Fusarium wilt caused by Fusarium oxysporum f. sp. lycopersici (Fol) is one of the limiting factors for the production of tomato in summer in Taiwan. The objectives of this study are to identify growth-promoting bacteria from tomato roots and rhizosphere and to evaluate their ability to control Fusarium wilt. Of 140 bacterial isolates tested, 17% were able to promote the growth of tomato seedlings and 15% reduced the incidence of Fusarium wilt. Three isolates designated CHT2401, CHT2402 and CHR001 formed rhizoidal colonies resembling Bacillus mycoides. Their identities were further confirmed by physiological and biochemical tests according to Biolog system and by sequence comparison of gyrB gene and ITS region with other known Bacillus spp. whose sequences are available in database. The optimum temperature for bacterial growth ranged from 28 to 36°C and the optimum pH ranged from 4 to 8. Among 16 carbohydrates and 32 nitrogen sources tested for growth, three B. mycoides isolates had very different preferences. The ability of B. mycoides isolates to suppress Fusarium wilt was markedly affected by the composition of the media. Bacteria grown in nutrient agar (NA) or soy powder agar were more effective in reducing Fusarium wilt than those grown on potato dextrose agar, corn meal agar, and malt extract agar. Soils mixed with bacteria suspensions that were grown in soybean meal or corn meal provided excellent protection for tomato seedlings from the damage of Fusarium wilt in a concentration-dependent manner. Tomato roots dipping in bacterial suspensions grown in nutrient broth, soybean meal or corn meal and planted in Fol-infested soils also developed fewer Fusarium wilt and powdery mildew compared to controls. However, plants dipping in bacterial suspensions grown in potato dextrose broth developed severe Fusarium wilt. Overall, our results demonstrate the importance of medium composition in the biocontrol effectiveness of B. mycoides against tomato Fusarium wilt. The identified B. mycoide isolates may be useful in developing effective biocontrol agents and providing an alternative for diseases management.