This is a preview of subscription content, log in via an institution to check access.
Literature Cited
Allende, J. E., G. Mora, M. Gatica, &C. C. Allende. 1965. The role of metal ions in the formation of threonyl-soluble RNA from threonyl adenylate-enzyme complex. Jour. BioL. Chem.240: PC 3229–3232.
Bamford, R. 1931. Changes in root tips of wheat and corn grown in nutrient solutions deficient in calcium. Bull. Torrey Bot. Club58: 149–178.
Bangham, A. D., &D. Papahadjopoulos. 1966. Biophysical properties of phospholipids. I. Interaction of phosphatidyl serine monolayers with metal ions. Biochim. Biophys. Acta126: 181–184.
Bateman, D. F., &R. D. Lumsden. 1965. Relation of calcium content and nature of the pectic substances in bean hypocotyls of different ages to susceptibility to an isolate ofRhizoctonia solani. Phytopathology55: 734–738.
Beeson, K. C. 1941. Mineral composition of crops. U.S. Dep. Agr. Misc. Publ. 369, pp. 93–117.
Ben net-Clarke, J. A. 1956. Salt accumulation and the mode of action of auxin. A preliminary hypothesis.In: “The Chemistry and Mode of Action of Plant Growth Substances,” ed. byR. L. Wain &F. Wightman, Butterworth Scientific Publ., London, pp. 284–291.
Benson, A. A. 1966. On the orientation of lipids in chloroplasts and cell membranes. Jour. Amer. Oil Chem. Soc.43: 265–270.
Biddulph, O., R. Cory, &S Biddulph. 1959. Translocation of calcium in the bean plant. Plant Physiol.34: 512–519.
Bollard, E. G., &G. W. Butler. 1966. Mineral nutrition of plants. Ann. Rev. Plant Physiol.17: 77–112.
Bradshaw, A. D. 1952. Populations ofAgrostis tenuis resistant to lead and zinc poisoning. Nature169: 1098.
Branton, D. 1966. Fracture faces of frozen membranes. Proc. Natl. Acad. Sci., Washington,55: 1048–1056.
Brown, H. D., N. J. Neucere, A. M. Altschul, &W. J. Evans. 1965. Activity patterns of purified ATPase fromArachis hypogaea. Life Sci.4: 1439–1447.
Burling, E., &W. T. Jackson. 1965. Changes in calcium levels in cell walls during elongation of oat coleoptile sections. Plant Physiol.40: 138–141.
Burström, H. 1952. Studies on growth and metabolism of roots.VIII. Calcium as a growth factor. Physiol. Plantarum5: 391–402.
—. 1954. Studies on growth and metabolism of roots. X. Investigations of the calcium effect. Physiol. Plantarum7: 332–342.
—. 1957. Auxin and the mechanism of root growth.In: “Biological Action of Growth Substances,” Soc. Exp. Symp., Academic Press, New York,11: 44–62.
—. 1958. Influences of growth regulators on the composition of the cell wall. Kungl. Fysiograf. Sällskap. (Lund) Handl.28: 53–64. (Chem. Abstr.53: 20322e.)
Bushueva, T. M., &O. A. Semikhatova. 1965. Effect of calcium deficiency on the biochemical activity and structure of mitochondria from pea seedlings. Vestn. Leningr. Univ.20 (Ser. Biol. No. 2.): 106–112. (Chem. Abstr.63: 15231e.)
Cerbon, J. 1965. Variations in the 1ipid phase of living organisms during the transport process. Biochim. Biophys. Acta102: 449–458.
Chapman, H. D. 1966. Calcium.In: “Diagnostic Criteria for Plants and Soil,” ed. byH. D. Chapman, University of California Press, Berkeley, pp. 65–93.
Cheng, P-Y. 1965. Ultraviolet-rotatory dispersion as a probe for interaction between DNA and metal ions. Biochim. Biophys. Acta102: 314–316.
Chester, V. E. 1965. The role of calcium in the increase in flocculence of yeast growing in the presence of copper. Proc. Roy. Soc. (London) Ser. B162(989): 555–566.
Chrispeels, M. J., &J. E. Varner. 1967. Gibberellic acid-enhanced synthesis and release of α-amylase and ribonuclease by isolated barley aleurone layers. Plant Physiol.42: 398–406.
Clarkson, D. J. 1965. Calcium uptake by calcicole and calcifuge species ofAgrostis L. Jour. Ecol.53:427–435.
Cleland, R. 1960. Effect of auxin upon loss of calcium from cell walls. Plant Physiol.35: 581–584.
