Plant Nutrition / Other Beneficial Elements / Cobalt

References

  1. F. Watanabe, Y. Nakano. Vitamin B12. Nippon Rinsho 57:2205-2210, 1999.

  2. P.A. Olson, D.R. Brink, D.T. Hickok, M.P. Carlson, N.R. Schneider, G.H. Deutscher, D.C. Adams, D.J. Colburn, A.B. Johnson. Effects of supplementation of organic and inorganic combinations of copper, cobalt, manganese and zinc above nutrient requirement levels on postpartum two-year-old cows. J. Anim. Sci. 77:522-532, 1999.
  3. F.B. Salisbury, C.W. Ross. Plant Physiology, 4th edition. Belmont, CA: Wadsworth Publishers, 1992, pp. 124-125.

  4. S. Ahmed, H.J. Evans. Cobalt: a micronutrient for the growth of soybean plants under symbiotic conditions. Soil Sci. 90, 205-210, 1960.

  5. N. Kuyacak, B. Volesky. The mechanism of cobalt biosorption. Biotechnol. Bioeng. 33:823-831, 1989.

  6. D.D. Ryrdina, G.G. Polikarpov. Distribution of certain chemical elements in biochemical fractions of the black sea alga Cystoseira barbata. Gidrobiol. Zh. 19:79-84, 1983.

  7. A. Samecka-Cymerman, A.J. Kempers. Bioaccumulation of heavy metals by aquatic macrophytes around Wroclaw, Poland. Ecotoxicol. Environ. Saf. 35:242-247, 1996.

  8. Y. Tateda, J. Misonolu. Marine indicator organisms of cobalt, strontium, cesium. Denryoku Chvo Kenkyusho Hokoku 9U88007:1-19, 1988.

  9. I.M. Munda, V. Hudnik. The effects of zinc, manganese and cobalt accumulation on growth and chemical composition of Fucus vesiculosus L.under different temperature and salinity conditions. Mar. Ecol. 9:213-216, 1988.

  10. S.M. Macfie, P.M. Welbourn. The cell wall as a barrier to uptake of metal ions in the unicellular green alga Chlamydomonas reinhardtii (Chlorophyceae). Arch. Environ. Contam. Toxicol. 39:413-419, 2000.

  11. Z.H. Ye, S.N. Whiting, Z.Q. Lin, C.M. Lytle, J.H. Qian, N. Terry. Removal and distribution of iron, manganese, cobalt and nickel within a Pennsylvania-constructed wetland treating coal combustion byproduct leachate. J. Environ. Qual. 30:1464-1473, 2001.

  12. E.G. Davidova, A.P. Belov, V.V. Zachinskii. The accumulation of labelled cobalt in yeast cells. Izh. Timiryazev S-KH Akad. Jul-Aug (4), pp. 109-114, 1986.

  13. G. Venkateswerlu, K. Sivaramasastry. The mechanism of uptake of cobalt ions by Neurospora crassa. Biochem. J. 118:497-503, 1970.

  14. P.R. Norris, D.P. Kelly. Accumulation of cadmium and cobalt by Saccharomyces cerevisiae. J. Gen. Microbiol. 99:317-324, 1977.

  15. C. White, G.M. Gadd. Uptake and cellular distribution of copper, cobalt and cadmium in strains of Saccharomyces cerevisiae cultured on elevated concentrations of these metals. FEMS Microbiol. Ecol. 38:277-284, 1986.

  16. H. Tuppy,W. Sieghart. Effects of Co2 on yeast mitochondria. Monatsh Chem. 104:1433-1443, 1973.

  17. L.S. Watrud, A.H. Ellingboe. Cobalt as a mitochondrial density marker in a study of cytoplasmic exchange during mating of Schizophyllum commune. J. Cell Biol. 59:127-133, 1973.

  18. G.M. Gadd, C. White, J.L. Mowel. Heavy metal uptake by intact cells and protoplast of Aureobasidium pollulans. FEBS Microbiol. Ecol. 45:261-268, 1987.

