Remember Me
Or use your Academic/Social account:


Or use your Academic/Social account:


You have just completed your registration at OpenAire.

Before you can login to the site, you will need to activate your account. An e-mail will be sent to you with the proper instructions.


Please note that this site is currently undergoing Beta testing.
Any new content you create is not guaranteed to be present to the final version of the site upon release.

Thank you for your patience,
OpenAire Dev Team.

Close This Message


Verify Password:
Verify E-mail:
*All Fields Are Required.
Please Verify You Are Human:
fbtwitterlinkedinvimeoflicker grey 14rssslideshare1
Fleetwood, Åke (2011)
Publisher: Co-Action Publishing
Journal: Tellus A
Languages: English
Types: Article
Surface water and precipitation samples were taken from Bjørnøya Island and analysed for various constituents. The ion contents of the waters are related to the different kinds of rock found in this area. An ettempt has been made to calculate the evaporation from the concentrations of different ions. An approximate evaporation rate of 72% has been found, which corresponds to meteorological estimations.DOI: 10.1111/j.2153-3490.1969.tb00424.x
  • The results below are discovered through our pilot algorithms. Let us know how we are doing!

    • Albrecht, F. 1962. Die Berechnungen der natiirlichen Verdunstung (Evapotranspiration) der Erdoberfliiche &us Klimatologischen Daten. Berichte des 3eutschen Wetterdienstes,No. 83, Vol. ll.
    • Alter, A. J. 1950. Water supply in Alaska. Amer. Water Works Ass. 42, No. 6., 519-532.
    • Behne, W. 1953. Untersuchungen zur Geochemie des Chlor und Brom. Geochimica et CoamochimicaActa 3, 186-214.
    • Boyd, W. L. 1959. Limnology of selected arctic lakes in relation to water supply problems. Ecology 40, 49-54.
    • Chatterjee, B. & Marshall, C. E. 1960. Studies in the ionization of magnesium, calcium and barium clays. Jour. Physical & Colloid Cemistry 54. Baltimore.
    • Emanuelsson, A., Eriksson, E. & EgnBr, H. 1954. Composition of atmospheric precipitation in Sweden. Tellus V I , 261-267.
    • Eriksson, E. 1952. Composition of atmospheric precipitation. I and 11. Tellus. 4 , 215-232, 280-303.
    • Eriksson, E. 1955. Air borne salts and the chemical composition of river waters. Tellus V I I , 243-250.
    • Eriksson, E. 1957. The chemical composition of Hawaiian rainfall. Tellus 9 , 509-520.
    • Eriksson, E. 1963. Atmospheric tritium as a tool for the study of certain hydrologic aspects of river basins. Tellus X V , 3.
    • Eriksson, E. & Khunakasem, V. 1968. The chemistry of ground waters. Ground water problems. Proc. Int. Symp. (Stockholm, 1966).
    • Gorham, E. 1955. On some factors affecting the chemical composition of Swedish fresh waters. Geochimica et Cownochimica Ada. 7, 129-150.
    • Gorham, E. 1958. The influence and importance of daily weather conditions in the supply of chloride, sulphate and other ions t o fresh waters from atmospheric precipitation. Phil. Trans. Royal SOC. London 241B, 147-178.
    • Gustavsson, Y. 1968. Topografins inverkan p& grundvattenbildningen. Ground water problems. Proc. Int. Symp. (Stockholm, 1966).
    • Hopkins, D. M. & Karlstrom, T. N. V. 1956. Permafrost and Ground Water in Alaska. Geol. survey prof. paper 264 -F.
    • Horn, G. & Orvin, A. 1928. Skrifter om Svalbard og Ishavet, No. 15.
    • Kjensmo, J. 1966. Electrolytes in Norwegian Lakes. Schweiz. Zeitschr. fur Hydrologie 28, 29-43.
    • Kuzmin, P. P. 1957. Hydrophysical Investigations of Land Waters. Gen. Ass. of Toronto, Publ. 45, V O ~ .111,pp. 468-478.
    • Kuzmin, P. P. Estimation of Evaporation from Snow. WMO Tech. note 83. No. 201. TP. 105.
    • Norske meteorologiske institutt Arsbok. 1964, 1965, 1966. Oslo.
    • Penman, H. L. 1948. Natural evaporation from open water, bare soil and grass. Royal SOCL. ondon Proc., Ser. A, vol. 193.
    • Odum, H. & Christensen, W. 1936. Danske grundvandstyper og deres geologiske Optraeden. DGU 111 Raekke, No. 26.
    • Rankama, K. & Sahama, T. G. 1950. Geochemistry. Chicago Univ. Press.
    • Rawson, D. S. 1942. A comparison of some large alpine lakes in western Canada. Ecology 23, 143- 161.
    • Rodhe, W. 1941. The ionic composition of lake waters. Verhand. der Int. Ver. fur teor. und angew. Limnologie, vol. X, 377-386.
    • Strem, K. M. 1944. High mountain limnology. M-N KZ,No. 8. Oslo.
    • Sugawara, K. 1961. Effect of sea breeze on the chemical composition of Coastal fresh-waterlakes. Ver. Internat. Ver. Limnologie X I V , 889-892.
    • Svedrup, H. U., Johnson, N. W. &Fleming, R. H. 1942. The oceans, their physics, chemistry and General biology, p. 214. New York.
    • Swinzow, G. K. 1966. Ice cover of a n Arctic proglacia1 Lake. Research Report 155. CRREL.
    • Tamm, C. 0. 1953. Growth, yield and nutrition in carpets of a forest moss (Hylocomium Splendens). Me&. Statens Skogsforskn.inst. 43: 1, 140 pp.
    • Tamm. 0. 1929. An experimental study on clay formation and weathering of felspars. Medd. f r . St. Skogsfors.anst., Hiifte 25.
    • Uhlig, S. 1954. Berechnungen der Verdunstung &us Klimatologischen Daten. Mitteil. des Deutschen Wetterdienstes 6.
    • Villiers, J. M. &Jackson, M. L. 1967. Cation exchange capacity variations with p H in soil clays. Soil Sci. PTOC3.1, 473-476.
  • No related research data.
  • Discovered through pilot similarity algorithms. Send us your feedback.

Share - Bookmark

Cite this article

Collected from