Salmonella infections are a public health concern. Several species of animals can potentially transmit these pathogens to humans and molecular typing is a useful tool in epidemiological investigation. To evaluate a plausible genotyping method for Salmonella Schwarzengrund, one of the prevalent serotypes in Taiwan, 16 strains with 15 of them being epidemiologically unrelated were genotyped using different methods. Conventional typing methods (XbaI-PFGE and MLST) were found to be inappropriate, with discrimination indexes of 0.79 and 0, respectively. Only PFGE with combined results of multiple restriction enzymes (AvrII + SfiI) can all unrelated strains be differentiated. For alternative typing schemes, clustered regularly interspaced palindromic repeats analysis generated eight types for the 15 strains, with a discrimination index of 0.87, which coordinated well with the XbaI-PFGE phylogenic results and increased the discrimination power. For the whole genome sequence-based analysis, the discrimination indexes of the three approaches utilized (a single nucleotide polymorphism tree, a nucleotide difference tree, and a maximum unique matches index tree) were 0.90, 0.93, and 0.79, respectively. Only the single nucleotide polymorphism tree and the nucleotide difference tree analyses provided sufficient discrimination power (discrimination index>0.90). The maximum unique matches index tree obtained a lower discrimination index value, even though there is no requirement for a reference genome. In conclusion, the clustered regularly interspaced palindromic repeats analysis, the single nucleotide polymorphism tree, and the nucleotide difference tree all performed better than conventional methods, with the nucleotide difference tree being the best approach for S. Schwarzengrund phylogenic analysis.