Removal and accumulation of As, Cd and Cr by typha latifolia

The removal from the solution and the accumulation of As, Cd and Cr by Typha latifolia was studied. Small plants of T. latifolia, collected from a non-contaminated site, were exposed to individual concentrations of As, Cd and Cr for 10 days. The ability of T. latifolia for the removal of toxic elements ranged from 23 %25 to 54 %25 for As, 43 %25-55 %25 for Cd and 28 %25-73 %25 for Cr. The accumulation of toxic elements in T. latifolia occurred mainly in the roots. The results suggest that T. latifolia can be considered as an interesting alternative for treating aquatic effluents polluted with toxic trace elements. © 2013 Springer Science Business Media New York.
The removal from the solution and the accumulation of As, Cd and Cr by Typha latifolia was studied. Small plants of T. latifolia, collected from a non-contaminated site, were exposed to individual concentrations of As, Cd and Cr for 10 days. The ability of T. latifolia for the removal of toxic elements ranged from 23 %25 to 54 %25 for As, 43 %25-55 %25 for Cd and 28 %25-73 %25 for Cr. The accumulation of toxic elements in T. latifolia occurred mainly in the roots. The results suggest that T. latifolia can be considered as an interesting alternative for treating aquatic effluents polluted with toxic trace elements. © 2013 Springer Science%2bBusiness Media New York.

Accumulation; Removal; Trace elements; Typha latifolia Accumulation; Exposed to; Latifolia; Toxic elements; Toxic trace elements; Typha latifolia; Contamination; Mutagenesis; Pollution; Removal; Trace elements; Effluents; arsenic; cadmium; chromium; article; bioremediation; isolation and purification; metabolism; plant; plant root; Typhaceae; water pollutant; Arsenic; Biodegradation, Environmental; Cadmium; Chromium; Plant Roots; Plant Shoots; Typhaceae; Water Pollutants, Chemical; Typha latifolia

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