Aluminium phytotoxicity and plant acclimation to acidic soils

International Journal of Agricultural Research

Volumn 6, Issue 3, 2011, Pages 194-208

  R'bia, Olfa ^a   Horchani, Faouzi ^a   Smida, Imen ^a   Mejri, Myriam ^a   Aschi Smiti, Samira ^a  

^a FACULTÉ DES SCIENCES DE TUNIS   (Tunisia)

Author keywords

Acidic soils; Aluminium; Phytotoxicity; Plant acdimation

Indexed keywords

EID: 79958056666     PISSN: 18164897     EISSN: None     Source Type: Journal    
DOI: 10.3923/ijar.2011.194.208     Document Type: Article

References (79)

1. Achary, V.M.M., S. Jena, K. Panda and B. Panda, 2008. Aluminium induced oxidative stress and DNA damage in root cells of Allium cepa L. Ecotox. Environ. Saf., 70: 300-310.
2. +-ATPase activity by permanently altering the plasma membrane surface potentials in squash roots. Plant Physiol., 126: 1381-1390.
3. Alva, A.K., D.G. Edwards, C.J. Asher and P.P.C. Blarney, 1986. Relationships between root length of soybean and calculated activities of aluminum monomers in nutrient solution. Soil Sci. Soc. Am. J, 50: 959-962.
4. Aniol, A., 1984. Induction of aluminium tolerance in wheat seedlings by low doses of aluminum in the nutrient solution. Plant Physiol., 76: 551-555.
5. Basu, U., D. Godbold and G.J. Taylor, 1994. Aluminum resistance in Triticum aestivum associated with enhanced exudation of malate. J. Plant Physiol., 144: 747-753.
6. Blarney, F.P., D.C. Edmeades and D.M. Wheeler, 1990. Role of root cation-exchange capacity in differential aluminium tolerance of Lotus species. J. Plant Nutr., 13: 729-744.
7. Chandran, D., N. Sharopova, K.A. Vandenbosh, D.F. Garvin and D.A. Samac, 2008a. Phylosiological and molecular characterization of aluminium resistance in Medicago truncatuala. BMC Plant Biol., 8: 1-89.
8. Chandran, D., N. Sharopova, S. Ivashuta, J.S. Gantt, K.A. Vandenbosch and D.A. Samac, 2008b. Transcriptome profiling identified novel genes associated with aluminium toxity, resistance and tolerance in Medicago truncatula. Planta, 228: 151-166.
9. Christie, P., J.M. Hahn and V. Walbot, 1991. Low temperature, accumulation of alcohol dehydrogenase-1 triRNA and protein activity in maize and rice seedlings. Plant Physiol., 95: 699-706.
10. Copeland, L. and M. De Lima, 1992. The effect of aluminium on enzyme activities in wheat roots. J. Plant Physiol, 140: 641-645.
11. Delhaize, E. and P.R. Ryan, 1995. Aluminum toxicity and tolerance in plants. Plant Physiol, 107:315-321.
12. Delhaize, E, P. Taylor, P.J. Hocking, R.J. Simpson, P.R. Ryan and A.E. Richardson, 2009. Transgenic barley (Hordeum vulgare L.) expressing the wheat aluminium resistance gene (TaALMTl) shows enhanced phosphorus nutrition and grain production when grown on an acid soil. Plant Biotechnol. J, 5: 391-400.
13. Durieux, G.P, W.A. Jackson, E.J. Kamprath and R.H. Moll, 1993. Inhibition of nitrate uptake by aluminum in maize. Plant Soil, 151: 97-104.
14. El-Saht, H.M, 2001. Effects of Aluminium toxity in two cultivars of Phaseolus vulgaris with different resistance to aluminium. I: Effects on growth and lipid metabolism. Pak. J. Biol. Sci, 4: 7-9.
15. Exley, C, 2003. Abiogeochemical cycle for aluminium. J. Inorg. Biochem, 97: 1-7.
16. Fageria, N.K, V.C. Baligar and R.J. Wright, 1988. Aluminum toxicity in crop plants. J. Plant Nutr, 11:303-319.
17. Foy, CD, E.H. Lee, C.A. Coradetti and G.J. Taylor, 1990. Organic Acids Related to Differential Aluminum Tolerance in Wheat (Triticum aestivum) Cultivars. In: Plant Nutrition-physiology and Applications, Van Beusichem, L. (Ed.). Kluwer Academic Publishers, Dordrecht, The Netherlands, pp: 381-389.
18. Furrer, G, M. Zysset, L. Charlet and P.W. Schindler, 1991. Mobilisation and fixation of aluminum in soils. Metal Compounds Environ. Life, 4: 89-97.