  19. A. Ruhling, G. Tyler. Sorption and retention of heavy metals in woodland moss Hylocomium splendens (Hedw.) Br. et Sch. Oikos 21:92-97, 1970.

  20. A. Kloke. Effects of heavy metals on soil fertility, flora and fauna as well as its importance for the nutrition and fodder-chain (in German). In: Proceedings of the Utilization of Refuse and Sewage sludge in Agriculture, Zurich, 1980, pp. 58-87.

  21. A.K. Roy, L.L. Srivastava. Removal of some micronutrients by forage crops in soils. J. Indian Soc. Soil Sci. 36:133-137, 1988.

  22. S. Palit, A. Sharma, G. Talukder. Effects of cobalt on plants. Bot. Rev. 60:149-181, 1994.


  23. R. Branden, K. Jamson, P. Nilsson, R. Aasa. Intermediates formed by the Co2 activated ribulose-1-5, biphosphate carboxylase/oxygenase from spinach studied by EPR spectroscopy. Biochem. Biophys. Acta 916:293-303, 1987.

  24. L.G. Craig, W.E. Schmid. Absorption of cobalt by excised barley roots. Plant Cell Physiol. 15:273-279, 1974.

  25. S.M. Cocucci, S. Morgutti. Stimulation of proton extrusion by potassium ion and divalent cations (nickel, cobalt, zinc) in maize (Zea mays cultivar Dekalab XL85) root segments. Physiol. Plant 68:497-501, 1986.

  26. I.T. Platash, L.I. Dyeryuhina,V.S. Art'omchenko. Astragalus micro-element. Farm Zh. 27:64-65, 1972.

  27. G.N. Schrauzer. Cobalt. In: E. Merian, ed. Metals and Their Compounds in the Environment. Weinheim, Germany: VCH Verlag, 1991, pp. 879-892.

  28. U. Boikat, A. Fink, J. Bleck-Neuhaus. Cesium and cobalt transfer from soil to vegetation on permanent pastures. Radiat. Environ. Biophys. 24:287-301, 1985.

  29. T. Kosla. Iron, manganese and cobalt levels in soil, pasture grass and bodies of young bulls after irrigation of the soil with waste water. Pol. Arch. Weter 24:587-596, 1987.

  30. E.C. Webb, J.B. van Ryssen, M.E. Eramus, C.M. McCrindle. Copper, manganese, cobalt and selenium concentrations in liver samples from African buffalo (Syncerus caffer) in the Kruger National Park. J. Environ. Monit. 3:583-585, 2001.

  31. Y.O. Korshunova, D. Eide,W.G. Clarke, M.L. Guirinot, H.B. Pakrasi. The IRT 1 protein from Arabidopsis thaliana is a metal transporter with a broad substrate range. Plant Mol. Biol. 40:37-44, 1999.

  32. A.E.S. Macklon, A. Sim. Cellular cobalt fluxes in roots and transport to the shoots of wheat seedlings. J. Exp. Bot. 38:1663-1677, 1987.

  33. A.E.S. Macklon, A. Sim. Cortical cell fluxes in roots and transport to the shoots of rye grass seedlings. Plant Physiol. 80:409-416, 1990.

  34. S. Tu, E. Nungesser, D. Braver. Characterization of the effects of divalent cations on the coupled activities of the proton-ATPase in tonoplast vesicles. Plant Physiol. 90:1636-1643, 1989.

  35. J. Jarosick, P. Z. Vara, J. Koneeny, M. Obdrzalek. Dynamics of cobalt 60 uptake by roots of pea plants. Sci. Total Environ. 71:225-229, 1988.

  36. T.A. Danilova, I.V. Tishchenko, E.N. Demikina. Distribution and translocation of cobalt in legumes. Agrokhimiya 2:100-104, 1970.

  37. D. Wiersma, B.J.V. Goor. Chemical forms of nickel and cobalt in phloem of Ricinus communis. Plant Physiol. 45:440-442, 1979.

