Previous studies demonstrated that

Previous studies demonstrated that the combination of red (R) and blue (B) LED light was an effective
light source for plant growth and development, and the light spectra, intensities, and durations can
easily be controlled by growers in artificial growing environments. Therefore, the goal of this study was
to investigate the influences of three different qualities of light on plant biomass and accumulation of
chlorophylls (chl), carotenoids (car), soluble proteins and sugars, and nitrates in the leaves of lettuce
(Lactuca sativa L. var. capitata). The marketable sensory characteristics (crispness, sweetness, shape, and
color) of fresh plants were also evaluated. Plants were hydroponically cultured with a 16-h photoperiod
at 24/20
◦
C (day/night), 75% relative humidity, 900 mol mol−1CO2level, and 210 mol m−2
s
−1
photon
flux density under RB LED, RB and white (RBW) LED, and a fluorescent lamp (FL, as a control) inside
growth chambers for 20 days (15 days after sowing). The shoot and root fresh and dry weights as well
as the crispness, sweetness, and shape of the plants treated with RBW and FL were higher than those of
plants treated with RB. The soluble sugar and nitrate contents in plants grown under RBW treatment were
significantly higher and lower, respectively, compared to those under RB treatment. However, the chl, car,
and soluble protein contents of lettuce leaves showed no significant differences among treatments. These
results demonstrate that supplemental light quality can be strategically used to enhance the nutritional
value and growth of lettuce plants grown under RBW LED lights. Precise management of the irradiance
and wavelength may hold promise in maximizing the economic efficiency of plant production, quality,
and nutrition potential of vegetables grown in controlled environments