A total of 12 biochars produced from three citrus woods (Murcott, Ponkan and Tankan) and one Taiwan red pine woods at different pyrolysis temperatures of 300℃, 500℃ and 700℃, respectively, were preliminarily evaluated for their effects on tomato growth and control of bacterial wilt. Analysis of pH value and EC value of 12 biochars showed that, biochar macterials pyrolysed at 300℃ were acidic whereas those pyrolysed at 500℃ or 700℃ it were alkaline. Moreover, the EC values were 0.145~1.190 dS/ m. Among the 12 biochars tested on tomato plants growth in greenhouse, results showed that BVB substrate (peat moss based medium) amended with 1% M500, RP300 or T700 and 3% P700, RP500 or T500 biochars could increase plant fresh weight. In addition, 1% RP300 or T700 and 3% M500 biochar amendments could increase plant dry weight, especially in BVB substrate with 5% biochars, showing significantly negative effects on plant growth. In vitro growth inhibition test of the pathogen, results showed that 1% biochar produced at 300℃ had an inhibition in the range of 99.5- 100.0% growth of the pathogen. Moreover, 3% biochars produced at 700℃，except for biochar RP700, could inhibit the pathogen growth up to 99%. Twelve biochars with a ratio of 1% or 3%, respectively, were evaluated for control of bacterial wilt in a greenhouse. The greatest reduction in disease was observed with the use of 1% biochar incubated for three weeks control, especially in the biochar M300 treatment with the lowest disease severity of 27.% . To further determine bioactive compound isolated from biochar M300 by reversed phase high performance liquid chromatography (RP-HPLC) for an inhibitory effect on growth of the pathogen, a bioactive compound collected from a high peak at retention time of 24-25 min, however, did not show any antibacterial ability. This preliminary study suggests that biochar M300 offers potential for control of tomato bacterial wilt but the actual active inhibitory ingredient is yet to be confirmed in future studies.