  38. C.A. Peterson, W.E. Rauser. Callose deposition and photo assimilate export in Phaseolus vulgaris exposed to excess cobalt, nickel and zinc. Plant Physiol. 63:1170-1174, 1979.

  39. P.M. Patel, A. Wallace, R.T. Mueller. Some effects of copper, cobalt, cadmium, zinc, nickel and chromium on growth and mineral element concentration in Chrysanthemum. J. Am. Soc. Hortic. Sci. 101:553-556, 1976.

  40. A. Wallace, R.T. Muller, C.V. Alexander. High levels of four heavy metals on the iron status of plants. Commun. Soil Sci. Plant Anal. 7:43-46, 1976.

  41. F.A. Austenfeld. Effects of Ni, Co and Cr on net photosynthesis in Phaseolus vulgaris. Photosynthetica 13:434-438, 1979.

  42. F.I. Rehab, A. Wallace. Excess trace metal elements on cotton: 2. Copper, zinc, cobalt and manganese in yolo loam soil. Commun. Soil Sci. Plant Anal. 9:519-528, 1978.

  43. A.D. Robson, G.R. Mead. Seed cobalt in Lupinus angustifolius. Aust. J. Agric. Res. 31:109-116, 1980.

  44. N.A. Kenesarina. The effects of mineral fertilizers on cobalt content in potato plants. IZV Akad Nauk. Kaz SSR Ser. Biol. 6:31-35, 1972.

  45. J. Jorgovic-Kremzer, M. Duricic, V. Bjelic. Levels of copper, manganese, zinc, cobalt, iron and lead in cucumber before and after pickling. Agrohemija (5/6), pp. 165-171, 1980.


  46. C. White, G.M. Gadd, A.D. Robson, H.M. Fisher. Variation in nitrogen, sulfur, selenium, cobalt, manganese, copper and zinc contents of grain from wheat (Triticum aestivum) and 2 lupine (Lupinus) species grown in a range of Mediterranean environment. Aust. J. Agric. Res. 32:47-60, 1981.

  47. M. Coppenet, E. More, L.L. Corre, M.L. Mao. Variations in rye grass cobalt content: investigating enriching methods. Annu. Agron. 23:165-192, 1972.

  48. M.L. Berrow, R.L. Mitchell. Location of trace elements in soil profile: total and extractable contents of individual horizons. Trans. R Soc. Earth Sci. 71:103-122, 1980.

  49. D. Afusaic, T. Muraru. A study of trace element mobility in acid limed soils. Agrochim. Agrotech. Pasuni Finete 35:45-56, 1967.

  50. G.Y. Freiberg. Absorption of trace elements-Cu and Co by some field cultivars in relation to the content of organic matter in soil. Izv. Akad. Nauk. Latvijsk SSR 2:116-121, 1970.

  51. D.B.R. Poole, L. Moore, T.F. Finch, M.J. Gardiner, G.A. Fleming. An unexpected occurrence of cobalt pine in lambs in North Leinster. IR J. Agric. Res. 13:119-122, 1974.

  52. R.M. McKenzie. The manganese oxides in soils: a review. Zh. Boden Pflanz. 131:221-242, 1972.

  53. K.L. Iu, I.D. Pulford, H.J. Duncan. Influence of soil waterlogging on subsequent plant growth and trace element content. Plant Soil 66:423-428, 1982.

  54. R. Mercky, J.H. Van Grinkel, J. Sinnaeve, A. Cremera. Plant-induced changes in the rhizosphere of maize and wheat: II Complexion of Co, Zn and Mn in the rhizosphere of maize and wheat. Plant Soil 96:95-101, 1986.

  55. G.K. Kasimova, P.B. Zamanov, R.A. Abushev, M.G. Safarov. The effect of certain trace elements molybdenum, boron, manganese and cobalt in the background of mineral fertilizers on the biological activity of tobacco rhizosphere. Ref. Zh. Biol. 3:7-9, 1971.

  56. R.J. Ganson, R.A. Jensen. The essential role of cobalt in the inhibition of the cytosolic isozyme of 3-deoxy-D-arabino-heptulosonate-7-phosphate synthase from Nicotiana silvestris by glyphosate. Arch. Biochem. Biophys. 260:85-93, 1988.

