Sewage sludges and the composts were evaluated chemically and ecotoxicologically to determine their suitability as fertilizers for land application. Four municipal sewage sludges with various properties and pollutant contents were composted in aerobic conditions for 76 days. The content of heavy metals (Cd, Cu, Cr, Pb, Ni, Zn) and polycyclic aromatic hydrocarbons (14 from US EPA List) was analyzed in the sewage sludges and composts as well as together with their physico-chemical properties (total organic carbon, total nitrogen, pH, available forms of magnesium, phosphorus and potassium, cations content, cation exchange capacity, total of exchangeable bases). To evaluate the toxicity of the materials, bioassays with crustacean Heterocypris incongruens (Ostracodtoxkit test) were performed. Neither physical-chemical properties nor heavy metal content underwent any significant changes during the composting process. However, composting significantly influenced the range of losses of polycyclic aromatic hydrocarbons. The magnitude and the ranges of changes in the toxicity H. incongruens were found to be dependent on the tested parameter as well as on sewage sludge type and its dose. It was noted that composting could even increase the toxicity of sewage sludges. Sewage sludge toxicity was mainly determined by the presence of heavy metals, although for some sludges the contribution of organic pollutants as well as the synergistic activity of several factors could not be excluded. According to proposed classification (on the basis of Ostracodtoxkit test) only one sewage sludge/compost was suitable for land application. The studies conducted provide interesting information pointing to the necessity to supplement chemical studies with biological assays.