19. Gerke, J, 1992. Phosphate, aluminum and iron in the sous la solution of three different acid sous in relation to varying concentrations of citric acid. Z. Pflanzenernahr. Bodenkd, 155: 339-343.
20. Giannakoula, A, M. Moustakas, P. Mylona, I. Papadakis and T. Yupsanis, 2008. Aluminium tolerance in maize is correlated with increased levels of mineral nutrients, carbohydrates and proline and decreased levels of lipid peroxidation and Al accumulation. J. Plant Physiol, 165: 385-396.
21. Giannakoula, A, M. Moustakas, T. Syros and T. Yupsanis, 2010. Aluminium stress induces up-regulation of an efficient antioxidant system in the Al-tolerant maize line but not in the Al-sensitivelme. Environ. Exp. Bot, 67: 487-494.
22. Haug, A, B. Shi and V. Vitorello, 1994. Aluminum interaction with phosphoinositide-associated signal transduction. Arch. Toxicol, 68: 1-7.
23. Henderson, M. and J.D. Ownby, 1991. The role of root cap mucilage secretion in aluminum tolerance in wheat. Curr. Top. Plant Biochem. Physiol., 10: 134-141.
24. Horchani, F., S. Aschi-Smiti and R. Brouquisse, 2010. Involvement of nitrate reduction in the tolerance of tomato (Solarium lycopersicum L.) plants to prolonged root hypoxia. Acta Physiol. Plant, 32: 1113-1123.
25. Horst, W.J, Y. Wang and D. Eticha, 2010. The role of the root apoplast in aluminium- induced inhibition of root elongation and in aluminium resistance of plants: A review. Ann. Bot, 106: 185-197.
26. Huang, J.W, D.L. Grunes and L.V. Kochian, 1995. Aluminium and calcium transport interactions in intact roots and root plasmalemma vesicles from aluminium sensitive and tolerant wheat cultivars. Plant Soil, 171: 131-135.
27. Jan, F, 1991. Aluminium effects on growth, nutrient uptake and transport in 3 rice (Oryza sativa) cultivars with different sensitivity to aluminium. Physiol. Plant, 83: 441-448.
28. Jones, D.L. and L.V. Kochian, 1982. Aluminium-Organic acid interactions in acid interactions in acid soils. Plant Soil, 182: 221-228.
29. Jones, D.L, A.M. Prabowo and L.V. Kochian, 1996. Aluminium organic acid interactions in acid soils. II. Influence of solid phase sorption on organic acid-Al complexation and Al rhizotoxicity. Plant Soil, 182: 229-237.
30. Jorquera, M.A, M. Hernandez, O. Martinez, P. Marschner and M. de la Luz Mora, 2010. Detection of aluminium tolerance plasmids and microbial diversity in the rhizosphere of plants grown in acidic volcanic soil. Eur. J. Soil Biol, 46: 255-263.
31. Keltjens, W.C, 1995. Magnesium uptake by Al-stressed maize plants with special emphasis on cation interactions at root exchange sites. Plant Soil, 171: 141-146.
32. Kinraide, T.B, 1991. Identity of the rhizotoxic aluminium species. Plant Soil, 134: 167-178.
33. Kochian, L.V, 1995. Cellular mechanisms of aluminium toxicity and resistance in plants. Ann. Rev. Plant Physiol. Plant Mol. Biol, 46: 237-260.
34. Koyama, H, K. Ojima and T. Yamaya, 1990. Utilisation of anhydrous aluminum phosphate as a sole source of phoshorus by a selected carrot cell line. Plant Cell Physiol, 31: 173-177.
35. Lazof, D.B, J.G. Goldsmith, T.W. Rufty and R.W. Linton, 1994. Rapid uptake of aluminum into cells of intact soybean root tips. A micro analytical study using secondary ion mass spectrometry. Plant Physiol, 106: 1107-1114.
36. 3+ on the nucleolus in root tip cells of Allium cepa. Hereditas, 115:213-219.
37. Ma, J.F, S. Taketa and Z.M. Yang, 2000. Aluminum tolerance genes on the short arm of chromosome 3R are linked to organic acid release in triticale. Am. Soc. Plant Physiol, 122: 687-694.
38. Ma, J.F, P.R. Ryan and E. Delhaize, 2001. Aluminium tolerance in plant and the complexing role of organic acids. Trends Plant Sci, 6: 273-278.