  57. A.E. Ceniceros-Gomez, B. King-Diaz, N. Barba-Behrens, B. Lotina-Hennsen, S.E. Castillo-Blum. Two inhibition targets by [Cr(2gb)(3)](3) and [Co(2gb)(3)](3) on redox enzymes of spinach thylakoids. J. Agric. Food Chem. 47:3075-3080, 1999.

  58. M. Dennis, P.E. Kolattukudy. A cobalt porphyrin enzyme converts a fatty aldehyde to a hydrocarbon and Co. Proc. Natl. Acad. Sci. USA 12:5204-5210, 1992.

  59. C. Preston, M. Seibert. The carboxyl modifier 1-ethyl-3-[3-(Dimethylamino)propyl] carbodiimide (EDC) inhibits half of the high-affinity Mn-binding site in photosystem II membrane fragments. Biochemistry 30:9615-9633, 1991.

  60. H.C. Lee, J.B. Wittenberg, J. Peisach. Role of hydrogen bonding to bound dioxygen in soybean leg haemoglobin. Biochemistry 32:11500-11506, 1993.

  61. H. Zhu, E. Shipp, R.J. Sanchez, A. Liba, J.E. Stine, P.J. Hart, E.B. Gralla, A.M. Nersissian, J.S. Valentine. Cobalt (2) binding to tomato copper chaperone for superoxide dismutase: implications for the metal ion transfer mechanism. Biochemistry 39:5413-5421, 2000.

  62. C. Preston, M. Seibert. Partial identification of the high-affinity Mn-binding site in Scenedesmus obliquus Photosystem II. In: M Baltcheffsky, ed. Current Research in Photosynthesis, Vol. 1. Dordrecht, Netherlands: Kluwer, 1990, pp. 925-928.

  63. M.L. Ghirardi, T.W. Lutton, M. Seibert. Interactions between diphenylcarbazide, zinc, cobalt, and manganese on the oxidizing side of photosystem II. Biochemistry 35:1820-1828, 1996.

  64. L. Samudralwar, A.N. Garg. Minor and trace elemental determination of Indian herbal and other medicinal preparations. Biol. Trace Element Res. 54:113-121, 1996.

  65. S.M. Siegel. The cytotoxic response of Nicotiana protoplast to metal ions: a survey of the chemical elements. Water Air Soil Pollut. 8:292-304, 1977.

  66. H.E. Christensen, L.S. Conrad, J. Ulstrup. Redox potential and electrostatic effects in competitive inhibition of dual-path electron transfer reactions of spinach plastocyanin. Arch. Biochem. Biophys. 301:385-390, 1993.

  67. S.Y. Hachar-Hill, R.G. Shulman. Co2 as a shift reagent for 35Cl NMR of chloride with vesicles and cells. Biochemistry 31:6267-6268, 1992.

  68. J.G. Hunter, O. Verghano. Trace-element toxicities in oat plants. Annu. Appl. Biol. 40:761-777, 1953.

  69. A. Wallace, A.M. Abou-Zamzam. Low levels but excesses of five different trace elements, singly and in combination, on interaction in bush beans grown in solution culture. Soil Sci. 147:439-441, 1989.

  70. M. Agarwala, H.D. Kumar. Cobalt toxicity and its possible mode of action in blue-green alga Anacystis nidulans. Beitr. Biol. Pflanz. 53:157-164, 1977.

  71. C.P. Sharma, S.S. Bisht, S.C. Agrawala. Effect of excess supply of heavy metals on the absorption and translocation of iron (59 Fe) in barley. J. Nucl. Agric. Biol. 7:12-14, 1978.

  72. A. Wallace. Additive, protective and synergistic effects of plants with excess trace elements. Soil Sci. 133:319-323, 1982.

  73. L.A. Young, E.C. Sisler. Interaction of dicamba (3,6-dichloro-o-anisic-acid) and ethylene on tobacco leaves. Tob. Sci. 34:34-35, 1990.

