Abstract
Studies on the biochemistry of cobalt can be said to have commenced around 1934, when the cause of serious disorders of cattle and sheep, in various parts of the world, was finally traced to a deficiency of this element in their diet. Farmers and ranchers had realized for a very long time that if cattle and sheep were grazed continuously on these areas, the animals would lose appetite and weight, become anaemic and weak, and finally die. Agricultural scientists endeavored for many years to find an explanation by seeking toxic elements in the soil and vegetation, parasitic infestation, or deficiencies of the major elements essential for animal nutrition. When investigations turned to minor elements such as iron, and conflicting results were obtained, it was eventually discovered that the small quantity of cobalt present in some iron compounds was actually the curative agent.
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References
Aggarwal, P. N., Desai, M. V. M., 1980. Selective interaction of metal ions with humus, Bull. Radiat. Prot. 3: 23–25.
Beeson, K. C., 1950. Cobalt occurrence in soils and forages in relation to a nutritional disorder in ruminants, Inf. Bull. No. 7, U.S. Department of Agriculture, Washington, D.C.
Bertrand, G., Mokragnatz, M., 1930. Sur la répartition du nickel et du cobalt dans les plantes, Bull. Soc. Chim. 47: 32–331.
Davies, B. E., 1980. Applied Soil Trace Elements, Wiley, New York.
Einarsson, O., Erikson, E., Lindstedt, G., Wahlberg, J. E., 1979. Dissolution of cobalt from hard metal alloys by cutting fluids, Contact Dermatitis 5: 129–132.
Evans, H. J., Russell, S. A., Johnson, G. V., 1965. Role of cobalt in organisms that fix atmospheric nitrogen, Non-heme iron proteins, role energy conversion symp., Yellow Springs, Ohio, pp. 303–313.
Fell, B. F., 1981. Pathological consequences of copper deficiency and cobalt deficiency, Phil. Trans. Roy. Soc. Lond. Ser. B. 294 (1071): 153–169.
Gille, G. L., Graham, E. R., 1971. Isotopically exchangeable cobalt. Effect of soil pH and ionic saturation of a soil, Soil Sci. Soc. Am. Proc. 35: 414–416.
Hemkes, O. J., Kemp, A., Van Broekhoven, L. W., 1980. Accumulation of heavy metals in the soil due to annual dressings with sewage sludge, Neth. J. Agric. Sci. 28: 228–237.
Hodgkin, D. C., 1969. Vitamin B12, Proc. Roy. Inst. Gt. Br. 42(199), Pt. 6: 377–396.
Kovsh, N. V., Tolchel’nikov, Yu. S., 1980. Effect of peat composts on trace element mobility in sod podzol soils of various mechanical compositions, Vestn. Leningr. Univ. Biol. (3): 104–109; Chem. Abstr. 1981, 94: 14362.
Kulmatov, R. A., Rakhmatov, U., Kist, A. A., 1982. Migration forms of mercury, zinc, and cobalt in natural waters, Zh. Anal. Khim. 37:393–398; Chem. Abstr. 1982, 96: 168271.
Lambert, T. L., Blincoe, C., 1971. High concentrations of cobalt in wheat grasses, J. Sci. Food Agr. 22 (l): 8–9.
Li, Y. H., 1981. Geochemical cycles of elements and human perturbation, Geochim. Cosmochim. Acta 45: 2073–2084.
Malaisse, F., Gregoire, J., Morrison, R. S., Brooks, R. R., Reeves, R. D., 1979. Copper and cobalt in vegetation of Fungurume, Shaba Province, Zaire, Oikos 33: 472–478.
Meranger, J. C., Subramanian, K. S., Chalifoux, C., 1981. Survey for cadmium, cobalt, chromium, copper, nickel, lead, zinc, calcium, and magnesium in Canadian drinking water supplies, J. Assoc. Off. Anal. Chem. 64 (l): 44–53.
Morrison, R. S., Brooks, R. R., Reeves, R. D., Malaisse, F., 1979. Copper and cobalt uptake by metallophytes from Zaire, Plant Soil 53: 535–539.
Penchev, P., Velikov, B., 1982. Experimental studies of the simultaneous migration of heavy metals in sands of average coarseness, Izv. Vyssh. Ucheln. Zaved., Geol. Razved. 25(2): 110–116; Chem. Abstr. 1982, 96: 168302.
Shewry, P. R., Woolhouse, H. W., Thompson, K., 1979. Relationships of vegetation to copper and cobalt in the copper clearings of Haut Shaba, Zaire, Bot. J. Linn. Soc. 79: 1–35.
Sjoegren, I., Hillerdal, G., Andersson, A., Zetterstrohm, O., 1980. Hard metal lung disease: Importance of cobalt in coolants, Thorax 35: 653–659.
Smith, E. L., 1965. Vitamin Bn, 3rd ed., Wiley, New York.
Swaine, D. J., 1962. The trace-element content of fertilizers, Commonw. Bur. Soil Sci. Tech. Commun. No. 52, Farnham Royal, England.
Tai, S., Okada, M., Sudo, R., 1980. Origin of heavy metal contained in domestic sewage sludge, Kokuritsu Kogai Kenkyusho Kenkyu Hokoku 14:203–211, Chem. Abstr. 1981, 94: 144755.
Tuev, N. A., Chebaevskii, A. I., Shelikh, A. F., 1980. Reaction of cobalt with various fractions of humus compounds in sodpodzolic soils, Vestn. Leningr. Univ. Biol. (2):92–95; Chem. Abstr. 1980, 93: 131301.
Underwood, E. J., 1977. Trace Elements in Human and Animal Nutrition, 4th ed., Academic Press, London.
Young, R. S., 1979. Cobalt in Biology and Biochemistry, Academic Press, London.
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© 1984 Plenum Press, New York
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Young, R.S. (1984). Cobalt. In: Frieden, E. (eds) Biochemistry of the Essential Ultratrace Elements. Biochemistry of the Elements, vol 3. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-4775-0_6
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DOI: https://doi.org/10.1007/978-1-4684-4775-0_6
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