Chemical characteristics of antarctic lakes of the Thala Hills

The article presents the results of measurements of the principal ions content, electrical conductivity and pH for 13 lakes and small (temporary) water ponds in the east part of the Thala Hills, Enderby Land, East Antarctica. Water sampling was carried out by participants of the seasonal Belarusian Antarctic expeditions in the period from 2011 to 2018. The purpose of the study is the evaluation of the hydrochemical composition of lakes and temporary ponds of the Thala Hills (on an example of the Vecherny Oasis), identification of natural and anthropogenic factors which determine the variability of the hydrochemical parameters for assessment of vulnerability of lakes and temporary ponds to anthropogenic impacts and climate change. It is shown that the waters of the lakes of this region are low mineralized with the sum of ions within the range of 10.6–87.5 mg/l (the average is 34.5 mg/l), electrical conductivity — 19.3–130.0 μS/cm (61.3 μS/cm). The water is characterized as slightly acidic and neutral. The waters of small (temporary) ponds are characterized by greater variability of hydrochemical parameters in comparison with lakes: the sum of ions is in the range of 6.7–915.0 mg/l (the average is 158.0 mg/l), the electrical conductivity is 4.6–1663.0 μS/cm (the average is 267.0 μS/cm). Coefficients of variation for most compounds in the waters of temporary ponds exceed 100 %. In most cases the predominance of sodium and chloride ions was established, which indicates the influence of marine aerosols on chemical composition of water lakes and temporary ponds. Elevated concentrations of mineral elements in the water of temporary ponds are caused by the lack of flow and, and as a consequence of thies, the accumulation of salts as a result of evaporation. 

1. Hodgson D.A. Antarctic Lakes. Encyclopedia of Lakes and Reservoirs (ed: Bengtsson L., Herschy R.W., Fairbridge R.W.). Encyclopedia of Earth Sciences Series. Springer, Dordrecht. 2012: 26–31.

2. Howard-Williams C., Hawes I., Doran P., Siegert M., Camacho A., Kaup E. Diversity of Antarctic lakes, ponds and streams. Antarctic Environmental Portal. 2019. Available at: https://www.environments.aq/information-summaries/diversity-of-antarctic-lakes-ponds-and-streams (accessed 16.08.2019).

3. MacNamara E.E. Some limnological observations from Enderby Land, Antarctica. Limnol. Oceanograph. 1970, 15: 768–775.

4. Nędzarek A., Tórz A., Podlasińska J. Ionic composition of terrestrial surface waters in Maritime Antarctic and the processes involved in formation. Antarctic Science. 2015, 27 (2): 150–161.

5. Healy M., Webster-Brown J.G., Brown K.L., Lane V. Chemistry and stratification of Antarctic meltwater ponds; II Inland ponds in the McMurdo Dry Valleys, Victoria Land. Antarctic Science. 2006, 18: 525–533.

6. Toro M., Camacho A., Rochera C., Rico E., Bañon M., Fernandez-Valiente, E., Marco, E., Justel, A., Avendano, M.C., Ariosa, Y., Vincent, W.F., Quesada A. Limnological characteristics of the freshwater ecosystems of Byers Peninsula, Livingston Island, in Maritime Antarctic. Polar Biology. 2007, 30: 635–649.

7. Nędzarek A., Pociecha A. Limnological characterization of freshwater systems of the Thomas Point Oasis (Admiralty Bay, King George Island, West Antarctica). Polar Science. 2010, 4: 457–467.

8. Giginiak Iu.G., Borodin O.I., Miamin V.E. Research conducted in the Antarctic by Belarusian biologists. Mater. II Mezhdunar. nauch.-prakt. konf. «Prirodnaia sreda Antarktiki: sovremennoe sostoianie izuchennosti». Proceedings of the I International scientific-practical conference “The natural environment of Antarctica: the current state of knowledge”. Minsk: Konfido, 2016: 84–94. [In Russian].

9. Miamin V.E., Nikitina L.V. Some characteristics of bacterioplankton of freshwater bodies of the Evening Oasis Molodezhny site (Tala Hills, East Antarctica). Mater. I Mezhdunar. nauch.-prakt. konf. «Monitoring sostoianiia prirodnoi sredy Antarktiki i obespechenie deiatel’nosti natsional’nykh ekspeditsii». Proceedings of the I International scientific-practical conference “Monitoring of a condition of a natural habitat of Antarctic and sub-Antarctic and maintenance of activity of national expeditions”. Minsk: Ekoperspektiva, 2014: 198–203. [In Russian].