  74. G. Battistuzzi, M. Dietrich, R. L�cke, H. Witzel. Evidence for a conserved binding motif of the dinuclear metal site in mammalian and plant acid phosphatases: 1H NMR studies of the di-iron derivative of the Fe(III)Zn(II) enzyme from kidney bean. Biochem. J. 323:593-596, 1997.

  75. F.M. Chaudhury, J.F. Loneragan. Zinc absorption by wheat seedlings: II. Inhibition by hydrogen ions and by micronutrient cations. Soil Sci. Soc. Am. Proc. 36:327-331, 1972.

  76. A.A. Anisimov, O.P. Ganicheva. Possible interchangeability between Co and Zn in plants. Fiziol. Biokhim. Kul't Rast. 10:613-617, 1978.

  77. W.L. Berry, A. Wallace. Toxicity: The concept and relationship to the dose response curve. J. Plant Nutr. 3:13-19, 1981.

  78. I. Gilles, H.G. Loeffler, F. Schneider. Cobalt-substituted acylamino-acid amido-hydrolase from Aspergillus oryzae. Zh. Naturf. Sect. C Biosci. 36:751-754, 1981.

  79. G. Venkateswerlu, G. Stotzky. Binding of metals by cell wall of Cunninghamella blakesleeana grown in the presence of copper or cobalt. Appl. Microbiol. Biotechnol. 31:619-625, 1986.

  80. V. Werner. Effect of nickel, cadmium and cobalt on the uptake of copper by intact barley (Hordeum distichon) roots. Zh. Pflanz. Physiol. 93:1-10, 1979.

  81. L.C. Rai, S.K. Dubey. Impact of chromium and tin on the nitrogen-fixing cyanobacterium Anabaena doliolum: interaction with bivalent cations. Environ. Saf. 17:94-104, 1989.

  82. H.F.G. Dang, N.A. Solovieva, Z.G. Evstigneeva, V.L. Kretovich. Purification, physicochemical properties, and kinetics of Spirulina platensis glutamine synthetase. Applied biochemistry and microbiology 23(6):621-626, 1988.

  83. A. Kapur, R.H. Chopra. Effects of some metal ions on protonemal growth and bud formation in the moss Timiella anomala grown in aseptic cultures. J. Hattori Bot. Lab. 10:283--298, 1989.

  84. S. Tosh, M.A. Choudhuri, S.K. Chatterjee. Retardation of lettuce (Lactuca sativa) leaf senescence by cobalt ions. Indian J. Exp. Biol. 17:1134-1136, 1979.

  85. F. Merritt, A. Kemper, G. Tallman. Inhibitors of ethylene synthesis inhibit auxin-induced stomatal opening in epidermis detached from leaves of Vicia faba L. Plant Cell Physiol. 42:223-230, 2001.

  86. E.A. Bulantseva, E.M. Glinka, M.A. Protsenko, E.G. Sal'kova. A protein inhibitor of polygalacturonase in apple fruits treated with aminoethoxyvinylglycine and cobalt chloride. Prikl. Biokhim. Mikrobiol. 37:100-104, 2001.

  87. V.P. Tarabrin, T.R. Teteneva. Presowing treatment of seeds and its effect on the resistance of wood plant seedlings against drought. Sov. J. Ecol. 10:204-211, 1979.

  88. B.N. Yadrov, S.E. Donitruk, V.G. Baturin. The effects of copper, manganese and cobalt on the productivity of a culture of isolated tissue of Datura innoxia Mill. Rastit. Resursy 14:408-411, 1978.

  89. V.V. Koval'Skii, N.I. Grinkevich, I.F. Gribovskaya, L.S. Dinevech, A.N. Shandova. Cobalt in medicinal plants and its effect on the accumulation of biologically active compounds. Rastit. Resursy 7:503-510, 1971.


  90. I.A. Petrishek, M. Ya. Lovkova, N.I. Grinkevich, L.P. Orlova, L.V. Poludennyi, Effects of cobalt and copper on the accumulation of alkaloids in Atropa belladonna. Biology bulletin of the Academy of Sciences of the USSR, 10(6):509-516, 1984.

