The present study was designed to identify spices and herbs that possess antibacterial activity and to apply for control of microorganisms in food. Alcoholic extracts of seventeen spices and five herbs were prepared and examined for growth inhibition of several kinds of food-related bacteria in culture media. Bacillus stearothermophilus, which produces heat-resistant spores, was highly sensitive to most of the spices tested. Both germination of spores and outgrowth of vegetative cells of this organism were inhibited by most of the spices tested. The MICs (minimal inhibitory concentrations) were 0.005% for paprika, 0.01% for anise and 0.02% for mace both on agar and in liquid media. The inhibition of this organism by effective spices was influenced by pH and NaCl concentration of the basal medium. When the pH and NaCl were 6.0 and 1.5%, respectively, the MICs decreased to 10-20%. No synergistic effect of spice and sodium lactate was observed except for mace. At 0.05%, nutmeg, sage, and white pepper perfectly inhibited the growth of this organism. Garlic showed no antibacterial effect and turmeric was also less effective. In general, antibacterial activity of herbs such as chamomile was comparatively low. Against B. coagulans, sage and rosemary inhibited the growth and the MICs were 0.05% and 0.2%, respectively. Both Escherichia coli and Salmonella were not inhibited by 0.2% concentration of all the spices and herbs tested. Sage showed the inhibitory effects against B. subtilis, B. cereus and Staphylococcus aureus. These results suggest that control of the thermophilic bacteria, especially B. stearothermophilus, in canned foods is possible by some spices.