17 A. Shoaib N. Aslam N. Aslam Journal of Animal and Plant Sciences JAPS 20142014/08/01 24 4 1224-1229 1018-7081 NA <p>Biosorption technology has evoked tremendous interest to manipulate natural resources as an alternative to expensive and cautionary chemical based procedures opted as purification treatment for industrial effluents. Feasibility of&nbsp;<em>Ficus bengalensis&nbsp;</em><em>L.&nbsp;</em><em>(banyan), Ficus religiosa</em><em>&nbsp;L. (pippal), Helianthus&nbsp;</em><em>annus&nbsp;</em>L. (sun flower) leaves and&nbsp;<em>Oryza sativa&nbsp;</em>L. (rice) straw were tested for removal of chromium(III) ions from the aqueous solution. Batch trials showed these four adsorbents hold 70-80% adsorption efficiency at dose of 0.5 g, pH 4.5, and at 35 mg L-1 of metal concentration. Fourier Transform Infrared Spectroscopy (FTIR) explored amine (-NH2) and hydroxyl (-OH) as a predominant contributor in binding of Cr(III) on to adsorbents biomass. Both Langmuir and Freundlich sorption isotherms fitted data well at concentrations of 20, 40, 60, 80 and 100 mg L-1 and showed physico-chemical type of adsorption. pH optimization trials at values of 2, 4, 6, 8 and 10, revealed the maximum adsorption efficiency of 80-84% at pH 4 by all adsorbents. The study concluded that the biomass of&nbsp;<em>F. religiosa</em>,&nbsp;<em>F. bengalensis</em>,&nbsp;<em>H. annus</em>&nbsp;and&nbsp;<em>O. sativa</em> could be utilized as naturally abundant, easily available and low cost adsorbents for the removal of Cr(III) ions from dilute aqueous solution (20-100 mg L-1).</p> Biosorption, Cr(III), FTIR, low cost sorbent, metal isotherm, pH Pakistan Agricultural Scientists Forum https://thejaps.org.pk/AbstractView.aspx?mid=2014-JAPS-175