  91. M.Y. Lovkova, G.N. Buzuk, N.S. Sabirova, N.I. Kliment'eva, N.I. Grinkevich. Pharmacognostic examination of Glaucium flavum Cr. Farmatsiya 37:31-34, 1988.

  92. N.L. Grinkevich, L.F. Gribovskaya, A.N. Shandova, L.S. Dinevich. Concentration of cobalt in some medicinal plants and its effect on the accumulation of flavonoids in buckwheat. Biol. Nauk. 14:88-91, 1971.

  93. I. Barbat, M. Tomsa, T. Suciu. Influence of foliar nutrition with microelements on some physiological processes in apple tree. Bull. Inst. Agron. Cluj-Napora Ser. Agric. 33:69-74, 1979.

  94. G. Chandra, K.S. Reddy, H.Y. Mohan Ram. Extension of vase life of cut marigold and chrysanthemum flowers by the use of cobalt chloride. Indian J. Exp. Biol. 19:150-154, 1981.

  95. D.W. Fujino, M.S. Reid. Factors affecting the vase life of fronds of maidenhair fern (Adiantum raddianum). Sci. Hortic. 21:181-188, 1983.

  96. T. Venkatarayappa, M.J.Tsujita, D.P. Murr. Influence of cobaltous ion on the post-harvest behaviour of roses (Rosa hybrida Samantha). J. Am. Soc. Hort. Sci. 105:148-151, 1980.

  97. R.K. Parashar, R.S. Sharma, R. Nagar, R.C. Sharma. Biological studies of ONS and ONN donor Schiff bases and their copper (II), nickel (II) and manganese (II) complexes. Curr. Sci. 56:518-521, 1987.

  98. R.B. Johari, R. Nagar, R.C. Sharma. Studies on copper (II), nickel (II), cobalt (II) and zinc (II) complexes of acetone salicyloyl hydrazone and ethyl methyl ketone salicyloyl hydrazone. Indian J. Chem. Soc. Inorg. Phys. Theor. Anal. 26:962-963, 1987.

  99. F.L. Tittle. Auxin-stimulated ethylene production in fern gametophytes and sporophytes. Plant Physiol. 70:499-502, 1987.

  100. T.L. Reynolds. A possible role of ethylene during IAA-induced pollen embryogenesis in anther cultures of Solanum carolinense L. Amer. J. Bot. 74:967-969, 1987.

  101. E.G. Sal'kova, E.A. Bulantseva. Effect of cobalt and silver ions on ethylene evolution by discs from the peel. Prikl. Biokhim. Mikrobiol. 24:698-702, 1988.

  102. O.I. Romanovskaya, V.V. Ilin, O.Z. Kreitsbreg. Ethylene biosynthesis in winter wheat and kidney beans upon growth inhibition with chlorocholine chloride. Fiziol. Rast. 35:893-898, 1988.

  103. H. Hyodo, R. Fukasawa. Ethylene production in kiwi fruit (Actinidia chinensis cultivar. Hayward). J. Jpn. Soc. Hortic. Sci. 54:209-215, 1985.

  104. I. Gaal, H. Ariunaa, M. Gyuris. Influence of various stress on ethylene production in wheat seedlings. Acta Univ. Szeged. Acta Biol. 34:35-44, 1988.

  105. O.L. Lau, S.F. Yang. Inhibition of ethylene production by cobaltous ion. Plant Physiol. 58:114-117, 1976.

  106. D. Crouzillat, M.O. Desbiel, C. Penel, T. Gasper. Lithium, aminoethoxy-vinylglycine and cobalt reversal of the cotyledonary prickling-induced growth inhibition in the hypocotyl of Bidens pilosus in relation to ethylene and peroxidase. Plant Sci. 40:7-12, 1985.

  107. S. Grover,W.K. Purves. Cobalt and plant development: interaction with ethylene in hypocotyl growth. Plant Physiol. 57:886-889, 1976.

