Author(s)

Bassaï Magnoudéwa Bodjona^*, Diyakadola Dihéénane Bafai, Gado Tchangbedji

Waste Management, Treatment and Valorization Laboratory (GTVD), Faculty of Sciences, University of Lomé, Lomé, Togo.

The burial of waste in developing countries, which is often carried out without respect for environmental standards, constitutes a risk of contamination of soils and even groundwater given the toxic elements they contain. The objective of this work is to carry out a study of the retention of heavy metals through the contribution of cattle manure to soil samples from the final Agoè Nyivé landfill in Lomé, Togo. Soil samples from the final landfill were taken from the surface and depth at several locations to form a composite sample. The amendment of the composite sample was carried out with bovine manure on the mock-up in the Laboratory for six months. The determination of the total contents of heavy metals by the atomic absorption spectrophotometer (SAA) on the composite sample showed high contents exceeding the thresholds recommended by the AFNOR NF U 44-041 standard. Sequential extraction on these composite samples showed that the mobile portions of lead, cadmium, copper and zinc are respectively estimated at 78.06%, 50%, 28.89% and 91.59%. The bovine manure used to amend the landfill samples presents physicochemical parameters that can contribute to rendering heavy metals immobile in the soil matrix under natural conditions. The addition of manure initially made it possible to increase the values of pH, electrical conductivity, cation exchange capacity and organic matter, which promote the retention of heavy metals. Secondly, the addition of manure made it possible to reduce the mobile portion of the heavy metals studied; from 78.06% to 14.39% for lead, from 50% to 11.52% for cadmium, from 28.89% to almost 0% for copper and from 91.15% to 80.58% for zinc. The use of cattle manure as an amendment on the composite sample was decisive in reducing the mobility of heavy metals in the polluted soils of the final landfill.

Pollution, Heavy Metals, Soil, Sequential Extraction, Discharge

Bodjona, B. , Bafai, D. and Tchangbedji, G. (2024) Heavy Metal Remediation in Agoè Nyivé Landfill Soils: Enhancing Stability through Organic Amendments. Open Journal of Applied Sciences, 14, 961-975. doi: 10.4236/ojapps.2024.144063.