39. Matsumoto, H, 1991. Biochemical mechanisms of the toxicity of aluminium and the sequestration of aluminium in plant cells. Dey. Plant Soil. Sci, 45: 741-746.
40. Matsumoto, H, 2000. Cell biology of aluminium toxicity and tolerance in higher plants. Int. Rev. Cytol, 200: 1-46.
41. Mihailovic, N, G. Drazic and Z. Vucinic, 2008. Effects of aluminium on photosynthetic performance in Al-sensitive and Al-tolerant maize inbred lines. Photosynt, 46: 476-480.
42. Miyasaka, S.C., J.G. Buta, R.K. Howell and CD. Foy, 1991. Mechanism of aluminium tolerance in snapbeans. Root exudation of citric acid. Plant Physiol., 96: 737-743.
43. Morita, A., O. Yanagisawa, S. Takatsu, S. Maeda and S. Hiradate, 2008. Mechanism for the detoxification of aluminum in roots of tea plant(Camellia sinensis (L.) Kuntze). Phytochem., 69: 147-153.
44. Moustakas, M., G. Ouzounidou, E.P. Eleftheriou and R. Lannoye, 1996. Indirect effects of aluminium stress on the function of the photosynthetic apparatus. Plant Physiol. Biochem., 37: 553-560.
45. Narasimhamoorthy, B, E.B. BlancofLor, J.H. Bouton, M.E. Payton and M.K. Sledge, 2007. A comparaison of hydroponics, soil and roots staining methods for evaluation of aluminium tolerance in Medicago truncatula (Barrel Medic) Germaplasm. Crop Sci., 47: 321-328.
46. Nichol, B.E., L.A. Ohverra, A.D.M. Glass and M.Y. Siddiqi, 1993. The Effects of aluminium on the Influx of calcium, potassium, ammonium nitrate and phosphate in an aluminium-sensitive cultivar of barley (1-Lordeum vulgare L.). Plant Physiol., 101: 1263-1266.
47. Noble, A.D., M.E. Sumner and A.K. Alva, 1988. The pH dependency of aluminium phytotoxicity alleviation by calcium sulfate. Soil Sci. Soc. Am. J., 52: 1398-1402.
48. Olivares, E., E. Pena, E. Marcano, J. Mostacero, G. Aguiar, M. Benitez and E. Rengifo, 2009. Aluminium accumulation and its relationship with mineral plant nutrients in 12 pteridophytes from Venezuela. Environ. Exp. Bot., 65: 132-141.
49. Olivetti, G.P and B. Etherton, 1991. Aluminium interactions with corn root plasma membrane. Plant Physiol, 96: 142-142.
50. Ownby, J.D, 1993. Mechanisms of reaction of hematoxylin with aluminium-treated wheat roots. Physiol. Plant, 87: 371-380.
51. Pellet, D.M, D.L. Grunes and L.V. Kochian, 1995. Organic acid exudation as an aluminium-tolerance mechanism in maize (Zea mays L.). Planta, 196: 788-795.
52. Pettersson, S. and H. Strid, 1989. Initial uptake of aluminium in relation to temperature and phosphorus status of wheat (Triticum aestivum L.) roots. J. Plant Physiol, 134: 672-677.
53. Pineros, M.A, J.V. Magalhacs, V.M. Carvalho and L.V. Kochian, 2002. The physiology and biophysics of an aluminum tolerance mechanize based on root citrate exudation in maize. Plant Physiol, 129: 1194-1206.
54. Rasmussen, H.P, 1968. Entry and distribution of aluminium in Zea mays. Planta, 81: 28-37.
55. Rengel, Z, M. Pineros and M. Tester, 1995. Transmembrane calcium fluxes during Al stress. Plant Soil, 171: 125-130.
56. Ridolfi, M. and J.P. Garrec, 2000. Consequences of an excess Al and a deficiency in Ca and Mg for stomatal functionning and net carbon assimilation of beech leaves. Ann. For. Sci, 57: 209-218.
57. Rincon, M. and R.A. Gonzales, 1992. Aluminium partitioning in intact roots of Aluminium-tolerant and aluminium-sensitive wheat (Triticum aestivum L.) cultivars. Plant Physiol, 99: 1021-1028.
58. Ritchie, G.S.P, 1995. Soluble aluminium in acidic soils: Principles and practicalities. Plant Soil, 171: 17-27.
59. Rufyikiri, G, S. Declerck, J.E. Dufey and B. Delvaux, 2000. Arbuscular mycorrhizal fungi might alleviate aluminium toxicity in banana plants. New Phytol, 148: 343-352.
