Emission and absorption of CO2 during the sea ice formation and melting in the high Arctic

The carbonate system of the Arctic sea ice is considered. The observations were conducted in the Nansen Basin at the drifting station North Pole-35 in 2007–2008. It was found that total alkalinity – salinity ratio (TA/S) and total inorganic carbon – salinity ratio (TC/S) as well as TA/TC ratio in the ice column and seawater column are similar. The deviations from that pattern were observed in the upper thin layer of the young and first-year ice and in the ice snow cap. The TA/TC ratio (equals to ~2) in the ice snow cap was related with the calcium hydrocarbonate decay and CO₂ removal. It was shown that CO₂ removal was due to its emission into the atmosphere. The CO₂ flux was equal to ~0.02 mol/m² for season. The water formed during melting of the first-year ice was significantly under saturated of CO₂ and hence it may be a sink of 0.05 0.07 mol/m² of the atmospheric CO₂ per season.

Аir–sea exchange, Arctic ocean, carbon dioxide, sea ice.,

1. Alekseev G.V., Nagurny A.P. Role of sea ice in the formation of yearly cycle of carbon dioxide in Arctic. Doklady Akademii Nauk.Proc. Proc. of the Russian Academy of Sciences. 2007, 417 (4): 541–544. [In Russian].

2. Golubev V.N. Role of Arctic sea ice in gas exchange of surface geospheres. Kriosfera Zemli. Earth Cryosphere. 2010, 14 (4): 17–29. [In Russian].

3. Zakharov V.F. L’dy Arktiki i sovremennye prirodnye process. Arctic ice and modern nature processes. Leningrad: Hydrometeoizdat, 1981: 136 p. [In Russian].

4. Ivanov A.V. Glyatziogennyi krugovorot veshchestv. Glaciogenic rotation of substances. Khabarovsk, 1993: 94 с. [In Russian].

5. Mel’nikov I.A. Ekosistema arkticheskogo morskogo l’da. Ecosystem of Arctic sea ice. Moscow: Institute of Oceanology of the Russian Academy of Sciences, 1989: 192 p. [In Russian].

6. Musina A.A. Salt composition of sea ice in Vilkitsky Strait. Trudy AANII. Proc. of AARI. 1960, 218: 159–199. [In Russian].

7. Nedashkovsky A.P., Khvedynich S.V., Petrovsky T.V. Alkalinity of sea ice in the high latitudinal Arctic (observations at the drifting station “North Pole – 34”) and evaluation of role of Arctic ice in the CO2 exchange. Okeanologiya. Oceanology. 2009, 49 (1): 61–69. [In Russian].

8. Nedashkovsky A.P., Shbetsova M.G. General inorganic carbon in sea ice. Okeanologiya. Oceanology. 2010, 50 (6): 910–917. [In Russian].

9. Nedashkovsky A.P., Makshtas A.P. Emission of СО2 in the atmosphere under formation of Arctic sea ice. Problemy Arktiki I Antarctiki. Problems of Arctic and Antarctic. 2010, 3 (86): 35–44. [In Russian].

10. Savel’ev B.A. Fizika, chimiya i stroenie prirodnykh l’dov. Physics, chemistry and structure of nature ice in the permafrost. Moscow State University, 1971: 508 p. [In Russian].

11. Tsurikov V.L. Zhidkaya faza v morskich l’dakh. Liquid phase in sea ice. Moscow: Nauka, 1976: 210 p. [In Russian].

12. Anderson L.G., Jones E.P. Measurements of total alkalinity, calcium and sulfate in natural sea ice. Journ. of Geophys. Research. 1985, 90 (C5): 9194–9198.

13. Anderson L.G., Falck E., Jones E.P., Jutterstrom S., Swift J.H. Enhanced uptake of atmospheric CO2 during freezing of seawater: Afield study in Storefjorden, Svalbard. Journ. of Geophys. Research. 2004, 109. C06004, doi: 10.1029/2003JC002120

14. Dieckmann G.S., Nehrke G., Papadimitriou S., Gottlicher J., Steininger R., Kennedy H., Wolf-Gladrow D., Thomas D.N. Calcium carbonate as ikaite crystals in Antarctic sea ice. Geophys. Research Letters. 2008, 35. L08501, doi:10.1029/2008GL033540

15. Dieckmann G.S., Nehrke G., Uhlig C., Gottlicher J., Gerland S.,Granskog M.A., Thomas D.N. Brief communication: ikaite (CaCO3∙6H2O) discovered in Arctic sea ice. The Cryosphere Discuss. 2010,4 (1): 153–161.

16. Jones E.P., Coote A.R. Oceanic CO2 Produced by the Precipitation of CaCO3 from brines in sea ice. Journ. of Geophys. Research. 1981, 86 (C11): 11041–11043.

17. NOAA Earth system research laboratory, global monitoring division. URL: http://www.esrl.noaa.gov/gmd/ccgg/trends/ (date: 10.09.2011)

18. Perovich D. K., Richter-Menge J.A. Surface characteristics of lead ice. Journ. of Geophys. Research. 1994, 99 (C8): 16341–16350.

19. Richardson C. Phase relationship in sea ice as a function of temperature. Journ. of Glaciology. 1976, 17 (77): 507–519.

20. Rysgaard S., Glud R.N., Sejr M.K., Bendtsen J., Christensen P.B. Inorganic carbon transport during sea ice growth and decay: A carbon pump in polar seas. Journ. of Geophys. Research. 2007, 112. C03016, doi: 10.1029/2006JC003572

21. Rysgaard S., Bendtsen J., Pedersen L.T., Ramløv H., Glud R.N. Increased CO2 uptake due to sea ice growth and decay in the Nordic Seas. Journ. of Geophys. Research. 2009, 114. C09011, doi: 10.1029/2008JC005088