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Bennett, J. P., Iron in leaves. Soil Sci.60, 91 (1945).
Comar, C. L., Analysis of plant extracts for chlorophylla andb using a commercial spectrophotometer. Ind. Eng. Chem. Anal. Ed.14, 877 (1942).
Comar, C. L. and Zscheile, F. P., Analysis of plant extracts for chlorophyllsa andb by a photoelectric spectrophotometric method. Plant Physiol.17, 198 (1942).
Comar, C. L., Benne, E. J. and Buteyn, E. K., Calibration of a photoelectric colorimeter for the determination of chlorophyll. Ind. Eng. Chem. Anal. Ed.15, 524 (1943).
Cooil, B. J., Potassium deficiency and excess in Guayule. 2. Cation-anion balance in the leaves. Plant Physiol.23, 403 (1948).
Cooil, B. J. and Slattery, M. C., Effects of potassium deficiency and excess upon certain carbohydrate and nitrogenous fractions in Guayule. Plant Physiol.23, 425 (1948).
Hewitt, E. J., A technique for large scale pot sand cultures. Ann. Rept. Long Ashton Research Sta. 1946, 37 (1947).
Hewitt, E. J., The resolution of the factors in soil acidity: some effects of manganese toxicity. Ann. Rept. Long Ashton Research Sta. 1946, 50 (1947).
Hewitt, E. J., and Bolle-Jones, E. W., Studies in iron deficiency of crops. 2. Preliminary experiments on the interrelationships of iron and potassium in the potato plant. J. Hort. Sci.28, 185 (1953).
Iljin, W. S., Der Stoffwechsel bei der Weinrebe während der Kalkchlorose. Die Gartenbauwiss.17, 338 (1943).
Ingalls, R. A. and Shive, J. W., Relation of hydrogen ion concentration of tissue fluids to the distribution of iron in plants. Plant Physiol.6, 103 (1931).
Mason, A. C., The estimation of iron in plant material. Ann. Rept. East Malling Research Sta. 1950, 124 (1951).
McGeorge, W. T., Lime induced chlorosis. Relation between active iron and citric and oxalic acid. Soil Sci.68, 381 (1949).
Nicholas, D. J. D., The application of rapid chemical tests to the diagnosis of mineral deficiencies in horticultural crops. Parts I and II. J. Hort. Sci.24, 72 (1948).
Nightingale, G. T., Physiological chemical functions of potassium in crop growth. Soil Sci.55, 73 (1943).
Olsen, C., Adsorptively bound potassium in Beech leaf cells. Physiol. Plantarum1 136 (1948).
Oserkowsky, J., The quantitative relation between chlorophyll and iron in green and chlorotic pear leaves. Plant Physiol.8, 449 (1933).
Pierre, W. H. and Bower, C. A., Potassium absorption by plants as affected by cationic relationships. Soil Sci.55, 23 (1943).
Quanjer, H. M., Waarnemingen over kringerigheid of „vuur“ en over „net necrose“ van aardappelen. Tijdschr. Plantenziekten32, 97 (1926).
Richards, F. J. and Templeman, W. G., Nitrogen metabolism in relation to nutrient deficiency and age in leaves of barley. Ann. Botany50, 367 (1936).
Rogers, C. H. and Shive, J. W., Factors affecting the distribution of iron in plants. Plant Physiol.7, 227 (1932).
Roy, W. R., Effect of potassium deficiency and of potassium derived from different sources on the composition of the juice of valencia oranges. J. Agr. Research70, 143 (1945).
Schander, H., Gedanken über Unterschiede und Übereinstimmungen der Chlorosiserscheinungen von Lupinen und Holzgewachsen. Die Gartenbauwiss.17, 304 (1942).
Schmalfuss, K., Untersuchungen über den Eiweissstoffwechsel von Kalimangelpflanzen. Phytopathol. Z.5, 207 (1932).
Schwarz, B., De roestvlekkenziekte van aardappelknollen in Nederlandsch Oost Indië. Tijdschr. Plantenziekten32, 321 (1926).
Sideris, and Young, H. Y., Effects of iron on chlorophyllous pigments, ascorbic acid, acidity and carbohydrates ofAnanas Comosus supplied with nitrate or ammonium salts. Plant Physiol.19, 52 (1944).
Sideris, C. P. and Young, H. Y., Effects of potassium on chlorophyll, acidity, ascorbic acid and carbohydrates ofAnanas Comosus. Plant Physiol.20, 649 (1945).
Sideris, C. P. and Young, H. Y., Effect of iron on certain nitrogenous fractions ofAnanas Comosus (L). Merr. Plant Physiol.21, 75 (1946).
Sideris, C. P. and Young, H. Y., Effect of potassium on the nitrogenous constituents ofAnanas Cosomus (L) Merr. Plant Physiol.21, 228 (1946).
Steinberg, R. A., Bowling, J. D. and McMurtrey, J. E., Accumulation of free amino acids as a chemical basis for morphological symptoms in tobacco manifesting frenching and mineral deficiency symptoms. Plant Physiol.25, 279 (1950).
Thorne, D. W. and Wallace, A., Some factors affecting chlorosis on high lime soils. 1. Ferrous and Ferric Iron. Soil Sci.57, 299 (1944).
Van der Plank, J. C., “The potato in health and disease”. (1936), pages 235 and 326 by Whitehead, McIntosh and Findlay, (1945).
Van Schreven, D. A., Kalkgebrek als oorzaak van mergnecrose bij aardappelknollen. Tijdschr. Plantenziekten,40, 226 (1934).
Vladimirov, A. V., Effect of potassium and magnesium sulphates and chlorides upon the formation of oxidised and reduced organic compounds in plants. Soil Sci.60, 377 (1945).
Wall, M. E., Nitrogen and carbohydrates metabolism in potassium deficient plants supplies with either nitrate or ammonium nitrogen. Soil. Sci.49, 393 (1940).
Wallace, T., “The diagnosis of mineral deficiencies in plants”. (H. M. Stationery Office) (1943).
Ward, D. E., and Petrie, A. H. K., The drifts in organic acid content of tobacco leaves in relation to phosphorus supply and topping. Australian J. Exp. Biol. Med. Sci.18, 21 (1940).
Weil-Malherbe, H. and Green, R. H., The catalytic effect of molybdate on the hydrolysis of organic phosphate bonds. Biochem. J.49, 286 (1951).
Weiss, M. G., Inheritance and physiology of efficiency in iron utilisation in soybeans. Genetics28, 253 (1943).
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These studies were carried out at Long Ashton Research Station and comprise part of the data submitted in a Ph. D. thesis to the University of Bristol in 1952.
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Bolle-Jones, E.W. The interrelationships of iron and potassium in the potato plant. Plant Soil 6, 129–173 (1955). https://doi.org/10.1007/BF01343445
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DOI: https://doi.org/10.1007/BF01343445