Twelve ornamental plant species suitable for indoor growth conditions were selected to study their ability to tolerate low light levels. The tolerance to indoor light environment for these plants were assessed and compared by the net exchange rate of carbon dioxide (NERC). Six plant species with higher NERC were chosen and then grown indoors providing with additional lighting from various artificial light sources to study whether increase of light intensity would promote their NERC and growth performance so as to reduce indoor carbon dioxide concentration for a better indoor air quality. The experiments were carried out at Taiwan Agricultural Research Institute and the selected uniform potted plants were grown under conditions of low light (28.6±1.2 μmol m^(-2) s^(-1)) and high carbon dioxide levels (504.4±52.1 ppm). After 5 wk of growth, plants of ＂Aglaonema＂ spp. var. 'Pattaya Beauty', ＂Epipremnum aureum＂, ＂Aglaonema＂ spp. var. 'Green peacock', ＂Aglaonema＂ spp. var. 'Siam Aurora', ＂Dieffenbachia＂ spp. var. 'Sparkles', and ＂Spathiphyllum floribundum＂ were found to have a higher NERC than others. These plants were then provided with additional artificial light sources and were compared with plants grown under indoor fluorescence lamps (6.1±1.0 μmol m^(-2) s^(-1)) as control check. The light intensity was increase to 27.7±1.2 μmol m^(-2) s^(-1) with 23 W white light energy-saving light bulb (ELB-W_(23W)), to 23.7±1.3 μmol m^(-2) s^(-1) with 23 W yellow light energy-saving light bulb (ELB-Y_(23W)), to 27.8±0.7 μmol m^(-2) s^(-1) with 10 W white light LED (light-emitting diode) (LED-W_(10W)), or to 31.3±2.7 μmol m^(-2) s^(-1) with 10W yellow light LED (LED-Y_(10W)). Results showed that plant growth rates of ＂Aglaonema＂ spp. var. 'Green peacock', ＂Aglaonema＂ spp. var. 'Pattaya beauty', and ＂Epipremnum aureum＂ were stimulated by additional lighting with LED-W_(10W), while plant growth of ＂Dieffenbachia＂ spp. var. 'Sparkles' was enhanced by both ELB-W_(23W) and LED-W_(10W). Plants of ＂Aglaonema＂ spp. var. 'Siam Aurora' were motivated by lighting with LED-W_(10W) and LED-Y_(10W), yet plants of ＂Spathiphyllum floribundum＂ were most provoked by ELB-W_(23W) and LED-Y_(10W). Along with the promotion of growth rate by the increase of light intensity, NFRC was also gradually improved by the extra light. At 5 wk after start of lighting treatments, NFRC increased to 1.5-3 folds than that at 2 wk. As a result, this study demonstrated that varietal differences in requirement and response to light intensity and quality existed in different ornamental plant species. Plant characteristics and indoor light environment are factors needed to be taken into account with other environmental conditions when selecting ornamental plants to grow indoors. To further improve plant growth as well as to raise NERC for purpose of consuming indoor carbon dioxide, increase of light intensity with artificial light sources is a proper option for consideration.