Sewage sludge is reported to have high nutrient content that can enable it to be used as fertilizer additives however the substantial metal loading poses major constraints for its practical use. Under this context, an effort was made to understand the effectiveness of vermicomposting in possibly solving the issue of metal leaching from sewage sludge to the water resources, if used as fertilizer supplements. For this purpose, sludge was collected from wastewater treatment plant and vermicomposting was applied for selected duration of 15, 30, 45, 60 and 75 days. Various physicochemical parameters before and after different duration of vermiconversion were evaluated. A temporal variation in both total and water soluble fractions of copper and zinc were observed and correlated with the change in pH. In addition, a biosorption test was done by using monometallic solution and the results were interpreted to justify the objectives. Results showed that 1:1 (sludge + cowdung) was more effective at reducing the Zn concentration than 1:2 treatments while Cu reduction was not uniform. Biosorption tests revealed the importance of pH in effective adsorption. Dependence of pH on water soluble fraction was not significant. Lower metal content of sewage sludge with respect to various guidelines, % metal removal due to vermicomposting, high nutrient content, 1:1 treatment showing better metal removal and stabilization duration of just 75 days of composting substantiate the possible use of sewage sludge amended cow manure as an agricultural additive.