Ma bamboo (Dendrocalamus latiflorus) is an important commercial crop of Taiwan and it is the most distributed and well adapted bamboo specie. However, it is commonly infected by the Bamboo mosaic virus (BaMV) which has severely hindered the development of bamboo production. Furthermore, common breeding methods of bamboo have many limitations which pose challenges for the industry of ma bamboo. Many successful ma bamboo tissue culture systems have been established. In tissue culture system, explants should be cultured in aseptic condition. Therefore, having a good sterilization method is the very first and an important step of system establishment. However, complete sterilization of microorganisms and its endophytes remain inefficient using common disinfectants. Research shows that HgCl2 is the most widely used disinfectant, yet it causes heavy environmental pollution. This study aims to find the optimal sterilization method that use disinfectants with less environmental impact and seek the best condition for ma bamboo callus induction. Using the nodal branch of ma bamboo as material, results show that sterilization at high concentrations of disinfectant for a short time combined with antibiotic-supplemented mediums can lower contamination rates by more than 80% without affecting nodal growth. Ma bamboo shoots were also used to induce callus. Results show that there was successful callus induction when ma bamboo shoots were treated with 1% NaOCl for 45 min, washed thoroughly with sterilized distilled water, and cultured in 1/2 MSp680 medium that was supplemented with 2.41 mg/L Picloram in the absence of light. It was also found that adding 100μg/ml Cefotaxime, and 100μg/ml Timetin to the medium reduced contamination rates. The lowest contamination rate was observed when the ma bamboo budding branch was treated with 2% NaOCl for 30 min, sonication for 15 min, three thorough washes in sterilized distilled water, and cultured in a medium containing 50 μg/ml Cefotaxime and 50 μg/ml Timetin. The best callus induction rate (82.8%) occurred when the budding branch was cultured on 1/2 MSp680 medium supplemented with 2.21 mg/L 2,4-D in the absence of light. Despite these observations, the growth of callus still depended on explants and could not survive alone. These results can be used as basis for further study of ma bamboo regeneration system, callus induction and reproduction. And be applied to understand the changes and mechanisms of cell growth, providing the cornerstone of future research and application of bamboo growth in the foreseeable future.