Due to the rising cases regarding the aggression of pitbull-type dogs in Taiwan, the Council of Agriculture, Executive Yuan, has banned American Pit Bull Terrier and American Staffordshire Terrier from being owned, imported or exported under Animal Protection Law on the 26th of October 2021. Standards of breed identification must be formulated to aid the implementation of the legislation in the future. Pitbull-type dogs encompass purebred dogs of various breeds and dogs presumed to be mixes of those breeds. Visual breed identification among breeds is often shown to be inaccurate. Thus, a more objective method, such as molecular markers, should be considered. Single Nucleotide Polymorphism (SNP) and Short Tandem Repeat (STR) of nuclear DNA have been described in animal breed-related studies and have revealed promising results. To identify a breed, a reference population is required, and there is little knowledge of the pitbull-type dog population in Taiwan. Therefore, this study aims to assess visual breed identification via body measurement ratio, determine the population structure and relatedness, and construct STR profiles of pitbull-type dogs in Taiwan for future molecular technique establishment for canine breed identification. A total of 78 dogs (55 pitbull-type dogs, 16 non-pitbull-type dogs and 7 dogs with breeds unconfirmed) were included in the study, and saliva swabs were taken from each dog. The breeds of dogs in the current study are confirmed via SNP breed identification by Embark Veterinary Inc., except as mentioned. Firstly, visual breed identification was assessed through 50 dogs (9 Formosan Mountain Dogs, FMD, 25 mixed pitbull-type dogs, MPT and 16 American pitbull terrier dogs, APT) using a more objective body measurement ratios based on guidelines of The Dangerous Dogs Act (DDA) 1991 (UK). Results showed that the APT group obtained a significantly higher average score compared to the other groups and all body measurement ratio criteria should be evaluated together to increase accuracy. We also utilized commercial Canine Genotype Panels 1.1 and 2.1, which after selection, amount to 25 loci, to undergo a genetic polymorphism analysis, population substructure, genetic differentiation analysis on 42 dogs (11 FMD, 14 MPT, and 17 APT). APT was genetically less diverse than the MPT and the FMD group, while having a similar or slightly higher genetic diversity compared to German Shepherd and Golden retrievers, a higher genetic diversity than Pembroke Welsh Corgi, and less variable gene pool compared to the local dog breeds in other studies. There was no significant genetic differentiation among the groups, while there were higher genetic differences between FMD and MPT as well as FMD and APT compared to the negligible differences between MPT and APT. APT and MPT were assigned to a single common cluster, while FMD and a single MPT individual with an interesting breed profile were assigned into another in population structure. PCoA analysis showed that MPT and APT could be grouped into separate yet close and overlapping clusters. Similar to the population substructure results, two separate clans could be formed by the NJ algorithm, which is pitbull-type and non pitbull-type group. Both the Neighbour-Joining (NJ) method and individual assignment tests achieved a fair assignment success (56.2%-75.0%), with the allele frequency method having the highest assignment success and efficacy. The two kits also showed close to 0 cumulative Probability of identity, P(ID) value, cumulative P(ID)sibs value and high exclusion probability which is exemplary for individual identification and parentage analysis, thus will be useful in veterinary forensics application. In conclusion, this study suggested that molecular markers are still more reliable for an accurate breed identification and an informative genetic diversity profile of a small part of the pitbull-type dog population in Taiwan as well as DNA-based breed identification can be established and achieved using the commercial Canine Genotype kits.