Cole, E. R., J. L. Koppel, &J. H. Olwin. 1964. Interaction of bovine autoprothrombin C with phospholipids and bivalent ions. Can: Jour. Biochem.42: 1595–1603.
Cormack, R. G. H. 1949. The development of root hairs in Angiosperms. Bot. Rev.15: 583–612.
—. 1965. The effect of calcium ions and pH on the development of callus tissue on stem cuttings of balsam poplar (Populus balsamifera). Can. Jour. Bot.43: 75–83.
Danielli, J. F., &H. Davson. 1935. A contribution to the theory of permeability of thin films. Jour. Cell Comp. Physiol.5: 495–508.
Davidson, F. M., &C. Long. 1958. The structure of naturally occurring phosphoglycerides 4. Action of cabbage-leaf phospholipase D on ovolecithin and related substances. Biochem. Jour.101: 31 P.
De Bruyn, J. A. 1966. Thein vitro germination of pollen ofSetaria sphacelata. II. Relations between boron and certain cations. Physiol. Plantarum19: 322–327.
De Kock, P. C. 1964. The physiological significance of the potassium-calcium relation in plant growth. Outlook on Agriculture4: 93–98.
Dodds, J. A. A., &R. J. Ellis. 1966. Cation-stimulated ATPase activity in plant cell walls. Biochem. Jour.101: 31 P.
Edwards, J. K. 1936. Cytological studies of toxicity in meristem cells of roots ofZea mays. 1. Effect of the neutral salts. Amer. Jour. Bot.23: 483–489.
Einset, E., &W. L. Clarke. 1958. The enzymatically catalysed release of choline from lecithin. Jour. Biol. Chem.231: 703–715.
Epstein, E. 1961. The essential role of calcium in selective cation transport by plant cells. Plant Physiol.36:437–444.
—,D. W. Rains, &O. E. Elzam. 1963. Resolution of the dual mechanisms of potassium absorption by barley roots. Proc. Natl. Acad. Sci., Washington,49: 684–692.
Epstein, F. H., &R. Whittam. 1966. The mode of inhibition by calcium of cell-membrane ATPase activity. Biochem. Jour.99: 232–238.
Florell, C. 1956. The influence of calcium on root mitochondria. Physiol. Plantarum9:236–242.
Foote, B. D., &J. B. Hanson. 1964. Ion uptake by soyabean root tissue depleted of calcium by EDTA. Plant Physiol.39: 450–460.
Galey, F., R. G. W. Jones, &O. R. Lunt. 1968. Microscopic and histochemical studies on calcium-deficient root apices ofZea mays. (In preparation.)
Germain, M., &P. Proulx. 1965. Adenosine triphosphatase activity in synaptic vesicles of rat brain. Biochem. Pharmacol.14: 1815–1819.
Gielink, A. J., G. Sauer, &A. Ringoet. 1966. Histoautoradiographic localisation of calcium in oat plant tissue. Stain Technol.41: 281–286.
Ginsberg, B. Z. 1958. A protein component of the middle lamella: a possible site for indole acetic acid action. Nature181: 398–400.
Gregory, R. P. G., &A. D. Bradshaw. 1965. Heavy-metal tolerance in populations ofAgrostis tenuis and other grasses. New Phytol.64: 131–143.
Griffin, D. H. 1966. Effect of electrolytes on differentiation inAchlya species. Plant Physiol.41: 1254–1256.
Grunwald, C. 1966. Calcium uptake by potato tuber mitochondria. Isolation and identification of Ca45 complexes. Physiol. Plantarum19: 335–347.
Handley, R., A. Metwally, &R. Overstreet. 1965. Effect of calcium upon metabolic and non-metabolic uptake of Na and Rb by root segments ofZea mays. Plant Physiol.40: 513–520.
Hanson, J. B. 1960. Impairment of respiration, ion accumulation and ion retention in root tissue treated with ribonuclease and EDTA. Plant Physiol.35: 372–379.
—,S. S. Malhotra, &C. D. Stoner. 1965. Action of calcium on corn mitochondria. Plant Physiol.40: 1033–1040.
Harris, E. J., R. Cockrell, &B. C. Pressman. 1966. Induced and spontaneous movement of potassium into mitochondria. Biochem. Jour.99: 200–213.
Haynes, J. L., &W. R. Robbins. 1948. Calcium and boron as essential factors in the root environment. Jour. Amer. Soc. Agron.40: 707–715.
Hewitt, E. J. 1963. Essential nutrient elements for plants.In: “Plant Physiology,” ed. byF. C. Steward, Academic Press, New York,3: 155–172.
