Accumulation of Heavy Metals by Chickpea Grown in Fly Ash Treated Soil: Effect on Antioxidants

Clean - Soil, Air, Water

Volumn 38, Issue 12, 2010, Pages 1116-1123

  Pandey, Vimal Chandra ^b   Singh, Jay Shankar ^b   Kumar, Akhilesh ^a   Tewari, D D ^a  

^a Maharani Lal Kunwari Post Graduate College   (India)

^b BABASAHEB BHIMRAO AMBEDKAR UNIVERSITY   (India)

Author keywords

Antioxidants; Chickpea; Fly ash stress; Metal accumulation

Indexed keywords

ANTIOXIDANT; BIOACCUMULATION; CONCENTRATION (COMPOSITION); FLY ASH; GROWTH RATE; HEAVY METAL; LEGUME; OXIDATION; PIGMENT;

CICER ARIETINUM;

EID: 78650248801     PISSN: 18630650     EISSN: 18630669     Source Type: Journal    
DOI: 10.1002/clen.201000178     Document Type: Article

References (44)

1. L. P. Singh, Z. A. Siddiqui, Effects of Fly Ash and Helminthosporium oryzae on Growth and Yield of Three Cultivars of Rice, Bioresour. Technol. 2003, 86, 73.
2. R. L. Davison, D. F. S. Natusch, J. R. Wallace, C. A. Evans, Jr, Trace Elements in Fly-ash: Dependence of Concentration on Particle Size, Environ. Sci. Technol. 1974, 8, 1107.
3. H. Lee, H. S. Ha, C. S. Lee, Y. B. Lee, P. J. Kim, Fly Ash Effect on Improving Soil Properties and Rice Productivity in Korean Paddy Soil, Bioresour. Technol. 2006, 97, 1490.
4. S. K. Rautaray, B. C. Ghosh, B. N. Mittra, Effect of Fly Ash, Organic Wastes and Chemical Fertilizers on Yield, Nutrient Uptake, Heavy Metal Content and Residual Fertility in a Rice-Mustard Cropping Sequence under Acid Lateritic Soils, Bioresour. Technol. 2003, 90, 275.
5. S. Tiwari, B. Kumari, S. N. Singh, Evaluation of Metal Mobility/Immobility in Fly Ash Induced by Bacterial Strains Isolated from the Rhizospheric Zone of Typha latifolia Growing on Fly Ash Dumps, Bioresour. Technol. 2008, 99, 1305.
6. A. Singh, R. K. Sharma, S. B. Agrawal, Effects of Fly Ash Incorporation on Heavy Metal Accumulation, Growth and Yield Responses of Beta vulgaris Plants, Bioresour. Technol. 2008, 99, 7200.
7. K. Hrynkiewiez, C. Baum, J. Niedojadlo, H. Dahm, Promotion of Mycorrhiza Formation and Growth of Willows by the Bacterial Strain Sphingomonas sp. 23L on Fly Ash, Biol. Fert. Soils 2009, 45 (4), 385- 394.
8. V. C. Pandey, N. Singh, Impact of Fly Ash Incorporation in Soil Systems, Agric. Ecosyst. Environ. 2010, 136, 16.
9. V. C. Pandey, P. C. Abhilash, R. N. Upadhyay, D. D. Tewari, Application of Fly Ash on the Growth Performance, Translocation of Toxic Heavy Metals within Cajanus cajan L.: Implication for Safe Utilization of Fly Ash for Agricultural Production, J. Hazard. Mater. 2009, 166, 255.
10. B. N. Mittra, S. Karmakar, D. K. Swain, B. C. Ghosh, Fly Ash - A Potential Source of Soil Amendment and a Component of Integrated Plant Nutrient Supply System, Fuel 2005, 84, 1447.
11. N. Singh, S. N. Singh, M. Yunus, K. J. Ahmad, Growth Responses and Elemental Accumulation in Beta vulgaris L. Raised in Fly Ash Amended Soil, Ecotoxicology 1994, 3, 287.
12. S. J. Stohs, D. Bagchi, Oxidative Mechanisms in the Toxicity of Metal Ions, Free Radical Biol. Med. 1995, 18, 321.
13. C. H. Foyer, H. Lopez-Delgado, J. F. Dat, I. M. Scott, Hydrogen Peroxide and Glutathion-associated Mechanisms of Acclimatory Stress Tolerance and Signaling, Physiol. Plant. 1997, 100, 241.
14. F. Navari-Lazzo, M. F. Quartacci, Phytoremediation of Metals. Tolerance Mechanisms against Oxidative Stress, Miner. Biotechnol. 2001, 13, 73.
15. E. F. Elstner, Oxygen Activation and Oxygen Toxicity, Ann. Rev. Plant Physiol. 1982, 33, 73.
16. G. Noctor, C. H. Foyer, Ascorbate and Glutathione: Keeping Active Oxygen under Control, Ann. Rev. Plant Physiol. 1998, 49, 249.
17. R. G. Alscher, N. Erturk, L. S. Heath, Role of Superoxide Dismutase (SODs) in Controlling Oxidative Stress in Plants, J. Exp. Bot. 2002, 53, 1331.
18. K. Asada, Production and action of active oxygen species in photosynthetic tissues, in Causes of Photooxidative Stress and Amelioration of Defense Systems in Plants (Eds.: C. H. Foyer, P. M. Mullineaux), CRC Press, Boca Raton, FL 1994, p. 77.
