Removal of imidacloprid using activated carbon produced from ricinodendron heudelotii shells

In this study, Ricinodendron heudelotii (akpi) shells are used as precursor to prepare activated carbon via chemical activation using phosphoric acid. The characterization of the obtained activated carbon is performed using X-ray diffraction (XRD), Boehm titration method and adsorption of acetic acid. The results show that the prepared activated carbon has a microstructure and a higher specific surface area (1179 m2/g), suggesting that the acid treatment has a significant positive influence on its sorption properties. The maximum adsorption capacity and pollutant elimination efficiency are found to be 43.48 mg/g and 90%, respectively. These results suggest that this low cost agent is an efficient tool to remove organic pollutants especially imidacloprid from wastewater

Comparison of trace element contamination levels (Cu, Zn, Fe, Cd and Pb) in the soft tissues of the gastropods Tympanotonus fuscatus fuscatus and Tf radula collected in the Ebrié Lagoon (Côte d'Ivoire): Evidence of the risks linked to linked to lead and

A comparative survey of the levels of contamination of the two gastropods, of the Potomidae family, has been done in the lagoon Ebrié close to the city of Abidjan. It revealed that Tympanotonus fuscatusradula (TFR), adapt better to the conditions of the lagoon environment than Tympanotonus fuscatus fuscatus (TFF). Besides, T. fuscatus radula shows a higher bioaccumulation capacity of the trace elements than T. fuscatus fuscatus: the ratios of contamination index of T. fuscatus radula to those of T. fuscatus fuscatus are in the order of 1.5 for copper (Cu), 4.9 for iron (Fe), 3.2 for zinc (Zn), 95.9 forlead (Pb) and 6.7 for cadmium (Cd). Therefore T. fuscatus radula could be a better metallic pollution indicator than T. fuscatus fuscatus. A hierarchical classification analysis permitted, on the basis oftrace elements contents in the soft tissues of T. fuscatus radula higher than 10%, to determine the polymetallic character of the pollution in the different sampling stations (with the exception of Biét 3) aswell as the differences in the bioavailability of the trace elements. Besides, possible health risks linked to the consumption of T. fuscatus radula exist because of the lead concentrations which, in 35.57% ofthe samples, are higher than the consumption standards of the European Union (EU) and the World Health Organisation (WHO). Even if the contents in cadmium are lower than the consumption standardsof the EU and the WHO, the health risks linked to this trace element still remains because of its cumulative character in some vital organs of human