Response of greenhouse mini-cucumber to different vertical spectra of LED lighting under overhead high pressure sodium and plasma lighting
Citation
Guo, X.-B., Hao, X.M., Tsao, R., Zheng, J.M., Little, C., and Khosla, S. 2016. "Response of greenhouse mini-cucumber to different vertical spectra of LED lighting under overhead high pressure sodium and plasma lighting.", Acta Horticulturae (ISHS)1134:87-94.
Plain language summary
Different light spectra trigger different plant growth processes. Therefore, the
optimum light spectrum for various plant growth processes such as leaf and fruit
growth may be different. Greenhouse mini-cucumber (Cucumis sativus L.) is a tall
crop, with most leaf growth occurring in the top and middle canopy while fruit growth
occurs in the middle and bottom canopy. Therefore, optimized vertical light spectral
distribution profiles could be developed for improving both vegetative and fruit
growth. In this study, we investigated the effects of different vertical spectra of light emitting
diodes (LED) lighting under high-pressure sodium (HPS) and plasma
overhead lighting on plant growth and fruit yield of mini-cucumber. The study was
conducted from October 2014 to April 2015 in a large greenhouse divided into
4 sections (50 m2 growing area in each section). Two sections were installed with
plasma overhead light and the other two sections with HPS light, with both of them
providing the same amount of overhead light (165 μmol m-2 s-1). Four vertical LED
regimes (the top far red with bottom blue; the top blue with bottom far red; the top far
red with bottom red; the top red with bottom far red) were applied to 4 plots inside
each of the 4 sections. The blue or red LED each provided 10 μmol m-2 s-1, while the far
red LED provided 8 μmol m-2 s-1 of light. The vertical LED treatments resulted in more
than a 10% difference in fruit yield despite the small amount of light, indicating that
the vertical light distribution had a large influence on plant growth. Top blue LED
reduced leaf size and plant height in the early growth period which reduced total fruit
yield for the plants grown under plasma light but not under HPS. Far red LED placed
at the top of the canopy increased fruit yield, in comparison to bottom canopy
placement, for plants grown under plasma light. This study has clearly demonstrated that
vertical light spectral distribution can have a large influence on plant growth and
development, and optimized light distribution should and can be developed for year round
greenhouse vegetable production with supplemental lighting.
Abstract
Different light spectra trigger different plant growth processes. Therefore, the optimum light spectrum for various plant growth processes such as leaf and fruit growth may be different. Greenhouse mini-cucumber (Cucumis sativus L.) is a tall crop, with most leaf growth occurring in the top and middle canopy while fruit growth occurs in the middle and bottom canopy. Therefore, optimized vertical light spectral distribution profiles could be developed for improving both vegetative and fruit growth. In this study, we investigated the effects of different vertical spectra of lightemitting diodes (LED) lighting under high-pressure sodium (HPS) and plasma overhead lighting on plant growth and fruit yield of mini-cucumber. The study was conducted from October 2014 to April 2015 in a large greenhouse divided into4 sections (50 m2 growing area in each section). Two sections were installed with plasma overhead light and the other two sections with HPS light, with both of them providing the same amount of overhead light (165 μmol m-2 s-1). Four vertical LED regimes (the top far red with bottom blue; the top blue with bottom far red; the top far red with bottom red; the top red with bottom far red) were applied to 4 plots inside each of the 4 sections. The blue or red LED each provided 10 μmol m-2 s-1, while the far red LED provided 8 μmol m-2 s-1 of light. The vertical LED treatments resulted in more than a 10% difference in fruit yield despite the small amount of light, indicating that the vertical light distribution had a large influence on plant growth. Top blue LED reduced leaf size and plant height in the early growth period which reduced total fruit yield for the plants grown under plasma light but not under HPS. Far red LED placed at the top of the canopy increased fruit yield, in comparison to bottom canopy placement, for plants grown under plasma light. This study has demonstrated that vertical light spectral distribution can have a large influence on plant growth and development, and optimized light distribution should and can be developed for yearround greenhouse vegetable production with supplemental lighting.