References
Adams, F. and Henderson, J. B., Magnesium availability as affected by deficient and adequate levels of potassium and lime. Soil Sci. Soc. Am. Proc.26 65–68 (1962).
Albrecht, W. A. and Schroeder, R. A., Plant nutrition and the hydrogen ion: I. Plant nutrients used most effectively in the presence of a significant concentration of hydrogen ions. Soil Sci.53 313–327 (1942).
Albrecht, W. A. and Smith, G. E., Soil acidity as Ca deficiency. Trans. Intern. Congr. Soil Sci. 5th Congr. Leopoldville1 119–135 (1952).
Barshad, I., Significance of the presence of exchangeable magnesium ions in acidified clays. Science131 988–989 (1960).
Burgess, P. S. and Pember, F. R., Active aluminum as a factor detrimental to crop production in many acid soils. Rhode Island Agr. Expt. Sta. Bull.194 (1923).
Camp, A. F., Chapman, H. D., Bahrt, G. M., and Parker, E. R., Symptoms of citrus malnutrition in Hunger Signs in Crops. Ed. G. Hambidge, American Society of Agronomy and National Fertilizer Association, Washington, D.C. (1941).
Chapman, H. D., Leaf and soil analyses in citrus orchards. University of California Division of Agricultural Sciences Manual25, (1960).
Coleman, N. T. and Craig, Doris, The spontaneous alteration of hydrogen clay. Soil Sci.91 14–18 (1961).
Coleman, N. T., Weed, S. B., and McKracken, R. J., Cation exchange capacity and exchangeable cations in Piedmont soils of North Carolina. Soil Sci. Soc. Am. Proc.23 146–149 (1959).
Ferrari, J. and Sluijsmans, C. M. J., Mottling and magnesium deficiency in oats and their dependence on various factors. Plant and Soil6 262–299 (1955).
Foy, C. D. and Brown, J. C., Toxic factors in acid soils: I. Characterization of aluminum toxicity in cotton. Soil Sci. Soc. Am. Proc.27 403–407 (1963).
Graham, E. R., Powell, S., and Carter, M., Soil magnesium and growth and chemical composition of plants. Missouri Agr. Expt. Sta. Research Bull.607 1–20 (1956).
Hunter, A. S., Yield and composition of alfalfa as affected by variations in the calcium-magnesium ratio in the soil. Soil Sci.67 53–62 (1948).
Jacob, A., Magnesium the Fifth Major Plant Nutrient. Staples Press, Ltd., London, England (1958).
Jacoby, B., Calcium-Magnesium ratios in the root medium as related to magnesium uptake by citrus seedlings. Plant and Soil15 74–80 (1961).
Key, J. L., Kurtz, L. T., and Tucker, B. B., Influence of ratio of exchangeable calcium-magnesium on yield and composition of soybeans and corn. Soil Sci.93 265–270 (1955).
McColloch, R. C., Bingham, F. T., and Aldrich, D. G., Relation of soil potassium and magnesium to magnesium nutrition of citrus. Soil Sci. Soc. Am. Proc.21 85–88 (1957).
Michale, von G. and Schilling, G., Uber den Magnesiums versorgungsgrad Mitteldeutschen Ackerböden. Z. Pflanzenernähr. Boden K.79 31–50 (1957).
Moser, F., The calcium-magnesium ratio in soils and its relation to crop growth. J. Am. Soc. Agron.25 365–377 (1933).
Parberry, N. H., Mineral constituents in relation to chlorosis of orange leaves. Soil Sci.39 35–45 (1935).
Peach, M., Determination of exchangeable magnesium in soils by titan yellow with reference to magnesium deficiency in citrus. Soil Sci. Soc. Am. Proc.4 189–191 (1939).
Pratt, P. F., Effect of pH on the cation exchange capacity of surface soils. Soil Sci. Soc. Am. Proc.25 96–98 (1961).
Prince, A. L., Zimmerman, M., and Bear, F. E., The magnesium supplying powers of 20 New Jersey soils. Soil Sci.63 69–78 (1947).
Reuther, W., Embleton, T. W., and Jones, W. W., Mineral nutrition of tree crops. Ann. Rev. Plant Physiol.9 175–206 (1958).
Scott, L. E. and Scott, D. H., Response of grape vines to soil and spray applications of magnesium sulfate. Proc. Am. Soc. Hort. Sci.57 53–58 (1951).
Spencer, W. F. and Koo, R. C. J., Calcium deficiency in field-grown citrus trees. Proc. Am. Soc. Hort. Sci.81 202–208 (1962).
Vlamis, J., Growth of lettuce and barley as influenced by degree of calcium saturation of soil. Soil Sci.67 453–466 (1949).
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Paper No. 1564, University of California Citrus Research Center and Agricultural Experiment Station, Riverside.
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Martin, J.P., Page, A.L. Influence of high and low exchangeable Mg and Ca percentages at different degrees of base saturation on growth and chemical composition of citrus plants. Plant Soil 22, 65–80 (1965). https://doi.org/10.1007/BF01377690
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DOI: https://doi.org/10.1007/BF01377690