ResultsLight quality influenced the

Results
Light quality influenced the vegetative growth parameters of potato plantlets in vitro. Light treatments with mixtures of RBor RBG were more beneficial to the vegetative growth of potato plantlets in vitro than the FL treatment (Table 2, Fig. 1). Moreover, the addition of G to the composite spectrum of R and B was favorable for the vegetative growth of potato plantlets in vitro and increased stem diameter, leaf area, DM, health index and root activity (Table 2, Fig. 1). Stem height under R630B and R660B was sig-nificantly lower than that under FL, but stem height under R630BGand R660BG approximated stem height under FL, indicating that theaddition of G contributed to increased stem height.The combined spectra containing R660 was better for the vegetative growth of potato plantlets in vitro than that containing R630.The combined spectra R660B and R660BG significantly increased leaf area, SLM, health index, and root activity (Table 2, Fig. 1).Chl accumulation in potato plantlets in vitro was significantlyinfluenced by light quality, and the addition of G promoted Chlaccumulation (Fig. 2). In addition, the highest Chla, Chlb, and total Chl contents were found in the R660BG treatment, which indicated that the combined spectrum containing R660was more favorable for Chl accumulation than R630in potato plantlets in vitro.The soluble sugar, soluble protein, and starch contents in potato plantlets in vitro were significantly higher in all of the LED treat-ments than under FL (Fig. 3). The addition of G promoted theaccumulation of carbohydrates and proteins. The highest soluble sugar, starch and soluble protein contents were observed in theR660BG treatments; a result suggesting the combined spectrum Fig