  108. B.G. Kang. Effects of inhibitors of RNA and protein synthesis on bean hypocotyl hook opening and their implication regarding phytochrome action. Planta 87:217-226, 1969.

  109. J.M. Yopp. The role of light and growth regulators in the opening of the Dentaria petiolar hook. Plant Physiol. 54:7141-7147, 1973.

  110. M.C. Isola, L. Franzoni. Effect of ethylene on the increase in RNAase activity in potato tuber tissue. Plant Physiol. Biochem. 27:245-250, 1989.

  111. J.M. Belles, V. Conejero. Ethylene mediation of the viroid-like syndrome induced by silver ions in Gynura aurantiaca DC. Phytopathology 124:275-284, 1989.

  112. R.M. Wheeler, F.B. Salisbury. Gravitropism in higher plants shoots: 1. A role for ethylene. Plant Physiol. 67:686-690, 1981.

  113. J.S. Lee,W.K. Chang, M.L. Evans. Effects of ethylene on the kinetics of curvature and auxin redistribution in gravistimulated roots of Zea mays. Plant Physiol. 94:1770-1775, 1990.

  114. X. Qin, F. Wang, X. Wang, G. Zhou, Z. Li. Effect of combined treatment of 60 Co ?-rays and EMS on antioxidase activity and ODAP content in Lathyrus sativus. Ying Yong Sheng Tai Xue Bao 11:957-958, 2000.

  115. E.G. Hallsworth, S.B. Wilson, E.A.N. Greenwood. Copper and cobalt in nitrogen fixation. Nature 187:79-80, 1960.

  116. H.M. Reisenauer. Cobalt in nitrogen fixation by a legume. Nature 186:375-376, 1960.

  117. C.C. Delwiche, C.M. Johnson, R.M. Reisenauer. Influence of cobalt on nitrogen fixation by Medicago. Plant Physiol. 36:73, 1961.

  118. A.D. Robson, M.J. Dilworth, D.L. Chatel. Cobalt and nitrogen fixation in Lupinus angustifolius L. 1. Growth, nitrogen concentratins and cobalt distribution. New Phytol. 83:53-62, 1979.

  119. M.J. Dilworth, A.D. Robson, D.L. Chatel. Cobalt and nitrogen fixation in Lupinus angustifolius L. 2. Nodule formation and function. New Phytol. 83:63-79, 1979.

  120. R. Strauss. Nickel and cobalt accumulation by Characeae. Hydrobiologia 14:263-268, 1986.

  121. A. Hall. Heavy metal co-tolerance in a copper-tolerant population of the marine alga, Ectocarpus siliculosus. New Physiol. 85:73-78, 1980.

  122. G. Venkateswerlu, K. Sivaramasastry. Interrelationship in trace-element metabolism in metal toxicities in a cobalt resistant strain of Neurospora crassa. Biochem. J. 132:673-680, 1973.

  123. P.M. Mohan, K. Sivaramasastry. Interelationship in trace-element metabolism in metal toxicities in nickel-resistant strains of Neurospora crassa. Biochem. J. 212:205-210, 1983.

  124. V. Florza. Toxicity of metal ions for Aspergillus nidulans. Microbiol. Espan. 22:131-138, 1969.

  125. S. Ramada, A.A. Razak, A.M. Hamed. Partial dependence of Aspergillus fumigatus thermophilism on additive nutritional requirements. Mikrobiologia 25:57-66, 1988.

  126. R.S. Brooks, R.D. Reeves, R.S. Morrison, F. Malaisee. Hyperaccumulation of copper and cobalt: a review. Bull. Soc. Roy. Bot. Belg. 113:166-172, 1980.

  127. R.S. Brooks. Copper, magnesium and cobalt uptake by Haumanistrum species. Plant Soil 48:541-544, 1977.

  128. R.S. Morrison, R.R. Brooks, R.D. Reeves, F. Malaisse. Accumulation of copper and cobalt by metallophytes from Zaire. Plant Soil 53:535-540, 1979.

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