The Lienchiang County and the Kinmen County are offshore islands of ROC that are very close to the Mainland China. Since sea-borne transportation among these islands and the mainland was resumed sailing since 2001. Murine-like animals of these isles and Mainland China would possibly spread around among mutual seaports of both sides. It would consequently cause additional damage to crops and animals, as well as propagating murine-borne diseases such as hantavirus, rickettsial diseases etc. This study attempted to know the relationship among murine-like animals, vector and pathogens in Lienchiang and Kinmen Counties. Live-trapping methods was used in this study from 2001-2006. Four trapping stations were set in the Lienchiang County. Six murine-like animals; Rattus norvegicus, Rattus rattus, Rattus losea, Mus musculus, Mus caroli and Suncus murinus, were caught in these stations. Totally, 651 murine-like animals were trapped in 13,419 trap-nights. The trapping rate was 4.8% (651/13,419). Seven trapping stations were set in Kinmen County. Seven murine-like animals; R. norvegicus, R. rattus, R. losea, M. musculus, M. caroli, Callosciurus erythraeus and S. murinus, were caught in these stations. And, 2,355 murine-like animals were trapped at 7 trapping stations in 24,928 trap-nights. The trapping rate was 9.4% (2,355/24,928). Invasion of original murine-like animal species have not been found yet during the period of survey in this study. In Lienchiang County, we collected 44 fleas (8 Xenopsylla cheopis, 24 Leptopsylla segnis and 12 Nosopsylla Sp.) from 186 murine-like animals. The flea index was estimated 0.24. One hundred and ten fleas (Nosopsylla Sp.) from 664 animals were found in Kinmen County. The flea index was estimated 0.17. Although, the highest flea indexes were collected from R. rattus and R. losea in both county. The lice, ticks, mites, and chiggers were collected from the murine-like animals in Lienchiang and Kinmen they didn’t relevant the sex of host significantly. We used indirect immunofluorescent antibody assay (IFA) to detect antibody of rickettsia (Rickettsia typhi, Rickettsia rickettsii, and Rickettsia conorii). The seroprevalences of R. typhi against in murine-like animals were 3.0% (2/67) in the Lienchiang County and 2.7% (5/183) in the Kinmen County, respectively. According to the results mentioned above, few of X. cheopis was found in murine-like animals, low seroprevalence of R. typhi was found in the animals. There was no significant difference between flea index and seroprevalence in all trapping stations. We suggest that prevalence of epidemic of R. typhi in the Lienchiang County and the Kinmen County will be low. The seroprevalence of antibodies against R. rickettsii and R. conorii were 50.7% and 37.3% from 67 murine-like animals in the Lienchiang County, respectively. Nineteen out of sixty seven murine-like animals had positive reactions to both of R. rickettsii and R. conrii. The seroprevalence of antibodies against R. rickettsii and R. conorii was 72.7% and 59.0% from 183 animals in the Kinmen County, respectively. One hundred and three out of one hundred and eighty three animals had positive reactions to both of R. rickettsii and R. conrii. Seroprevalence of murine-like anumals with heavier body weight was significantly different from that of murine-like animals with lighter body weight (p<0.05). Sexes of murine-like animals made no significant difference between infested and non-infested animals. It suggested that the higher antibody (R. rickettsii and R. conrii) prevalence in large size of animals that may be due to territoriality, aggression toward others and more chance will be infected by tick. There was no significant difference in the seroprevalence between the mruine-like animals that collected from two counties (Kinmen 3.8% vs. Lienchiang 3.9%). Besides, hantavirus strain found in both counties was a mild infectious strain: the Seoul (SEOV) strain found in Taiwan, rather then an intensive strain: Hantaan (HTN), found in Mainland China. The positive rate of hantavirus found in trapped murine-like animals (17.9%) in Liaolo, a major seaport, of the Kinmen County, was significantly higher than the these in other trapping stations. The rates of hantavirus found in trapped murine-like animals in Matsu Distillery (10.3%) and Fushing (5.8%) of the Lienchiang County were significantly higher than the those of other stations. Moreover, a significant inverse correlation was found between the seropositive rate and the distance of murine-like animals trapping stations to the seaport (p<0.01). These findings suggested the role of seaport as a source of hantavirus. According to this study that there was no significant difference between trapping rates and climatic factors [temperature (℃), relative humidity (%) and precipitation (mm)]. So not only we need more time to monitor the invasion of original murine-like animal species but also we have much data to analysis the relationship between trapping rate and climatic changes to avoid more public health problems.