Hirata, H., &S. Mitsui. 1965. Role of calcium in potassium uptake by plant roots. Plant Cell Physiol. (Tokyo)6: 699–709.
Hoagland, D. R., &D. I. Arnon, 1950. The water-culture method of growing plants without soil. Univ. California, Berkeley, Coll. Agr. Circ. 347.
Hodges, J. K., &J. B. Hanson. 1965. Calcium accumulation by maize mitochondria. Plant Physiol.40: 101–109.
Hooymans, J. J. M. 1964. The role of calcium in the absorption of anions and cations by excised barley roots. Acta Bot. Neerl.13: 507–540.
Hyde, A. H. 1966. Nature of the calcium effect in phosphorus uptake by barley roots. Plant and Soil24: 328–332.
Hyde, B. B., &R. L. Paliwal. 1958. Studies on the role of cations in the structure and behavior of plant chromosomes. Amer. Jour. Bot.45: 433–438.
Imanishi, A. 1966. Calcium binding by bacterial α-amylase. Jour. Biochem. (Tokyo)60: 381–390.
Jacobson, L., R. J. Hannapel, D. R. Moore, &M. Schaedle. 1961a. Influence of calcium on the selectivity of ion absorption process. Plant Physiol.36: 58–61.
——,M. Schaedle, &D. R. Moore. 1961b. Effect of root to solution ratio in ion absorption experiments. Plant Physiol.36: 62–65.
—,D. R. Moore, &R. J. Hannapel. 1960. Role of calcium in absorption of monovalent cations. Plant Physiol.35: 352–358.
Jones, R. G. W., &O. R. Lung. 1968. Influence of calcium and other ions on the elongation ofZea mays roots. (In preparation.)
Kavanau, J. L. 1966. Membrane structure and function. Federation Proc.25: 1096–1107.
Keay, L., &E. M. Crook. 1965. Effect of metal ions on hog liver esterase. Arch. Biochem. Biophys.111: 626–634.
Kenefick, D. G., &J. B. Hanson. 1966. Contracted state as an energy source for Ca binding and Ca + inorganic phosphate accumulation by corn mitochondria. Plant Physiol.41: 1601–1609.
Kirby, K. S. 1957. A new method for the isolation of deoxyribonucleic acids. Evidence on the nature of bonds between DNA and protein. Biochem. Jour.66: 495–504.
Korn, E. D. 1966. Structure of biological membranes. Science153: 1491–1498.
Kwak, B. H. 1965. The effect of calcium on pollen germination. Proc. Amer. Soc. Hort. Sci.86: 818–823.
Lamport, D. T. A. 1965. The protein component of primary cell walls.In: “Advances in Botanical Research,” ed. byR. D. Preston, Academic Press, London & New York,2: 151–218.
Legget, J. E., R. A. Galloway, &H. G. Gauch. 1965. Calcium activation of orthophosphate absorption by barley roots. Plant Physiol.40: 897–902.
Lehninger, A. L. 1967. Molecular basis of mitochondrial structure and function.In: “Molecular Organization and Biological Function,” ed. byJ. M. Allen, Harper & Row, New York & London, p. 121.
Lunt, O. R., &R. G. W. Jones. 1968. The low calcium requirement for the normal growth ofAgropyron elongatum. (In preparation.)
Marinos, N. G. 1962. Studies on submicroscopic aspects of mineral deficiencies. I. Calcium deficiency in the shoot apex of barley. Amer. Jour. Bot.49: 834–841.
Marquet, M. 1964. Influence de quelques cations divalents et du pH sur le mécanisme d’action de la glucose-6-phosphate déshydrogénase (G-6-PD) extraite deBacillus subtilis. Compt. Rend. Acad. Sci. (Paris)259(18): 3128–3131.
Marschner, H., &I. Gunther. 1964. Ionenaufnahne un Zellstrukturbei gertenwurzehn in Abhangigkeit von der Calcium-yersorgung. Zeitschr. Pflanzenernährung, Düngung, Bodenkunde107: 118–136.
—,R. Handley, &R. Overstreet. 1966. Potassium loss and changes in fine structure of corn root tips induced by H+-ion. Plant Physiol.41: 1725–1735.
Maryyama, K., &Y. Ishikawa-Katsuki. 1966. Calcium-dependent granular adenosine triphosphatase from glycinerated myofibrils. Jour. Biochem. (Tokyo)59: 310–312.
MascarenhAs, J. P. 1966. The distribution of ionic calcium in the tissue of the gynoecium ofAntirrhinum majus. Protoplasma62: 53–58.
