Journal of Earth Sciences & Environmental Studies
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VOLUME: 1 ISSUE: 1
Page No: 1-5
Dinesh Mani, Niraj Kumar Patel*, Shailendra Kumar and Ashutosh Kumar
NIRAJ KUMAR PATEL, Effect of FYM on the uptake of cadmium by Amaranth (Amaranthus viridis L.)(2015)SDRP Journal of Earth Sciences & Environmental Studies 1(1)
A field experiment was conducted to find out the effect of FYM on the uptake of cadmium by Amaranth (Amaranthus viridis L.) on the alluvial soil of Sheila Dhar Institute experimental farm, Allahabad, Uttar Pradesh. Four levels of organic matter (0, 10, 15 and 20 t ha-1), Cd (0, 5, 10 and 15 mg kg-1) were applied as FYM and CdCl2, respectively. The application of FYM 20 t ha-1 increased the dry biomass of Amaranth by 35.08% over the control. The application of 15 mg kg-1 Cd maximum reduces dry biomass of Amaranth by 17.45% compared to control and registered the highest accumulation of Cd in shoot and root of Amaranth by 1.86 mg kg-1 and 1.92 mg kg-1, respectively. Therefore, 20 t ha-1 FYM applications may be recommended to enhance dry biomass of Amaranth. The response of FYM was observed ameliorative in Cd-contaminated plots.
Bernal M.P., Clemente R., Walker D.J. (2007). The role of organic amendments in the bioremediation of heavy metal-polluted soils In: Gore RW (ed) Environmental research at the leading edge. Nova Science Publishers Inc., New York, pp. 1?57.
Bolan, N.S., Adraino, D.C., Duraisamy, A. and Mani, P. (2003). Immobilization and phytoavailability of cadmium in variable charge soils: III. Effect of biosolid addition. Plant Soil, 256: 231.View Article
Chen Z.S., Lee G.J., Liu J.C. (2000). Chemical methods and phytoremediation on soil contaminated with heavy metals. Chemosphere 41:229?234. 00415-4View Article
Chopra, S.L. and Kanwar, J.S. (1999). Analytical Agricultural Chemistry, Kalyani Publication, New Delhi.``
Gupta A.K., Dwivedi S., Sinha S., Tripathi R.D. (2007). Metal accumulation and growth performance of Phaseolus vulgaris grown in fl y ash amended soil. Bioresour Technol, 17:3404? 3407. PMid:17451948View Article PubMed/NCBI
Hanc, A., Tlustos, P., Sjakova, J. and Balik, J. (2008).The influence of organic fertilizers application on phosphorus and potassium bioavailability. Plant Soil Environ. 54 (6): 247-254. Ismail, B.S., Farihah, K. and Khairiah, J. (2005). Bioaccumulation of heavy metals in vegetables from selected agricultural areas. B. Environ. Contam. Tox., 74, 320-327.
Joshi D., Srivastava, P. C. and Srivastava, P. (2011). Toxicity Threshold Limits of Cadmium for Leafy Vegetables Raised on copper, nickel and zinc in soil. Pedologist, 249-256.
Kumar, C. and Mani, D. (2010). Enrichment and management of heavy metals in sewage-irrigated soil. Lap LAMBERT Acad. Publishing, Dudweiler (Germany).
Kumpiene J., Lagerkvist A., Maurice C. (2008). Stabilization of As, Cr, Cu, Pb and Zn in soil using amendments ? a review. Waste Manag, 28: 215-225.7 PMid:17320367View Article PubMed/NCBI
Mani, D., Balak, S., Patel, N.K., Mourya, V. K. and Pal, N. (2014a). Effect of compost and single super phosphate on the uptake of cadmium by Radish (Raphanus sativus L.). J. Indian Chem. Soc., 91: 721-727.
Mani, D., Mourya, V. K., Balak, S., Patel, N.K. and Pal, N. (2014b). Effect of organic matter on the uptake of cadmium by Spinach (Spinacea oleracea L.). Asian J. Adv. Basic Sci., 3(1), 144-150.
Mensah, E., Allen, H.E., Shoji, R., Odai, S.N., Kyei-Baffour, N., Ofori, E. and Mezler, D., (2008). Cadmium (Cd) and Lead (Pb) Concentrations Effects on Yields of Some Vegetables Due to Uptake from Irrigation Water in Ghana. nt. J. Agr. Res., 3: 243-251.View Article
Motulsky H. J. and Christopoulos A. (2003). GraphPad Software Inc, San Diego CA.
Nordberg, G.F.; Nogawa, K.; Nordberg, M.; Friberg, L.T. Foreword: Metals?A new old environmental problem and Chapter 23: Cadmium. In Handbook on the Toxicology of Metals, 3rd ed.; Nordberg, G.F., Fowler, B.A., Nordberg, M., Friberg, L.T., Eds.; Academic Press: Burlington, MA, USA, (2011); pp. vii, 446?451, 463?470, 600?609.
Park, J., Panneerselvam, P., Lamb, D., Choppala, G. and Bolan, N. (2011). Role of organic amendments on enhanced bioremediation of heavy metal (loid) contaminated soils. J. Hazard. Mater., 185: 549-574. PMid:20974519View Article PubMed/NCBI
Perronnet, K., Schwartz, C., Gerard, E., Morel, J.L. (2000). Availability of cadmium and zinc accumulated in the leaves of Thlaspi caerulescens incorporated into soil. Plant Soil 227, 257-263.View Article
Putwattana, N., Kruatrachue, M., Kumsopa, A. and Pokethitiyook, P. (2015). Evaluation of organic and inorganic amendments on maize growth and uptake of Cd and Zn from contaminated paddy soils. Int. J. Phytoremediat., 17(2):165-74. PMid:25254923View Article PubMed/NCBI
Sharma, R.K., Agrawal, M. and Marshall, F. (2006). Heavy metals contamination in vegetables grown in waste water irrigated areas of Varanasi, India. B. Environ. Contam. Tox., 77: 312-318. Valls, M., Lorenzo, V.D. (2002). Exploiting the genetic and biochemical capacities of bacteria for the remediation of heavy metal pollution. FEMS Microbiol. Rev., 26, 327?338.
Walker D.J., Clemente R., Bernal P. (2004). Contrasting eff ects of manure and compost on soil pH, heavy metals availability and growth of chenopodium album in a soil contaminated by pyritic mine waste. Chemosphere 57:215?224 Zhai, Q., Narbad, A., Chen, W. (2015). Dietary Strategies for the treatment of cadmium and lead toxicity. Nutrients, 7, 552-571.