Vernonia amygdalina is a shrub or small tree that grow through tropical Africa. Beside of being used as green vegetable, it has been found pharmacologically use. In recent years, lots of study about Vernonia amygdalina ‘s medical usage have been done. Studies found that this plant has a tremendous antioxidant ability, and it also has efficacy on disease such as cancer, diabetes, liver damage and obesity, which is valuable for development. Air, water and light are necessary factors for plant growth, and light quality has different influence to plant’s physiology and biosynthesis metabolites, which is a factor that is easy to control in greenhouse or plant factory, and could be used to produce higher value than normal plants. In our study, we used red(R), blue(B), green(G), red + blue(RB) as treatments and fluorescence light(FL), to investigate the influences of different qualities of light on Vernonia amygdalina’s biomass, antioxidant ability, pigment content and chlorophyll fluorescence parameters. We also want to find if reflectance spectra and vegetation indices could be used for antioxidant ability or pigments’ prediction. Finally, to produce higher quality plant, build up the micropropagation method of Vernonia amygdalina is our target, too. The results showed that shoot elongation and biomass were induced under blue fluorescence light(B) and were the smallest under green fluorescence light(G). Respond to the highest quantum yield for photochemical energy　conversion in PSII (Y(Ⅱ)) and photochemical quenching (qP) under blue fluorescence light, make the highest　photosynthetic efficiency and green fluorescence light was the lowest. B could induce pigments synthesis, while R and RB were in contrast. Maximum quantum efficiency(Fv/Fm)showed that all treatment did not experienced stress, but R and R+B were lower than other treatments, showed that these two were relatively unhealthy than others. As the effect to　antioxidant efficiency, DPPH scavenging ability were higher under G and RB, while the reducing power was the highest under RB. Total phenolic content has no significant　difference between treatments, and flavonoids contents were the lowest under R and RB. Different wavelengths mediated the chlorophyll (Chl) degradation pathway of the leaves. Chl→Chlide→Pho was the major route and Chl→Phe→Pho was the minor route under R. Calculated vegetation indices NDVI correlated well with Car/Chl, NPQ, and reducing power; PRI correlated well with pigments and DPPH scavenging ability. Finally, we found that under 0.5 mg L-1 BA + 0.5 mg L-1 NAA could induce the most shoots, and if higher the NAA ratio could induced more roots. Use nodal as explant to induced antibacterial shoot, and use the antibacterial shoots as explants to induced more shoots and roots would be a more efficiency method. In general, we can get not only the most biomass but also the healthiest plant under B. The plant under R and RB are relatively unhealthy, but could get the highest antioxidant ability. R could significantly influence the degradation pathway of chlorophyll. Different light quality may make the structure of the leaves change, and also the reflectance. We know that Vernonia amygdalina has strong antioxidant ability, and it physiology and metabolite would be influence under different light quality, which make it become a controlling factor, to use to grow high quality plant.