—, &L. Machlis. 1964. Chemotropic response of the pollen ofAntirrhinum majus to calcium. Plant Physiol.39: 70–77.
McBrien, D. C. H., &K. A. Hassall. 1965. Loss of cell potassium byChlorella vulgaris after contact with toxic amounts of copper sulphate. Physiol. Plantarum18: 1059–1065.
McElroy, W. D., &A. Nason. 1954. Mechanism of action of micronutrient elements in enzyme systems. Ann. Rev. Plant Physiol.5: 1–30.
MildvAN, A. S., &M. Cohn. 1965. Kinetic and magnetic resonance studies of pyruvate kinase reaction. I. Divalent metal complexes of pyruvate kinase. Jour. Biol. Chem.240:238–246.
Millard, D. L., J. T. Wiskich, &R. N. Robertson. 1965. Ion uptake and phosphorylation in mitochondria: effect of monovalent ions. Plant Physiol.40: 1129–1135.
Millikan, C. R., &B. C. Hanger. 1965. Transport of45Ca and65Zn through collapsed petioles of calcium-deficient subterranean clover. Australian Jour. Biol. Sci.18: 1083–1091.
Mitchell, P. 1966. Chemiosmotic coupling in oxidative and photosynthetic phosphorylation. Biol. Rev.41: 445–502.
Morré, D. J., &J. Bonner. 1965. A mechanical analysis of root growth. Physiol. Plantarum18: 635–649.
Nason, A., &W. D. McElroy. 1963. Modes of action of the essential mineral elements.In: Plant Physiology,” ed. byF. C. Steward, Academic Press, New York,3: 451–536.
Nicholas, D. J. D. 1963. Inorganic nutrient nutrition of microorganisms.In: “Plant physiology,” ed. byF. C. Steward, Academic Press, New York,3: 402–408.
Nobel, P. S., &L. Packer. 1964. Energy-dependent ion uptake in spinach chloroplasts. Biochim. Biophys. Acta88: 453–455.
——. 1965. Light-dependent ion translocation in spinach chloroplasts. Plant Physiol.40: 633–640.
O’Keily, J. C., &W. R. Herndon. 1961. Alkaline earth elements and zoospore release and development inProtosiphon Botryoides. Amer. Jour Bot.48: 796–810.
Pharis, R. P., R. L. Barnes, &A. W. Naylor. 1964. Effects of nitrogen level, calcium level and nitrogen source on the growth and composition ofPinus taeda L. Physiol. Plantarum17: 560–572.
Pitman, M. G. 1965. The effect of divalent cations on the uptake of salt by beet root. Jour. Exp. Bot.15:444–456.
—, &H. D. W. Saddler. 1967. Active sodium and potassium transport in cells of barley roots. Proc. Natl. Acad. Sci., Washington,57: 44–49.
Purves, W. K. 1966. Monovalent cations and growth regulation. 1. Growth responses in cucumber hypocotyl segments. Plant Physiol.41: 230–233.
Rains, D. W., W. E. Schmid, &E. Epstein. 1964. Absorption of cation by roots. Effects of hydrogen ions and essential role of calcium. Plant Physiol.39: 274–278.
Rasmussen, H. D. 1966. What holds leaf cells together? Calcium pectate, says a histochemist. Frontiers of Plant Science, Conn. Agr. Exp. Sta. (New Haven),18(2): 4–5.
Ray, P. M., &D. B. Baker. 1965. The effect of auxin on synthesis of oat coleoptile cell wall constituents. Plant Physiol.40: 353–360.
Read, H. S. 1907. The value of certain nutritive elements to the plant cell. Ann. Bot.21: 501–543.
Robertson, J. D. 1959. The ultrastructure of cell membranes and their derivatives. Symp. Biochem. Soc.16: 3–43.
Rojas, E., &J. M. Tobias. 1965. Membrane model; association of inorganic cations with phospholipid monolayers. Biochim. Biophys. Acta94: 394–404.
Ruesink, A. W., &K. V. Thimann. 1965. Protoplasts from theAvena coleoptile. Proc. Natl. Acad. Sci., Washington,54: 56–64.
SarkisSian, J. V., &R. G. McDaniel. 1966. Regulation of mitochondrial activity by IAA. Biochim. Biophys. Acta128: 413–418.
Shah, D. O., &J. H. Schulman. 1967. Interaction of calcium ions with lecithin and sphingomyelin layers. Lipids2: 21–27.
