pacific freshwater, river water and sea ice meltwater across Arctic Ocean basins: results from the 2005 Beringia Expedition. J Geophys Res, 113(C8): C08012CrossRefGoogle Scholar
  25. Jones E P, Anderson L G, Swift J H. 1998. Distribution of atlantic and pacific waters in the upper Arctic ocean: implications for circulation. Geophys Res Lett, 25(6): 765–768CrossRefGoogle Scholar
  26. Macdonald R W, McLaughlin F A, Carmack E C. 2002. Fresh water and its sources during the SHEBA drift in the Canada Basin of the Arctic Ocean. Deep-Sea Res I, 49(10): 1769–1785CrossRefGoogle Scholar
  27. Macdonald R W, Paton D, Carmack E C, et al. 1995. The freshwater budget and under-ice spreading of Mackenzie River water in the Canadian Beaufort Sea based on salinity and 18O/16O measurements in water and ice. J Geophys Res, 100(C1): 895–920CrossRefGoogle Scholar
  28. Melling H, Moore R M. 1995. Modification of halocline source waters during freezing on the Beaufort Sea shelf: evidence from oxygen isotopes and dissolved nutrients. Cont Shelf Res, 15(1): 89–113CrossRefGoogle Scholar
  29. Morison J, Kwok R, Peralta-Ferriz C, et al. 2012. Changing Arctic Ocean freshwater pathways. Nature, 481(7379): 66–70CrossRefGoogle Scholar
  30. Newton R, Schlosser P, Martinson D G, et al. 2008. Freshwater distribution in the Arctic Ocean: simulation with a high-resolution model and model-data comparison. J Geophys Res, 113(C5): C05024CrossRefGoogle Scholar
  31. Newton R, Schlosser P, Mortlock R, et al. 2013. Canadian Basin freshwater sources and changes: Results from the 2005 Arctic Ocean Section. J Geophys Res, 118(4): 2133–2154CrossRefGoogle Scholar
  32. Östlund H G, Hut G. 1984. Arctic Ocean water mass balance from isotope data. J Geophys Res, 89(C4): 6373–6382CrossRefGoogle Scholar
  33. Pan Hong, Chen Min, Tong Jinlu, et al. 2015. Spatial and temporal variations of freshwater components at a transect near the Bering Strait during 2003-2012. Haiyang Xuebao (in Chinese), 37(11): 135–146Google Scholar
  34. Perovich D K, Richter-Menge J A, Jones K F, et al. 2011. Arctic sea-ice melt in 2008 and the role of solar heating. Ann Glaciol, 52(57): 355–359CrossRefGoogle Scholar
  35. Pfirman S, Haxby W, Eicken H, et al. 2004. Drifting Arctic sea ice archives changes in ocean surface conditions. Geophys Res Lett, 31(19): L19401CrossRefGoogle Scholar
  36. Pickart R S, Pratt L J, Torres D J, et al. 2010. Evolution and dynamics of the flow through Herald Canyon in the western Chukchi Sea. Deep-Sea Research II, 57(1–2): 5–26CrossRefGoogle Scholar
  37. Proshutinsky A, Bourke R H, McLaughlin F A. 2002. The role of the Beaufort Gyre in Arctic climate variability: seasonal to decadal climate scales. Geophys Res Lett, 29(23): 15–1CrossRefGoogle Scholar
  38. Proshutinsky A Y, Johnson M A. 1997. Two circulation regimes of the wind-driven Arctic Ocean. J Geophys Res, 102(C6): 12493–12514CrossRefGoogle Scholar
  39. Proshutinsky A, Krishfield R, Timmermans M L, et al. 2009. Beaufort Gyre freshwater reservoir: state and variability from observations. J Geophys Res, 114: C00A10Google Scholar
  40. Rudels B, Anderson L G, Jones E P. 1996. Formation and evolution of the surface mixed layer and halocline of the Arctic Ocean. J Geophys Res, 101(C4): 8807–8821CrossRefGoogle Scholar