10. Gasparon M., Lanyon R., Burgess J.S. & Sigurdsson I.A. The freshwater lakes of the Larsemann Hills, East Antarctica: chemical characteristics of the water column. ANARE Research Report. 2002, 147: 28 p.

11. Gillieson D., Burgess J.S., Spate A., Cochrane A. An atlas of the lakes of the Larsemann Hills, Princess Elizabeth Land, Antarctica. ANARE Research Notes. 1990, 74: 173 p.

12. Matsumoto G.I. Geochemical monitoring of Antarctic lakes and their ecosystems. Proc. NIPR Symp. Polar Biol. 1994, 7: 158–172.

13. Quesada A., Camacho A., Rochera C., Velazquez D. Byers Peninsula: A reference site for coastal, terrestrial and limnetic ecosystem studies in maritime Antarctica. Polar Science. 2009, 3(3): 181–187. http://dx.doi.org/10.1016/j.polar.2009.05.003.

14. Simonov I.M. Oazisy Vostochnoi Antarktidy. Oases of East Antarctica. Leningrad: Gidrometeoizdat, 1985. 180 p. [In Russian].

15. Aleksandrov M.V. Landshaftnaia struktura i kartirovanie oazisov Zemli Enderbi. Landscape structure and mapping of Enderby Earth oases. Leningrad: Gidrometeoizdat, 1985: 152 p. [In Russian].

16. Kakareka S., Kukharchyk T., Loginov V., Salivonchyk S. Construction and operation of antarctic research stations. An Experience of Comprehensive Environmental Evaluation. Minsk: StroyMediaProekt, 2016: 278 p.

17. Kakareka S., Kukharchyk T., Kurman P. Major and trace elements content in freshwater lakes of Vecherny Oasis, Enderby Land, East Antarctica. Environmental Pollution. 2019, 255(1, December): article 113126. https://doi.org/10.1016/j.envpol.2019.113126

18. Molodyozhnaya Station. Data. Available at: http://www.aari.aq/data/data.asp?lang=0&station=4 (accessed 14.12.2017).

19. Zazovskaya E., Mergelov N., Shishkov V., Dolgikh A., Miamin V., Cherkinsky A., Goryachkin S. Radiocarbon age of soils in oases of East Antarctica. Radiocarbon. 2016: 1–15. doi:10.1017/RDC.2016.75.

20. Murayama H., Watanuki K., Nakaya S., Nakaya S., Torii T. Monitoring of pond waters near Syowa Station (II). Memoirs NIPR Special Issue. 1984, 33: 187–193.

21. Fedorova I.V. Sovremennoe sostoianie i ustoichivost’ k vozdeistviiu vnutrennikh vodoemov Antarktidy. Current state and resistance to the effects of inland waters of Antarctica. PhD. geogr. sci. diss. St.-Petersburg, 2003: 236 p. [In Russian].

22. Klokov V., Kaup E., Zierath R., Haendel D. Lakes of the Bunger Hills (East Antarctica): chemical and ecological properties. Polish Polar Research. 1990, 11: 147–159.

23. Skorospekhova T.V., Fedorova I.V., Chetverova A.A., Alekseeva N.K., Verkulich S.R., Ezhikov I.S., Kozachek A.V. Characteristic of hydrochemical regime on Fildes Peninsula (King George Island, West Antarctica). Problemy Arktiki i Antarktiki. Arctic and Antarctic Research. 2016, 2: 79–91. [In Russian].

24. Abollino O., Aceto M., Buoso S., Gasparon M., Green W.J., Malandrino M., Mentasti E. Distribution of major, minor and trace elements in lake environments of Antarctica. Antarctic Sci. 2004, 16: 277–291.

25. Nędzarek A., Rakusa-Suszczewski S. Nutrients and conductivity in precipitation in the coast of King George Island (Antarctica) in relation to wind speed and penguin colony distance. Polish J. Ecol. 2007, 55: 705–716.

26. Green W.J., Angle M.P., Chave K.E. The geochemistry of Antarctic streams and their role in the evolution of four lakes of the McMurdo Dry Valleys. Geochimica Cosmochimica Acta. 1988, 52: 1265–1274.

27. Nedbalova L., Nyvlt D., Kopacek J., Sobr M., Elster J. Freshwater lakes of Ulu Peninsula, James Ross Island, north-east Antarctic Peninsula: origin, geomorphology and physical and chemical limnology. Antarctic Science. 2013, 25 (3): 358–372. doi:10.1017/S0954102012000934.