Hostname: page-component-77c89778f8-fv566 Total loading time: 0 Render date: 2024-07-23T03:48:15.242Z Has data issue: false hasContentIssue false
  • English
  • Français

The solubility of calcium carbonate in tropical sea water

Published online by Cambridge University Press:  11 May 2009

C. L. Smith
C. L. Smith
Affiliation:
Late Bahamas Sponge Fishery Investigations Department
Get access Rights & Permissions [Opens in a new window]

Extract

In a previous paper (Smith, 1940b) the chemical changes observed in ocean sea water flowing across the shallow banks on the west coast of Andros Island (Bahamas) were reported. High salinities were produced by evaporation and calcium carbonate was precipitated. From the data obtained under natural conditions a maximum value of the solubility product constant of calcium carbonate in sea water was suggested. There was no reason to believe, however, that this value of the constant represented the true equilibrium conditions, and experiments have since been made in the laboratory with a view to bringing water from these banks into equilibrium with solid calcium carbonate.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 25 , Issue 2 , November 1941 , pp. 235 - 242
Copyright
Copyright © Marine Biological Association of the United Kingdom 1941

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Buch, K., 1933. Der Borsäuregehalt des Meerwassers und seine Bedeutung bei der Berechnung des Kohlensäuresystems im Meerwasser. Conseil Int., p. l'expl. de la Mer. Rapp. et Procès-Verbaux, Vol. LXXXV, p. 71.Google Scholar
Buch, K., 1937. Die kolorimetrische Bestimmung der Wasserstoffionkoncentration im Seewasser. Conseil Int., p. l'expl. de la Mer. Rapp. et Procès-Verbaux, Vol. CIII, p. 27.Google Scholar
Gee, H., 1932. Calcium equilibrium in sea water. V. Preliminary experiments on precipitation by removal of carbon dioxide under aseptic conditions. Bull. Scripps Instit. Oceanog., tech. ser., Vol. 3, no. 7, p. 180.Google Scholar
Gee, H., Greenberg, D. M. & Moberg, E. G., 1932. Calcium equilibrium in sea water. II. Sealed bottles shaken at constant temperature. Bull. Scripps Instit. Oceanog., tech. ser., Vol. 3, no. 7, p. 158.Google Scholar
Gripenberg, S., 1937. A simplified method for the determination of calcium in sea water. Journ. du Conseil, Vol. XII, no. 3, p. 284.CrossRefGoogle Scholar
Hurley, , 1936. Borax as an acidimetric standard. Journ. Indust. Eng. Chem. (anal, ed.), Vol. 8, p. 220.Google Scholar
Kirk, P. L. & Moberg, E. G., 1933. Microdetermination of calcium in sea water. Journ. Indust. Eng. Chem. Vol. 5, p. 95.Google Scholar
Lyman, J. & Fleming, R. H., 1940. Composition of sea water. Sears Foundation: Journ. of Mar. Research, Vol. III, no. 2, p. 134.Google Scholar
Moberg, E. G., Greenberg, D. M., Revelle, R. & Allen, E. G., 1934. The buffer mechanism of sea water. Bull. Scripps Instit. Oceanog., tech. ser., Vol. 3, no. 11, p. 231.Google Scholar
Revelle, R. & Fleming, R. H., 1934. The solubility product constant of calcium carbonate in sea water. Proc. 5th Pac. Set. Congress, Vol. 3, p. 2089.Google Scholar
Smith, C. L., 1940 a. The Great Bahama Bank. I. General hydrographical and chemical features. Sears Foundation: Journ. of Mar. Research, Vol. III, no. 2, p. 147.Google Scholar
Smith, C. L., 1940 b. The Great Bahama Bank. II. Calcium carbonate precipitation. Sears Foundation: Journ. of Mar. Research, Vol. III, no. 2, p. 171.Google Scholar
Vaughan, T. W., 1918. Shoal water bottom samples from Murray Island, and comparisons of them with samples from Florida and the Bahamas. Carnegie Inst. Wash. Papers in Marine Biology, Vol. IX, p. 235.Google Scholar
Wattenberg, H., 1930. Über die Bestimmung der Alkalinität des Meerwassers. Annalen d. Hydrographie usw., Vol. 58, p. 277.Google Scholar
Wattenberg, H., 1933. Kalzium Karbonat und Kohlensäuregehalt des Meerwassers. Wiss. Ergeb. d. Deutschen Atlantischen Exped. Meteor, Bd. 8, p. 333.Google Scholar
Wattenberg, H. & Timmermann, E., 1936. Über die Sattigung des Seewassers an CaCO3 und die anorganogene Bildung von Kalksedimenten. Annalen d. Hydrographie usw., Vol. 64, Jahrg., H.I., S. 2331.Google Scholar