Red imported fire ant (Solenopsis invicta Buren) has been discovered in two areas within Taiwan, Taoyuan and Chiayi Counties, in October, 2003 and occupied approximately 26000 and 8000 ha territory, respectively. In order to minimize the loss caused by fire ants, large-scale eradication program should immediately be implemented. For the prospect of eradication, immediately determining the geographic source of invasion becomes one of the most important tasks. It will lead the success of eradication program, because the further introductions or reinvasions will be avoided by applying the intensive quarantine regulations on the given possible invading routes based on the exploration on the origin of invasion. Herein, I applied six microsatellite loci by means of multiplex PCR to investigate the phylogenetic relationship and population structure of S. invicta populations that will suggest the origin of invasion and contribute to the eradication efforts. The Chiayi population possesses significant molecular variance and twofold the number of private alleles as compared with the Taoyuan poopulation, suggesting that both populations were possibly initiated from independent invasions. Taking the genetic diversity into account, the Chiayi population presents relatively higher genetic diversity (HO = 0.6902) and is accordingly presumed to establish by multiple introductions; while the Taoyuan population displays lower genetic diversity (HO = 0.5642) and significant isolation by distance, coupled with remarkable heterozygosity excess under the two-phased model (TPM), the population is suggested to initialize with a single introduction. The combination of allelic distribution and phylogenetic analysis suggests that the two areas most probably experience colonization from different regions or genetically distinct populations of the USA. Furthermore, slight gene flow and pronounced genetic differentiation between infested areas suggest the two populations are quite genetically isolated. Coupled with geographical isolation, it is relatively effective to carry out the eradication program at each small population with negligible connectivity. In addition, either genetic departure from the presumed source population accompanied by bottleneck effect or high genetic variability originating from multiple introductions can be concluded as the crucial characteristic contributing to the successful invasiveness of S. invicta based on the alternative patterns of genetic diversity shown in the two infested areas. The absence of Wolbachia infections corresponds with the natural enemy-release hypothesis and assists the successful invasions of S. invicta in Taiwan.