A reverse passive hemagglutination (RPHA) test was developed to detect duck plague virus (DPV). The technique used sheep erythrocytes stabilized with formaldehyde and pyruvaldehyde and coated with immunoglobulin G (IgG) containing anti-DPV antibody prepared from antiserum produced in sheep. Optimum coating of stabilized erythrocytes occurred at 25 C and pH 4.0 with a concentration of IgG of 20-40 micrograms/ml and a 90-min incubation period. The coated cells were stable for 40 days when stored at 4 C or for at least 4 months (the longest period tested) when frozen at -70 C or -196 C. The RPHA test was conducted at 25 C and read after 3 hours. The high specificity of the test is indicated by the absence of cross-reactions with heterologous virus strains, with specimens prepared from normal duck livers, and with normal chicken embryo chorioallantoic fluid, as well as by the inhibition of hemagglutination only with DPV antiserum. The RPHA test detected six strains of DPV in all virus-containing specimens as well as the immunofluorescence (IF) test did; however, conventional plaque assays (PA) failed to detect virus in five specimens that contained three non-plaque-forming strains of DPV. The mean quantity of DPV that could be detected in the RPHA test was 25 plaque-forming units or 65 fluorescent units per ml. Although the RPHA test was less sensitive than either the PA or the IF test, there was a positive correlation in the titers of DPV antigens between all three tests. The RPHA test is a rapid, simple procedure that is sufficiently sensitive for diagnostic detection of DPV in acute infections, especially in tissues of ducks dying of the disease.