Growth Effects
  Growth Stimulation
Vanadium in Plant Species

  1. P.J. Peterson, C.A. Girling. Other trace metals. In: N.W. Lepp, ed. Effect of Heavy Metal Pollution on Plants. London: Applied Science Publishers, 1981, pp. 213-278.

  2. H.W. Martin, D.I. Kaplan. Temporal changes in cadmium, thallium, and vanadium mobility in soil and phytoavailability under field conditions. Water Air Soil Pollut. 101:399-410, 1998.
  3. M. Krachler, C. Mohl, H. Emons, W. Shotyk. Atmospheric deposition of V, Cr, and Ni since the late glacial: Effects of climatic cycles, human impacts, and comparison with crustal abundances. Environ. Sci. Technol. 37:2658-2667, 2003.

  4. J. Penuelas, I. Filella. Metal pollution in Spanish terrestrial ecosystems during the twentieth century. Chemosphere 46:501-505, 2002.

  5. J.O. Nriagu, J.M. Pacyna. Quantitative assessment of worldwide contamination of air, water and soils by trace metals. Nature 333:134-139, 1988.

  6. B. Mankovska. Concentrations of nutrient elements and microelements in the needles of Abies alba Mill. as an environmental indicator in the Carpathian Mountains. J. Forest Sci. 47:229-240, 2001.

  7. H.L. Cannon. The biogeochemistry of vanadium. Soil Sci. 96:196-204, 1963.

  8. M. Ovari, M. Csukas, G. Zaray. Speciation of beryllium, nickel, and vanadium in soil samples from Csepel Island, Hungary. Fresenius J. Anal. Chem. 370:768-775, 2001.

  9. J. Poledniok, F. Buhl. Speciation of vanadium in soil. Talanta 59:1-8, 2003.

  10. J.F. Wang, Z. Liu. Effect of vanadium on the growth of soybean seedlings. Plant Soil 216:47-51, 1999.

  11. A.J. Aller, J.L. Bernal, M.J. del Nozal, L. Deban. Effect of selected trace elements on plant growth. J. Sci. Fd. Agric. 51:447-479, 1990.

  12. D.I. Arnon, G. Wessel. Vanadium as an essential element for green plants. Nature 172:1039-1040, 1953.

  13. E.J. Hewitt. A perspective of mineral nutrition: Essential and functional metals in plants. In: D.A. Robb, W.S. Pierpoint, eds. Metals and Micronutrients. Uptake and Utilization by Plants. London: Academic Press, 1983, pp. 277-323.

  14. B.B. Singh. Effect of vanadium on the growth, yield and chemical composition of maize (Zea mays L.). Plant Soil 34:209-212, 1971.

  15. F.M. Basiouny. Distribution of vanadium and its influence on chlorophyll formation and iron metabolism in tomato plants. J. Plant Nutr. 7:1059-1073, 1984.

  16. R.M. Welch, E.W.D. Huffman, Jr. Vanadium and plant nutrition. Plant Physiol. 52:183-185, 1973.

  17. H.-U. Meisch, H.-J. Bielig. Effect of vanadium on growth, chlorophyll formation and iron metabolism in unicellular green algae. Arch. Microbiol. 105:77-82, 1975.

  18. Y. Kohno. Vanadium induced manganese toxicity in bush bean plants grown in solution culture. J. Plant Nutr. 9:1261-1272, 1986.

  19. C. Bould, E.J. Hewitt, P. Needham. Diagnosis of Mineral Disorders in Plants. Volume 1 Principles. London: Her Majesty's Stationery Office, 1983, pp. 40-41.

  20. L.X. Tham, N. Nagasawa, S. Matsuhashi, N.S. Ishioka, T. Ito, T. Kume. Effect of radiation-degraded chitosan on plants stressed with vanadium. Radiat. Phys. Chem. 61:171-175, 2001.

  21. S. Ueoka, J. Furukawa, T.M. Nakanishi. Multi-elemental profile patterns during the life cycle stage of the soybean. Part 2. Determination of transition elements, V, Cr, Mn, Fe and Zn. J. Radioanal. Nucl. Chem. 249:475-480, 2001.

  22. S. Ueoka, J. Furukawa, T.M. Nakanishi. Multi-elemental profile patterns during the life cycle stage of the soybean. Part 1. Determination of representative elements, Na, Mg, Al, K and Ca. J. Radioanal. Nucl. Chem. 249:469-473, 2001.

  23. J. Gil, C.E. Alvarez, C.M. Martinez, N. Perez. Effect of vanadium on lettuce growth, cationic nutrition, and yield. J. Environ. Sci. Health Part A Environ. Sci. Eng. 30:73-87, 1995.

  24. D.I. Kaplan, D.C. Adriano, C.L. Carlson, K.S. Sajwan. Vanadium: Toxicity and accumulation by beans. Water Air Soil Pollut. 49:81-91, 1990.

  25. A. Fargasova, E. Beinrohr. Metal-metal interactions in accumulation of V5+, Ni2+, Mo6+, Mn2+ and Cu2+ in under- and above-ground parts of Sinapis alba. Chemosphere 36:1305-1317, 1998.

