Angelonia angustifolia Benth. is one of the most important bedding plants in the world. Due to its excellent heat and waterlogging tolerance, angelonia has been widely used by landscapers in Taiwan. However, angelonia is susceptible to drought, and its ornamental value is limited by its relatively small flowers. The objective of this study is to improve the ornamental traits and drought tolerance by inducing polyploids from Angelonia angelonia, as polyploids usually produce larger organs, and are stress-tolerant. Pollen germinability of tetraploid angelonia was tested, and diploid angelonia was crossed with tetraploid to obtain triploid progeny. After that, the traits of triploid were compared with diploid and tetraploid angelonia parents. Tetraploid lines with market potential were also selected, where the effect of volumetric water content (VWC) on growth and photosynthetic capacity of tetraploid angelonia lines was evaluated. The flower color inheritance pattern of the crossing of diploid Angelonia angelonia ‘Serena Purple’ and ‘Serena White’ was also investigated. By soaking seeds or seedlings of Angelonia angelonia ‘Serena Purple’ and ‘Serena White’ with 0%-0.20% colchicine solution for 12 hours, and dripping on the apical meristem of Angelonia angelonia ‘Serena Purple’ with 0%-0.20% colchicine solution for three days. The tetraploid induction rate among both treatments were less than 10%. The tetraploid Angelonia has a larger flower, stomata, and pollen diameter while the stomatal density is lower than that of the diploid. Due to the low tetraploid induction rate when treated with 0%-0.20% colchicine, the seeds of Angelonia angelonia ‘Serena Lavender Pink’ were treated with 0%-1.0% colchicine instead. The tetraploid induction rate after 0.8% colchicine treatment was 27.8%, the highest among all treatments. The pollen germination rates were over 80% among diploid ‘Serena Purple’, ‘Serena White’, and tetraploid lines after 3 hours of pollen culture, indicating the induced tetraploids were allotetraploids. After crossing diploid ‘Serena Purple’ and ‘Serena White’ with tetraploid lines, the capsule formation rate and seeds per capsule were higher when using tetraploid angelonia cultivars as seed parents. Traits of tetraploid lines SPU320102 and SWH110115 were compared with the control cultivars. SPU320102 and SWH110115 had wider and darker green leaves, larger flowers, and weak corolla reflexing. The flower chamber was wider and the markings inside the chamber were denser than diploid comparative cultivars. Moreover, the flower color of SPU320102 was darker than ‘Serena Purple’. Cultivating Angelonia angelonia ‘Serena Purple’, ‘Serena White’, tetraploid lines SPU320102 and SWH110115 with 20%, 40%, or 70% VWC. The leaves of tetraploid lines were wider, thicker, darker, and do not wilt under drought stress. The water demand was also lower in tetraploid lines, thereby showing an increase in drought tolerance for the tetraploid lines. Flower colors of progeny from selfing of ‘Serena Purple’ and reciprocal crosses between ‘Serena Purple’ and ‘Serena White’ resulted in a 3:1 ratio (purple：light pink). Selfing of ‘Serena White’ resulted in all-white progeny. Flower color inheritance was proposed to be controlled by two genes (W, P). Genotype ww resulted in a white flower, and genotype W_ resulted in colored flowers. Genotype P_ resulted in purple flower, while genotype pp resulted in a light pink flower. W gene has recessive epistasis when compared to P gene. The genotypes of ‘Serena Purple’ and ‘Serena White’ were proposed to be WWPp and wwPp, respectively.