SEARCH

SEARCH BY CITATION

References

  • BLUME, J.M., HAGEN, CE. & MACKIE, R.W. (1950). Radiation injury to plants grown in nutrient solutions containing 32P. Soil Science, 70, 415.
  • BÖRNER, H., MORGENSTERN, W. & RADEMACHER, B. (1960). Markierung von Unkrautsamen (Sinapsis arvensis L.) mit 35S. Naturwiss., 47, 116.
  • BREMNER, I. & KNIGHT, A.H. (1970). The complexes of zinc, copper and manganese present in rye-grass. Br. J. Nutr., 24, 279.
  • CALLENDER, S.T. & WARNER, G.T. (1970). Iron absorption from brown bread. Lancet, 1, 546.
  • CALLENDER, S.T. & WARNER, G.T. (1971). Iron absorption from bread. Haematologia, 5, 369.
  • CASARETT, A.P. (1968). Effects of radiation on higher plants and plant communities. In: Radiation Biology (Ed. by A.P.Casarett) Prentice-Hall N.J.
  • CHESHIRE, M.V., MUNDIE, CM. & SHEPHERD, H. (1973). The origin of soil polysaccharide: transformation of sugars during the decomposition in soil of plant material labelled with 14C. J Soil Set, 24, 54.
  • CHESHIRE, M.V. MUNDIE, CM. & SHEPHERD, H. (1974). Transformation of sugars when rye hemicellulose labelled with 14C decomposes in soil. J. Soil Sci., 25, 90.
  • CHORNEY, W., SCULLY, N.J. & DUTTON, H.J. (1965). Radiation effects of carbon-14 and tritium on growth of soybeans. Radiation Botany, 5, 257.
  • CRAM, W.J. (1975). Storage tissues. In: Ion Transport in Plant Cells and Tissues. (Ed. by D.A.Baker and J.CHall) North-Holland Publishing Co.
  • DUDLEY, R.A. (1973). IAEA/WHO Programme on Iron Nutrition. Energy Ag. Bull., 15, 29.
  • ELWOOD, P.C, NEWTON, D., EAKINS, J.D. & BROWN, D.A. (1968). Absorption of iron from bread. Am. J. din. Nutr., 21, 1162.
  • ELWOOD, P.C, BENJAMIN, I.T., FRY, F.A., EAKINS, J.D., BROWN, D.A., DeKOCK, P.C. & SHAH, J.U. (1970). Absorption of iron from chapatti made from wheat flour. Am. J. din. Nutr., 23, 1267.
  • EPSTEIN, E. (1965). Mineral Metabolism. In: Plant Biochemistry (Ed. by J.Bonner and J.E.Varner) Academic Press, London .
  • FRIED, M. & BROESHART, H. (1967). The Soil-Plant System in Relation to Inorganic Nutrition. Academic Press, London .
  • GLUBRECHT, H. (1964). Mode of action of incorporated nuclides (comparison of external and internal irradiation). In: The use of induced mutations in plant breeding. Rept. FAO/IAEA Tech. Meeting, Rome. 91.
  • GUNCKEL, J. E. & SPARROW, A.H. (1961). Ionizing radiation: biochemical, physiological and morphological aspects of their effects on plants. Encycl. PI. Physiol, 16, 555. Springer-Verlag, Berlin .
  • MACKLON, A.E.S. (1976). An examination, by compartmental flux analysis, of the development of sodium and chloride absorption capacities in beetroot disks. J. exp. Bot., 27, 651.
  • MONK, CD. (1967). Radioisotope tagging through seed soaking. Bull. Ga. Acad. Set 25, 13.
  • NEATHERY, M.W., RACHMAT, S., MILLER, W.J., GENTRY, R.P. & BLACKMAN, D.M. (1972). Effect of chemical form of orally administered 65Zn on absorption and metabolism in cattle. Proc. Soc. exp. Biol. Med., 139, 953.
  • PAUL, A.G., SCULLY, N.J. & SCHWARTING, A.E. (1960). The biosynthesis of 14C-labelled ergot alkaloids. J Am. pharm. Ass., 49, 14.
  • ROSE, G.B., MONK, CD. & WIEGERT, R.G. (1967). Accumulation and transfer of calcium-45 by the biota of a tagged cornfield. U.S. atom. Energy Comm. Conf./650503. 672.
  • SCHULZ, R.K., KANTZ, A.D. & BABCOCK, K.L. (1973). Effect of beta irradiation on growth and yield of a field pea crop. Radiat. Res., 56, 122.
  • SCULLY, N.J., CHORNEY, W., KOSTAL, G., WATANABE, R., SKOK, J. & GLATTFELD, J.W. (1956). Biosynthesis in 14C-labelled plants; their use in agriculture and biological research. Proc. Int. Conf. Peaceful Uses Atomic Energy, Geneva, 12, 377. United Nations N.Y.
  • SPARROW, A.H. & POND, V. (1956). Some cytogenetic and morphogenetic effects of ionising radiation on plants. U.S. atom. Energy Comm. TID7512, 125.
  • THORNBURN, CC. (1972). Isotopes and Radiation in Biology. Butterworths, London .
  • TOCHER, C.A.S. (1965). Some aspects of iron nutrition of wheat and peas. Ph.D. thesis, Univ. of Washington U.S.A.
  • van STEVENINCK, R.F.M. (1962). Potassium fluxes in red beet tissue during its “Lag Phase”. Physiol Plant., 15, 211.
  • VAUGHAN, D., CHESHIRE, M.V. & MUNDIE, CM. (1974). Uptake by beetroot tissue and biological activity of 14C labelled fractions of soil organic matter. Biochem. Soc. Trans., 2, 126.
  • WIEGERT, R.G. & LINDEBORG, R.G. (1964). A ‘stem well’ method of introducing radioisotopes into plants to study food chains. Ecology, 45, 406.