  41. Semiletov I P, Savelieva N I, Weller G E, et al. 2000. The dispersion of Siberian river flows into coastal waters: meteorological, hydrological and hydrochemical aspects. In: Lewis E L, Jones E P, Lemke P, et al., eds. The Freshwater Budget of the Arctic Ocean. Netherlands: Springer, 323–366CrossRefGoogle Scholar
  42. Shi Jiuxin, Cao Yong, Zhao Jinping, et al. 2005. Distribution of Pacificorigin water in the region of the Chukchi Plateau in the Arctic Ocean in the summer of 2003. Acta Oceanol Sinica, 24(6): 12–24Google Scholar
  43. Shimada K, Kamoshida T, Itoh M, et al. 2006. Pacific ocean inflow: influence on catastrophic reduction of sea ice cover in the Arctic Ocean. Geophys Res Lett, 33(8): L08605CrossRefGoogle Scholar
  44. Steele M, Morison J, Ermold W, et al. 2004. Circulation of summer Pacific halocline water in the Arctic Ocean. J Geophys Res, 109(C2): C02027CrossRefGoogle Scholar
  45. Thompson D W J, Wallace J M. 1998. The Arctic Oscillation signature in the wintertime geopotential height and temperature fields. Geophys Res Lett, 25(9): 1297–1300CrossRefGoogle Scholar
  46. Tong Jinlu, Chen Min, Qiu Yusheng, et al. 2014. Contrasting patterns of river runoff and sea-ice melted water in the Canada Basin. Acta Oceanol Sinica, 33(6): 46–52CrossRefGoogle Scholar
  47. Woodgate R A, Aagaard K. 2005. Revising the Bering Strait freshwater flux into the Arctic Ocean. Geophys Res Lett, 32(2): L02602CrossRefGoogle Scholar
  48. Woodgate R A, Aagaard K, Weingartner T J. 2006. Interannual changes in the Bering Strait fluxes of volume, heat and freshwater between 1991 and 2004. Geophys Res Lett, 33(15): L15609CrossRefGoogle Scholar
  49. Woodgate R A, Weingartner T J, Lindsay R. 2012. Observed increases in Bering Strait oceanic fluxes from the Pacific to the Arctic from 2001 to 2011 and their impacts on the Arctic Ocean water column. Geophys Res Lett, 39(24): L24603CrossRefGoogle Scholar
  50. Yamamoto-Kawai M, Carmack E, McLaughlin F. 2006. Nitrogen balance and Arctic throughflow. Nature, 443(7107): 43CrossRefGoogle Scholar
  51. Yamamoto-Kawai M, McLaughlin F A, Carmack E C, et al. 2008. Freshwater budget of the Canada Basin, Arctic Ocean, from salinity, δ18O, and nutrients. J Geophys Res, 113(C1): C01007CrossRefGoogle Scholar
  52. Yamamoto-Kawai M, McLaughlin F A, Carmack E C, et al. 2009. Surface freshening of the Canada Basin, 2003–2007: river runoff versus sea ice meltwater. J Geophys Res, 114(C1): C00A05Google Scholar
  53. Yamamoto-Kawai M, Tanaka N, Pivovarov S. 2005. Freshwater and brine behaviors in the Arctic Ocean deduced from historical data of δ18O and alkalinity (1929–2002 AD). J Geophys Res, 110(C10): C10003CrossRefGoogle Scholar
  54. Zhao Jinping, Gao Guoping, Jiao Yutian. 2005. Warming in Arctic intermediate and deep waters around Chukchi Plateau and its adjacent regions in 1999. Sci China Ser D: Earth Sci, 48(8): 1312–1320CrossRefGoogle Scholar

Copyright information

© The Chinese Society of Oceanography and Springer-Verlag GmbH Germany 2017

Authors and Affiliations

  • Jinlu Tong
    • 1
  • Min Chen
    • 1
  • Weifeng Yang
    • 1
    • 2
  • Run Zhang
    • 1
  • Hong Pan
    • 1
  • Minfang Zheng
    • 1
  • Yusheng Qiu
    • 1
    • 2
  • Wangjiang Hu
    • 1
  • Jian Zeng
    • 1
  1. 1.College of Ocean and Earth SciencesXiamen UniversityXiamenChina
  2. 2.State Key Laboratory of Marine Environmental ScienceXiamen UniversityXiamenChina

Personalised recommendations