Sjöstrand, F. S., E. A. Cedercren, &U. Karlsson. 1964. Myelin-like figures formed from mitochondrial material. Nature202: 1075–1078.
Skou, J. C. 1965. Enzymatic basis for active transport of Na+ and K+ across cell membrane. Physiol. Rev.45: 596–617.
Slepecky, R., &J. W. Foster. 1959. Alterations in metal content of spores ofBacillus megaterium and the effect on some spore properties. Jour. Bact.78: 117–123.
Smith, E. 1951. Proteolytic enzymes.In: “The Enzymes,” ed. byJ. B. Sumner &K. Myrbäck, Academic Press, New York,1(2): 847.
Sorokin, H., &A. L. Sommer. 1929. Changes in the cells and tissues of root tips induced by the absence of calcium. Amer. Jour. Bot.16: 23–29.
Spanswick, R. M., &E. J. Williams. 1965. Calcium fluxes and membrane potentials inNitella translucens. Jour. Exp. Bot.16: 463–473.
Spurr, A. R. 1959. Anatomical aspects of blossom-end rot in the tomato with special reference to calcium nutrition. Hilgardia28: 269–295.
Starr, M. P., &F. Moran 1962. Eliminative split of pectic substances by phytopathogenic soft-rot bacteria. Science135: 920–921.
Steffensen, D. 1958. Chromosome aberrations in calcium-deficientTradescantia produced by irradiation. Nature182: 1750–1751.
Tagawa, T., &J. Bonner. 1957. Mechanical properties ofAvena coleoptile as related to auxin and ionic interaction. Plant Physiol.32: 207–212.
Takagi, T., &T. Isemura. 1965. Necessity of calcium for renaturation of reduced Taka-amylase A. Jour. Biochem. (Tokyo)57: 89–95.
Tanada, T. 1955. Effects of ultraviolet radiation and calcium and their interaction on salt absorption by excised mung bean roots. Plant Physiol.30: 221–225.
—. 1956. Effect of ribonuclease on salt absorption by excised mung bean roots. Plant Physiol.31:251–253.
Taylor, H. F., &R. L. Wain. 1966. Studies on plant growth-regulating substances. XX. The release of pectic substances from wheat coleoptile tissue incubated with solutions of EDTA. Ann. Appl. Biol.57: 301–309.
Thompson, G. A. 1965. Cellular membranes.In: “Plant Biochemistry,” ed. byJ. Bonner &J. E. Varner, Academic Press, New York, pp. 64–88.
Tisdale, S. L., &W. L. Nelson. 1966. Soil fertility and fertilizers. Macmillan, New York & London, p.8.
Torii, K., &G. G. Laties. 1966. Dual mechanism of ion uptake in relation to vacuolation in corn roots. Plant Physiol.41:863–870.
True, R. H. 1914. The harmful action of distilled water. Amer. Jour. Bot.1: 255–273.
—. 1922. The significance of calcium for higher green plants. Science55: 1–6.
Truelove, B., &J. B. Hanson. 1966. Calcium-activated phosphate uptake in corn mitochondria. Plant Physiol.41: 1004–1013.
Van Steveninck, R. F. M. 1965. Significance of calcium on the apparent permeability of cell membranes and the effects of other divalent ions. Physiol. Plantarum18: 54–96.
Viets, F. G. 1944. Calcium and other polyvalent cations as accelerators of ion accumulation by excised barley roots. Plant Physiol.19: 466–480.
Waisel, Y. 1962. The effect of calcium on the uptake of monovalent ions by excised barley roots. Physiol. Plantarum15: 709–724.
Wallace, A., E. Frolich, &O. R. Lunt. 1966. Calcium requirement of higher plants. Nature209: 634.
Wallace, T. 1961. The diagnosis of mineral deficiencies in plants. H. M. Stationery Office, London, vii + 125 pp. + plates.
White, P. R. 1943. A handbook of plant tissue culture. The Jacques Cattel Press, Lancaster, Penna., xiii + 277 pp.
Wilkins, D. A. 1960. Recognizing adaptive variants. Linnean Soc. Proc, London,171: 122–126.
Author information
Authors and Affiliations
Additional information
The work reported in this paper and the preparation of the manuscript were supported by National Science Foundation Grant B5-1226 to Dr. O. R. Lunt.
Rights and permissions
About this article
Cite this article
Jones, R.G.W., Lunt, O.R. The function of calcium in plants. Bot. Rev 33, 407–426 (1967). https://doi.org/10.1007/BF02858743
Issue Date:
DOI: https://doi.org/10.1007/BF02858743