Clerodendrum schmidtii C.B. Clarke (family Lamiacea), an evergreen or deciduous shrub, has been widely used for ornamental decoration or potted plants. The reddish-brown calyx and rachis contrast sharply with white five-lobed petals. However, information on propagation and flowering physiology is presently limited. This study aimed to determine the appropriate cutting type for C. schmidtii propagation, the effect of volumetric water content, temperature, photoperiod, and plant growth regulators on the growth and flowering of C. schmidtii. 　　Softwood, semi-hardwood, and hardwood cuttings taken from non-flowering shoots of C. schmidtii were cut into 15-cm length. Softwood and semi-hardwood cuttings were either defoliated or retained one pair of fully expanded leaves. Hardwood cuttings were leafless. All cuttings survived except for softwood cuttings at 28 days after inserting in the rooting medium. Only hardwood cuttings all rooted. Leafy softwood and semi-hardwood cuttings produced the highest number and length of roots, and the root system well developed. Furthermore, semi-hardwood cuttings were cut into 5, 10, 15, and 20-cm length, retaining one pair of fully expanded leaves on each cutting. All cuttings survived and rooted in each treatment at 28 days after inserting in the rooting medium. There were no significant differences in root length and rooting stage among all treatments. However, 15- and 20-cm-length cuttings produced the most root number while 5-cm-length cuttings had less roots. The results above suggest that 15- to 20-cm-length leafy semi-hardwood cuttings could achieve better propagation results. 　　C. schmidtii were treated with four of volumetric volume water content (20%, 40%, 20/50%, and 70%). Plant treated 20% VWC resulted in poor growth with severe chlorosis and leaf abscission, along with the lowest net photosynthesis rate which was caused by both stomatal and non-stomatal factors. Plants treated 40% VWC were the most vigorous, with the highest number and length of lateral shoots, as well as the most total fully expanded leaf number and leaf area among all treatments. The chlorotic and leaf abscission rate of the 70% VWC treatment was slightly lower than that of 20% VWC, growth were also limited. This suggests that C. schmidtii is suitable for humid environment, and both drought and waterlogging are detrimental. 　　C. schmidtii was placed in phytotron with day/night temperatures of 15/13, 20/15, 25/20, 30/25, and 35/30 ℃. Plants treated 15/13 ℃ were stunted. Plants grown at 20/15 °C produced less and shorter lateral shoots, and less leaves than treated at higher temperatures. 25/20 and 30/25 ℃ were optimal for the vegetative growth of C. schmidtii. Plants treated 35/30 ℃ turned weak and chlorotic in the later stage of the experiment. Flowering occurred within 170 days in the 15/13 and 20/15 ℃ treatments and 271.6 days in the 25/20 ℃ treatment. After 170 days of cultivation at 25/20 and 30/25 ℃, half of the plants from each temperature were transferred to 20/15 ℃ while the remaining plants were not moved. Buds appeared 82.2 and 72.8 days after transfer into 20/15 ℃ from 25/20 and 30/25 ℃ treatments, respectively. No flower buds were produced under 30/25 ℃. 　　C. schmidtii was treated at 20/15 ℃ for 2, 4, 6, 8, 10, and 12 weeks and then transferred to the greenhouse. The number of newly-grown nodes below the first flower bud decreased and inflorescence number increased with increasing duration of 20/15 ℃ treatment, indicating that sufficient low temperature cultivation could promote flower formation. 　　C. schmidtii was cultivated under five photoperiods: natural daylength (ND), ND supplemented with high-pressure sodium lamps (ND with HPS), day-extension with tungsten lamps to 16 h (day-extension, DE), day-extension with HPS to 16 h (ND+HPS DE), and night break with tungsten lamps for 4 h (night break, NB). Plants were short but produced a few inflorescences under ND. Plants under ND with HPS obtained longer lateral shoots and more leaves than ND. The inflorescence developed faster under ND with HPS and obtained the longest rachis length and the highest number of flowers among all treatments. Plants in the other three treatments were vigorous but not suitable to flowering, producing sparse flower buds. 　　Cuttings of C. schmidtii were treated with 100 and 200 mg·L-1 GA3 or 50, 100, and 150 mg·L-1 paclobutrazol (PAZ), while water treatment as control. Spraying C. schmidtii with GA3 elongated lateral shoots and internodes. However, GA3 treatment increased the number of nodes below the first flower bud as well as delayed the days to visible bud. Plants treated with PAZ were significant shorter than the other treatments. High concentrations of PAZ resulted in severely dwarf performance. Application of PAZ promoted the formation of inflorescences but the rachis length and flower diameter reduced. While 100 and 150 mg·L-1 PAZ reduced the number of nodes below the first flower bud, indicating that PBZ could promote flower bud initiation in C. schmidtii.