  26. A. Olness, T. Nelsen, J. Rinke, W.B. Voorhees. Ionic ratios and crop performance: I. Vanadate and phosphate on soybean. J. Agron. Crop Sci. 185:145-151, 2000.

  27. A. Olness, D. Palmquist, J. Rinke. Ionic ratios and crop performance: II. Effects of interactions amongst vanadium, phosphorus, magnesium and calcium on soybean yield. J. Agron. Crop Sci. 187:47-52, 2001.

  28. K. Warington. Investigations regarding the nature of the interaction between iron and molybdenum or vanadium in nutrient solutions with and without a growing plant. Ann. App. Biol. 44:535-546, 1956.

  29. H.-U. Meisch, J. Bauer. The role of vanadium in green plants. IV. Influence on the formation of d- aminolevulinic acid in Chlorella. Archs. Microbiol. 117:49-52, 1978.

  30. H.-U. Meisch, H. Benzschawel, H.-J. Bielig. The role of vanadium in green plants. II. Vanadium in green algae - two sites of action. Archs. Microbiol. 114:67-70, 1977.

  31. N. Terry, J. Abadia. Function of iron in chloroplasts. J. Plant Nutr. 9:609-646, 1986.

  32. B.M. Chereskin, P.A. Castelfranco. Effects of iron and oxygen on chlorophyll biosynthesis. II. Observations on the biosynthetic pathway in isolated etiochloroplasts. Plant Physiol. 69:112-116, 1982.

  33. H.-U. Meisch, L.J.M. Becker. Vanadium in photosynthesis in Chlorella fusca and higher plants. Biochim. Biophys. Acta 636:119-125, 1981.

  34. T.S. Tso, T.P. Sorokin, M.E. Engelhaupt. Effects of some rare elements on nicotine content of the tobacco plant. Plant Physiol. 51:805-806, 1973.

  35. G.N. Buzuk, M. Ya Lovkova, S.M. Sokolova, Yu V. Tyutekin. Evaluation of the correlation between the content of alkaloids and chemical elements in Washington lupin (Lupinus polyphyllus Lindl.) by means of mathematical simulation. Dokl. Biol. Sci. 384:227-229, 2002.

  36. J. Sklenar, G.G. Fox, B.C. Loughman, A.D.B. Pannifer, R.G. Ratcliffe. Effects of vanadate on the ATP content, ATPase activity and phosphate absorption capacity of maize roots. Plant Soil 167:57-62, 1994.

  37. J. Furukawa, H. Yokota, K. Tanoi, S. Ueoka, S. Matsuhashi, N.S. Ishioka, S Watanabe, H. Uchida, A. Tsuji, T. Ito, T. Mizuniwa, A. Osa, T. Sekine, S. Hashimoto, T.M. Nakanishi. Vanadium uptake and an effect of vanadium treatment on F-18-labeled water movement in a cowpea plant by positron emitting tracer imaging system (PETIS). J. Radioanal. Nucl. Chem. 249:495-498, 2001.

  38. R.M. Welch. Vanadium uptake by plants. . Absorption kinetics and the effects of pH, metabolic inhibitors, and other anions and cations. Plant Physiol. 51:828-832, 1973.

  39. R.E. Wilkinson, R.R. Duncan. Vanadate influence on calcium (Ca) absorption by sorghum root tips. J. Plant Nutr. 16:1991-1994, 1993.

  40. S. Deiana, A. Dessi, C. Gessna, A. Premoli. Selective determination of vanadium (IV) and vanadium (V) in excised plant roots. Commun. Soil Sci. Plant Anal. 19:355-366, 1988.

  41. D.B. McPhail, D.J. Linehan, B.A. Goodman. An electron paramagnetic resonance (EPR) study of the uptake of vanadyl by wheat plants. New Phytol. 91:615-620, 1982.

  42. H.W. Martin, T.R. Young, D.I. Kaplan, L. Simon, D.C. Adriano. Evaluation of three herbaceous index plant species for bioavailability of soil cadmium, chromium, nickel and vanadium. Plant Soil 182:199-207, 1996.

  43. T. Faus-Kessler, C. Dietl, J. Tritschler, L. Peichl. Correlation patterns of metals in the epiphytic moss Hypnum cupressiforme in Bavaria. Atmos. Environ. 35:427-439, 2001.

  44. R. S�remark. Vanadium in some biological specimens. J. Nutr. 92:183-190, 1967.

  45. R.M. Welch, E.E. Cary. Concentrations of chromium, nickel and vanadium in plant materials. J. Agric. Fd. Chem. 23:479-482, 1975.

  46. E.M. Romney, A. Wallace, J. Kinnear, G.V. Alexander. Baseline mineral analysis of leaves from populations of two native plant species from geothermal areas of Imperial Valley, California. Soil Sci. 134:2-12, 1982.

  47. V. Gundersen, D. McCall, I.E. Bechmann. Comparison of major and trace element concentrations in Danish greenhouse tomatoes (Lycopersicon esculentum cv. Aromata F1) cultivated in different substrates. J. Agric. Fd. Chem. 49:3808-3815, 2001.

  48. R.M. Welch, W.H. Allaway. Vanadium determination in biological materials at nanogram levels by a catalytic method. Anal. Chem. 44:1644-1647, 1972.