1. The effects of application of agricultural wastes to firing range soil on metal accumulation in Ipomoea aquatica and soil metal bioavailability.
- Author
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Kamari, A., Yusoff, S.N.M., Putra, W.P., Ishak, C.F., Hashim, N., Mohamed, A., Isa, I.M., and Bakar, S.A.
- Subjects
AGRICULTURAL wastes ,IPOMOEA aquatica ,METAL content of soils ,BIOAVAILABILITY ,HEAVY metals ,BIOMASS ,BIOCONCENTRATION - Abstract
The immobilisation of heavy metals in the soil of a 25-year-old active firing range using durian (Durio zibethinusL.) tree sawdust (DTS), coconut coir (CC) and oil palm empty fruit bunch (EFB) was investigated. The immobilisation effects were evaluated in terms of metal accumulation in water spinach (Ipomoea aquatica) and soil metal bioavailability. A pot experiment was conducted by amending the firing range soil with DTS, CC and EFB at application rates of 0%, 1% and 3% (w/w), respectively. All amendments increased the biomass yield and reduced the uptake of heavy metals in the plant tissue. Zn had the highest values of Bioconcentration Factor (BCF: 0.301–0.865) and Translocation Factor (TF: 1.056–1.883). Pb was the least-accumulated and transported metal in the plant tissues, with the BCF and TF values of 0.019–0.048 and 0.038–0.116, respectively. The bioavailable fraction of heavy metals in the firing range soil decreased following the application of the three agricultural wastes studied. DTS, CC and EFB did not cause toxicity symptoms in the water spinach over the pot experiment. Therefore, DTS, CC and EFB are considered promising immobilising agents for the remediation of metal-contaminated land. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
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