The objective of this study was to investigate the effects of culture medium, ethylene inhibitors, and culture condition on the growth and differentiation of Cymbidium sinense rhizome. In addition, we also investigated the relationship between gas evolvement and the growth and development of rhizome. This study was expected to define the optimal cultural condition and to improve the multiplication, quality, and ex vitro growth of Cymbidium, and could be taken as the base of in vitro physiology research. Sucrose, glucose, fructose and glucose plus fructose were tested in the rhizome propagation medium, the results indicated that the growth of rhizome of Cym. sinense var. albo-jucundissimum and Cym. sinense ‘Chin Hwa Shan’ were not significant affected by the carbohydrate source. Higher concentration of nitrogen was required for the growth and differentiation of rhizome than that of shoot. The optimal nitrogen concentrations for Cym. sinense var. albo-jucundissimum and Cym. sinense ‘Chin Hwa Shan’ rhizome growth were 50.6 mM and 30.0 mM respectively, while the highest fresh weight of shoot and root was achieved with 14.6 mM. Rhizomes of Cym. sinense ‘Rui Bao’ × ‘Guang Hua Die’ were cultured in the rhizome propagation medium and shooting media. Multiplication and growth rates of rhizome and shoot were rapidly increased from Week 4 to Week 12, and CO2 concentration continued to accumulate in the vessel during this period. Carbon dioxide concentration in the vessel started to decrease 14 weeks after the rhizomes were cultured in the shooting medium. After Week 22, CO2 concentration decreased in the light period and increased in the dark period. This change of CO2 concentration showed the characteristics of diurnal rhythm. On the end of light period, CO2 concentration in vitro was declined to 300 μL．L-1 on Week 30. In rhizome propagation medium, increasing sucrose concentration（from 0% to 6%）promoted rhizome tip to differentiate into shoot, and increased shoot and root growth. In shooting medium, raising sucrose concentration increased shoot diameter, root number and total fresh weight, the CO2 and ethylene concentrations in vitro were also increased. Some shoots were chlorosis and ethylene concentration was reached to 570 nL．L-1 with the medium added 6% sucrose. Supplementing ACC in the rhizome propagation medium promoted rhizome growth and branching; however, adding AgNO3 suppressed rhizome growth, but improved shoot differentiation and growth. In shooting medium, adding ACC significantly inhibited shoot and root growth, while AgNO3 increased shoot growth. Adding 50 or 100 μM AOA in both media resulted in suppressing on rhizome and shoot growth, it may be the reason that AOA concentration was too high that leaded to toxicity. On the test of cultural container, although the multiplication of shoot in 470 mL flask and 350 mL GA-7 were not statistically different, the diameter of shoot and root in flask were higher than GA-7.