Tomato (Solanum lycopersicum) is one of the important vegetables in Taiwan, mainly produced in the middle and southern parts of Taiwan. Due to global warming and the hot and humid summer in Taiwan, tomato may encounter a variety of biotic and abiotic stresses, especially bacterial wilt and high temperature, during cultivation. To seek for solutions, the endophytic bacterium Pseudomonas kribbensis XP1-6, capable of enhancing resistance to bacterial wilt and heat tolerance in tomato cultivar Knowyou 301, was identified in a previous study. In this study, whether this endophytic bacterium can be applied successfully in the tomato field in Taiwan was investigated through exploring the effect and colonization rate of P. kribbensis XP1-6 in different tomato cultivars, and feasibility of using different inoculation methods and the seed coating technique. The results showed that P. kribbensis XP1-6 has good colonization efficiency in the roots of commercialized cultivars Knowyou 301, Chuanfu 993, Yu-Nu, Beauty, Jing-Ying and Cheng-Mi-Hsiang; however, P. kribbensis XP1-6 can only colonize in some rootstock cultivars, including Eg190, Eg195, Eg219, TS03 and H7996. No matter seeds or germinated seeds (seedlings) were used for inoculation, P. kribbensis XP1-6 could reduce the disease incidence of bacterial wilt by more than 15%. In a preliminary seed coating experiment, P. kribbensis XP1-6 could successfully attach and colonize on seeds and enter seedlings after germination. Preliminary heat tolerance test indicated that inoculation of P. kribbensis XP1-6 in grafted seedlings of tomato cultivar Yu-Nu (rootstock: eggplant cultivar Yung-Chia) reduced bud drop in a greenhouse experiment in summer. In order to maintain an inventory of beneficial endophytic bacteria for different cultivation means and under different environmental conditions, I continue to screen potential endophytic bacteria which can enhance resistance to bacterial wilt. Another seven potential strains, including XK1-15, XK2-11, XK2-14, XR2-2, XS2-3, MP4-1, and XH1-2a, were selected using bacterial collection from a previous study, and their plant growth-promoting (PGP) activities and antagonistic effects against Ralstonia solanacearum were investigated. Finally, we found strains XK1-15 and MP4-1 could reduce disease incidence of bacterial wilt significantly to 47.5% and 60% (that of the control plants was about 90%). In the future, these two strains can be further explored for application in the field. Taking together, the data showed that P. kribbensis XP1-6 can be used not only on tomato cultivar Knowyou 301, but also many other commercialized cultivars and potentially on grafted seedlings. The fact that seed coating can successfully inoculate tomato with P. kribbensis XP1-6 implies a further study to increase its viability and activity on seeds using appropriate coating materials is required. In addition, possessing more potential beneficial bacteria can increase the possibility to consider such tomato management strategy in different locations and growing seasons and uses of combined strains for synergistic effect on enhancement of tomato disease resistance or heat tolerance, thus creating more application value to the potential endophytes.