Phytoremediation of Lead by Brassica juncea and Vetiver zizanioidus
Abstract
Full Text:
PDFReferences
Lasat M.M. Phytoextraction of metals from contaminated soil: a review of plant/soil/metal interaction and assessment of Pertinent Agronomic Issues, J. Hazard Subst Res. 2000; 2(5): 1–25p.
Wang W.S., Shan X.Q., Wen B., et al. Relationship between the extractable metals from soils and metals taken up by maize roots and shoots, Chemosphere. 2003; 53: 523–30p.
Ashraf M., Ozturk M., Ahmad M.S.A. Toxins and their phytoremediation. Plant Adaptation and Phytoremediation. New York: Springer; 2010.
Foyer C.H., Noctor G. Redox homeostasis and antioxidant signaling: a metabolic interface between stress perception and physiological response, Plant Cell. 2005; 17: 1866–75p.
Sharma S.S., Dietz J. The relationship between metal toxicity and cellular redox imbalances, Trends Plant Sci. 2009; 14: 43–50p.
Ahmad P., Umar S., Sharma S. Mechanism of free radical scavenging and role of phytohormones in plants under abiotic stresses, Plant Adaptation and Phytoremediation. Newyork: Springer; 2010.
Kadukova J., Kavulicova J. Phytoremediation of heavy metal contaminated soil-plant stress assessment, In: Handbook of Phytoremediation. Golubev I.A. (ed.), New York: Nova Science; 2011.
Henry J.R. In An Overview of Phytoremediation of Lead and Mercury. NNEMS Report. Washington, D.C.; 2000, 3–9p.
Weerakoon S.R., Somaratne S. Phytoextractive potential among mustard (Brassica juncea) genotype in srilanka, Cey J Sci. 2009; 38(2): 85–93p.
Kumar P.B.A.N., Dushenkov V., Motto H., et al. Phytoextraction: the use of plants to remove heavy metals from soils, Environ Sci Technol. 1995; 29: 1232–8p.
Blaylock M. J., Salt D. E., Dushenkovet al. Enhanced accumulation of Pb in Indian mustard by soil-applied chelating agents, Environ Sci Technol. 1997; 31: 856–60p.
Zhu Y. L., Pilon-Smits E.A.H., Jouanin L., et al. Overexpression of gluthathione synthetase in Brassica juncea enhances cadmium tolerance and accumulation, Plant Physiol. 1999; 119: 73–9p.
Jiang W., Liu D., Hou W. Hyperaccumulation of lead by roots, hypocotyls, and shoots of Brassica juncea, Biol Plantarum. 2000; 43(4): 603–6p.
Kirkegaard J., Sarwar M. Biofumigation potential of brassicas, Plant Soil. 1998; 201: 71–89p.
Fahey J., Zalcmann A., Talalay P. The chemical diversity and distribution of glucosinolates and isothiocyanates among plants, Phytochemistry. 2001; 56: 5–51p.
Smolinska U., Morra M., Knudsen G., et al. Isothiocyanates produced by Brassicaceae species as inhibitors of Fusarium oxysporum, Plant Dis. 2003; 8: 407–12p.
Lord J., Lazzeri L., Atkinson H., et al. Biofumigation for control of pale potato cyst nematodes: Activity of Brassica leaf extracts and green manures on Globodera pallida in vitro and in soil, J Agric Food Chem. 2011; 59: 7882–90p.
Lin C., Preston J., Wei C. Antibacterial mechanism of allyl isothiocyanate, J Food Prot. 2000; 6: 727–34p.
Brennan M.A., Shelley M.L. A model of the uptake, translocation, andaccumulation of lead (Pb) by maize for the purpose of phytoextraction, Ecol Eng. 1999; 12(3-4): 271–97p. Available [Online]:http://www.sciencedirect.com/scien...527795ff33d76832d919388f10ab5&sb=y.
Dalton P.A., Smith R.J., Truong P.N.V. Vetiver grass hedges for erosion control on a cropped flood plain: Hedge hydraulics, Agr Water Manage. 1996; 31: 91–104p.
Pichai N.M.R., Samjiamjiaras R., Thammanoon H. The wonders of a grass, Vetiver and its multifold applications, Asian Infrastruct Res Rev. 2001; 3: 1–4p.
Marchiol L., Assolari S., Sacco P., et al. Phytoextraction of heavy metals by canola (Brassica napus) and radish (Raphanus sativus) grown on multicontaminated soil, Environ Pollut. 2004; 132: 21–7p.
Dat J.F., Vandenabeele S., Vranova E., et al. Dual action of the active oxygen species during plant stress responses, Cell Mol Life Sci. 2000; 57: 779–5p.
Knight H., Knight M.R. Abiotic stress signalling pathways: specificity and cross talk, Trends Plant Sci. 2001; 6: 262–7p.
Palma J.M., Sandalio L.M., Javier Corpas F., et al. Plant protease protein degradation and oxidative stress:role of peroxysome, Plant physiol Biochem. 2002; 40: 521–30p.
Hall J.L. Cellular mechanisms for heavy metal detoxification and tolerance, J Exp Bot. 2002; 53: 1–11p.
Romero-Puertas M.C., Corpas F.J., Rodriguez-Serrano M., et al. Differential expression and regulation of antioxidative enzymes by cadmium in pea plants, J Plant Physiol. 2007; 164: 1346–57p.
Guerra F., Gainza F., Perez R., et al. Phytoremediation of heavy metals using poplars (Populus spp.): a glipse of the plant responses to copper, cadmium and zinc stress, Handbook of Phytoremediation. New York: Nova Sciences; 2011.
Minglin L., Yuxiu Z., Tuanyao C. Identification of genes up-regulated in response to Cd exposure in Brassica juncea L. Gene. 2005; 363: 151–8p.
Grill E., Thumann J., Winnacker E.L., et al. Induction of heavy metal binding phytochelatins by inoculation of cell cultures in standard media, Plant Cell Rep. 1988; 7: 375–8p.
Yadav R., Arora P., Kumar S., et al. Perspective for genetic engineering in poplars for enhanced phytoremediation abilities, Ecotoxicology. 2010; 19: 1574–88p.
Van Ginneken L., Meers E., Guisson R. Phytoremediation for heavy metal-contaminated soils combined with bioenergy production, J Environ Eng Landscape Manag. 2007; 15(4): 227–36p.
Elless M.P., Blaylock M.J. Amendment optimization to enhance lead extractability from contaminated soils for phytoremediation. Int J Phytoremed. 2000; 2: 75–89p.
Chen H., Cutright T. EDTA and HEDTA effects on Cd, Cr and Ni uptake by Helianthus annus. Chemosphere. 2001; 45: 21–8p.
Chen Y.X., Lin Q., Luo Y.M., et al. The role of citric acid on the phytoremediation of heavy metal contaminated soil. Chemosphere. 2003; 50: 807–11p.
Huang J.W., Chen J. Phytoremediation of lead contaminated soil: role of synthetic chelators in lead phytoextraction. Environ Sci Technol. 1997; 31(3): 800–5p.
Roy S., Labelle S., Mehta P. Phytoremediation of heavy metal and PAH-contaminated brownfield sites, Plant Soil. 2005; 272(1-2): 277–90p.
Ahuja A. Indian mustard Brassica juncea mediated phytoremediation of lead, Int J Appl Biol Pharm Technol. 2012; 3.
DOI: https://doi.org/10.37628/ijpb.v1i1-2.47
Refbacks
- There are currently no refbacks.