19. A. Kumar, P. Vajpayee, M. B. Ali, R. D. Tripathi, N. Singh, U. N. Rai, S. N. Singh, Biochemical Responses of Cassia siamea Lamk. Grown on Coal Combustion Residue (Fly-ash), Bull. Environ. Contam. Toxicol. 2002, 68, 675.
20. S. Sinha, R. Saxena, S. Singh, Chromium Induced Lipid Peroxidation in the Plants of Pistia stratiotes L.: Role of Antioxidants and Antioxidant Enzymes, Chemosphere 2005, 58, 595.
21. APHA, Standard Methods for Examination of Water and Waste-waters, 20th edition, APHA, Washington, DC 2000.
22. E. Psillakis, G. Naxakis, N. Kalogerakis, Detection of TNT-contamination in Spiked-soil Samples Using SPME and GC/MS, Global Nest Int. J. 2000, 2, 227.
23. D. I. Arnon, Copper Enzyme in Isolated Chloroplast Polyphenol Oxidase in Beta vulgaris, Plant Physiol. 1949, 24, 1.
24. O. H. Lowry, N. J. Rosenbrough, A. L. Farr, R. J. Randall, Protein Measurement with Folin Phenol Reagent, J. Biol. Chem. 1951, 193, 265.
25. C. Beauchamp, I. Fridovich, Superoxide Dismutase: Improved Assay and Analysis Applicable to Acrylamide Gels, Anal. Biochem. 1971, 44, 276.
26. J. M. Barber, Catalase and Peroxidase in Primary Leaves during Development and Senescence, Z. Pflanzenphysiol. 1980, 97, 135.
27. M. Kar, D. Mishra, Catalase, Peroxidase, Polyphenol Oxidase Activities during Rice Leaf Senescence, Plant Physiol. 1976, 57, 315.
28. J. G. Foster, J. L. Hess, Responses of Superoxide Dismutase and Glutathione Reductase Activities in Cotton Leaf Tissue Exposed to an Atmosphere Enriched in Oxygen, Plant Physiol. 1980, 66, 482.
29. W. H. Habig, W. B. Jacoby, Methods in Enzymology (Eds.: S. P. Colowick, N. O. Kaplan), Academic Press, New York 1981, p. 398.
30. R. L. Heath, L. Packer, Peroxidation in Isolate Chloroplasts. 1. Kinetics and Stoichiometry of Fatty Acid Peroxidation, Arch. Biochem. Biophys. 1968, 125, 189.
31. H. Marchner, Mineral Nutrition of Higher Plants, Academic Press, New York 1995, pp. 1- 260.
32. Y. H. Li, A Compendium of Geochemistry: From Solar Nebula to the Human Brain, Princeton University Press, Princeton 2000, p. 475.
33. S. Sinha, A. K. Gupta, K. Bhatt, Uptake and Translocation of Metals in Fenugreek Grown on Soil Amended with Tannery Sludge: Involvement of Antioxidants, Ecotoxicol. Environ. Safety 2007, 67, 267.
34. W. H. O. Ernst, J. A. C. Verkleij, H. Schat, Metal Tolerance in Plants, Acta Bot. Neerl. 1992, 41, 229.
35. A. K. Shanker, C. Carlos, H. Loza-Tavera, S. Avudainayagam, Chromium Toxicity in Plants, Environ. Int. 2005, 31, 739.
36. A. J. M. Baker, P. L. Walker, Ecophysiology of metal uptake by tolerant plants, in Heavy Metal Tolerance in Plants: Evolutionary Aspects (Ed.: A. J. Shaw), CRC Press, Boca Raton, FL 1990, p. 155.
37. J. Liu, K. Li, J. Xu, Z. Zhang, T. Ma, X. Lu, J. Yang, Q. Zhu, Lead Toxicity, Uptake and Translocation in Different Rice Cultivars, Plant Sci. 2004, 165, 793.
38. P. K. Sarangi, D. Mahakur, P. C. Mishra, Soil Biochemical Activity and Growth Response of Rice Oryza sativa in Fly Ash Amended Soil, Bioresour. Technol. 2001, 76, 199.
39. H. Kupper, F. Kupper, M. Spiller, In Situ Detection of Heavy Metal Substituted Chlorophylls in Water Plants, Photosynth. Res. 1998, 58, 123.
40. M. D. Vazquez, C. Poschenrieder, J. Barcelo, Chromium VI Induced Structural and Ultrastructural Changes in Bush Bean Plants (Phaseolus vulgaris L.), Ann. Bot. 1987, 59, 427.
41. E. Kenneth, K. E. Pallet, J. Young, Carotenoids, in Antioxidants in Higher Plants (Eds.: R. G. Alscher, J. L. Hess), CRC Press, Boca Raton, FL 2000, p. 60.
42. S. Sinha, A. K. Gupta, Translocation of Metals from Fly Ash Amended Soil in the Plant of Sesbania cannabina L. Used as Green Manure: Effect on Antioxidants, Chemosphere 2005, 61, 1204.
43. K. J. A. Davies, Protein Damage and Degradation by Oxygen Radicals II Modification of Amino Acids, J. Biol. Chem. 1987, 262, 9902.
44. M. Choudhary, U. K. Jetley, M. A. Khan, S. Zutshi, T. Fatma, Effect of Heavy Metal Stress on Proline, Malondialdehyde, and Superoxide Dismutase Activity in the Cyanobacterium Spirulina platensis-S5, Ecotoxicol. Environ. Safety 2007, 66, 204.