Algae, Tree, Herbs, Bush, Shrub, Grasses, Vines, Fern, Moss, Spermatophyta, Bryophyta, Fern Ally, Flower, Photosynthesis, Eukaryote, Prokaryote, carbohydrate, vitamins, amino acids, botany, lipids, proteins, cell, cell wall, biotechnology, metabolities, enzymes, agriculture, horticulture, agronomy, bryology, plaleobotany, phytochemistry, enthnobotany, anatomy, ecology, plant breeding, ecology, genetics, chlorophyll, chloroplast, gymnosperms, sporophytes, spores, seed, pollination, pollen, agriculture, horticulture, taxanomy, fungi, molecular biology, biochemistry, bioinfomatics, microbiology, fertilizers, insecticides, pesticides, herbicides, plant growth regulators, medicinal plants, herbal medicines, chemistry, cytogenetics, bryology, ethnobotany, plant pathology, methodolgy, research institutes, scientific journals, companies, farmer, scientists, plant nutrition
Select Language:
Main Menu
Please click the main subject to get the list of sub-categories
Services offered
  Section: Plant Nutrition » Other Beneficial Elements » Vanadium
Please share with your friends:  


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. Söremark. 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.


Copyrights 2012 © | Disclaimer