60. Ryan, P.R, E. Delhaize and P.J. Randall, 1995. Malate efflux from root apices and tolerance to aluminium are highly correlated in wheat. Aust. J. Plant Physiol, 22: 531-536.
61. R'bia, O. and S. Smiti, 2010. Valorisation of gypse in the protection against aluminum phytotoxicity. Tun. J. Med. Plant Nat. Prod, Vol. 4.
62. Sasaki, M., Y. Yamamoto and H. Matsumoto, 1996. Lignin deposition induced by aluminum in wheat (Triticum aestivum) roots. Physiol. Plant., 96: 193-198.
63. Sasaki, T., B. Ezaki and H. Matsumoto, 2002. A gene encoding multidrug resistance (MDR)-like protein is induced by aluminum and inhibitors of calcium flux in wheat. Plant Cell Physiol., 43: 177-185.
64. Sasaki, T., Y. Yamamoto, B. Ezaki, M. Katsuhara and S.J. Ahn et al., 2004. A wheat gene encoding aluminium-activated malate transporter. Plant J., 37: 645-653.
65. Silva, S., O. Pinto-Carnide, P. Martins-Lopes, M. Matos, H. Guedes-Pmto and C. Santos, 2010. Differential aluminium changes on nutrient accumulation and root differentiation in an Al sensitive vs. tolerant wheat. Environ. Exp. Bot., 68: 91-98.
66. Slaski, J.J., 1994. Differences in the metabolic responses of root tips of wheat and rye to aluminium stress. Plant Soil, 167: 165-171.
67. Sledge, M.K., P. Pechter and M.E. Payton, 2005. Aluminium tolerance in Medicago truncatula germplasm. Crop Sci., 45: 2001-2004.
68. Stevenson, F.J. and G.F. Vance, 1989. Naturally occuring aluminum-organic complexes. Environ. Chem. Aluminum., 1: 117-145.
69. Tan, K., W.G. Keltjens and G.R. Findenegg, 1993. Evaluating the contribution of magnesium deficiency in the aluminium toxicity syndrome in twelve sorghum genotypes. Plant Soil, 149:255-261.
70. Taylor, G.J., 1991. Current views of the aluminium stress response: The physiological basis of tolerance. Curr. Topics Plant Biochem. Physiol., 10: 57-93.
71. Tipping, E. and C. Woof, 1990. Humic substances in acid organic soils: Modeling their release to the soil solution in terms of humic charge. J. Soil Sci., 41: 573-586.
72. Vazquez, M.D., C. Poschenrieder, I. Corrales and J. Barcelo, 1999. Change in apoplastic aluminum during the initial growth response to aluminum by roots of a tolerant maize variety. Plant Physiol, 119: 435-444.
73. Wagatsuma, T, K. Minoru and Y. Hayasaka, 1987. Destruction process of plant-root cells by aluminum. Soil Sci. Plant Nutr, 33: 161-175.
74. Wang, J.P, H. Raman, G. Zhang, N. Mendham and M. Zhou, 2006. Aluminium tolerance in barley (Hordeum vulgare L.): Physiological mechanisms, genetics and screening methods. J. Zhejiang Univ. Sci. B, 10: 769-787.
75. Ward, C.L, A. Kleinert, K.C. Scortecci, V.A. Benedito and A.J. Valentine, 2010. Phosphorus-deficiency reduces aluminium toxicity by altering uptake and metabolism of root zone carbon dioxide. J. Plant Physiol, 10.1016/j.jplph.2010.08.005
76. Wenzl, P, G.M. Patino, A.L. Chaves, J.E. Mayer and I.M. Rao, 2001. The high level of aluminum resistance in signalgrass is not associated with know mechanism of external aluminium detoxification in root apices. Plant Physiol, 125: 1473-1484.
77. Zhang, B, X. Wang, X. Li, Y. Ni and H. Li, 2010. Aluminium uptake and disease resistance in Nicotiana rusticaleaves. Ecotox. Environ. Saf, 73: 655-663.
78. Zhang, G. and G.J. Taylor, 1991. Effects of biological inhibitors on the kinetics of aluminium uptake by excised roots and purified cell wall material of aluminium-tolerant and aluminum-sensitive cultivars of Triticum aestivum L. J. Plant Physiol, 138: 533-539.
79. Zhang, X.B. and P. Liu, 2005. Effects of aluminium on the photosynthetic characterstics of soybean. Plant Nutr. Food Security Hum. Health Environ. Protect, 1: 778-779.