Bioremediation of noxious metals from e-waste printed circuit boards by Frankia.

The environmental noxious e-waste was collected and physicochemical characterized by Scanning electron microscopy (SEM) along with energy dispersive X-ray spectroscopy (EDX), Atomic absorption spectrometry (AAS), and X-ray diffraction analysis (XRD) exploration to understand the presence of toxic metals like Hg, Cd, Pd, Si, Ru. Therefore, the finding provides vital knowledge about the impact of toxic metals from e-waste printed circuit boards as contaminants in the environment and its impact on humans. The Frankia sp. DDNSF-03 and Frankia casuarinae DDNSF-04 were isolated and identified, further utilized for removal of e-waste toxic metals by one and two steps bioremediation experiments executed with various e-waste concentrations. The two-step bioremediation experiment is efficient in the expression of toxic metals that were removed at a lesser concentration of e-waste. Consequently, the presence of organic acids in the Frankia primary metabolites was confirmed by FT-IR analysis besides decreasing the pH level in the Frankia growth medium. The positive control Frankia and negative control e-waste were maintained throughout the bioremediation experiments. The initial Hg 4.3, Cd 8.3, Pd 4.6 (ppm) in the e-waste and final treated with Frankia sp. DDNSF-03 Hg 0.09, Cd 5.09, Pb 0.49 (ppm), and Frankia casuarinae DDNSF-04 Hg 2.15, Cd 5.6, Pb 2.82 (ppm) concentration of toxic metals was quantified by AAS spectrum analysis. The toxic metals mercury and lead were significantly mineralized by Frankia sp. when compare the Frankia casuarinae. The above finding was confirmed the manifestation of morphological changes by an accumulation of e-waste in Frankia hyphae using SEM analysis and obtain the qualitative of toxic metals parallel peaks in EDX analysis.