Mikania cordata and M. micrantha of the Compositae are common in Taiwan at low elevations. These 2 Mikania species have similar vegetative characteristics and habitat preferences. In recent decades, the exotic M. micrantha has become a serious invasive plant in both natural and disturbed habitats. In this study, we compared the effects of temperature, pH, water potential, and planting depth on seed germination of the 2 Mikania species under controlled environments. Temperatures for seed germination ranged from 8 to 32 °C for M. micrantha and 12 to 28 °C for M. cordata. Initial germination was around 6 days after planting, and accumulated germination reached a plateau at about 60 % for both species 2 weeks after planting. Under an illuminated condition, more than 68 % of seeds of both species germinated. In darkness, only 3.5 % and 25 % of seeds of M. micrantha and M. cordata, respectively, germinated. More than 50 % of seeds of both species germinated between pH 5.5 and 7.5. Seed germination of M. cordata was higher than that of M. micrantha when the water potential was 0, -0.2, or -0.4 MPa. Seeds of both species failed to germinate when the water potential was at -0.8 MPa or lower. Seedling emergence sharply decreased with increased burial depth, and maximum depth for emergence was between 2 and 2.5 cm. In the greenhouse test, from June through August, results showed that vegetative growth of M. micrantha was much stronger than that of M. cordata under similar conditions. The invasive M. micrantha had longer vines (1.8 times), more leaves (2.1 times), a larger leaf area (7.9 times), and more biomass (13.1 times by fresh weight) than those of the indigenous M. cordata at 11 weeks after seedling emergence. Our data suggest that the invasive M. micrantha is capable of out-competing and displacing the indigenous M. cordata in natural habitats.