Public Release: 

Light-emitting diode sole-source lighting effective in bedding plant seedling production

Annual seedlings fare well using sole-source LEDs when compared to ambient or supplemental lighting

American Society for Horticultural Science


IMAGE: Bedding plant seedlings are shown growing under light-emitting diode supplemental lighting in the greenhouse. The study showed that using sole-source LEDs can be an effective production strategy for annual seedlings.... view more

Credit: Photo courtesy of Roberto Lopez

WEST LAFAYETTE, IN - In northern latitudes, producers of bedding plants depend on supplemental lighting during the late winter and early spring growing seasons. Unfortunately, these peak times for young plant production are also the darkest. Researchers have determined that a minimum amount of photosynthetic light (daily light integral; DLI) is necessary to produce high-quality young plants in greenhouses. In northern latitudes, though, the average greenhouse photosynthetic DLI can fall far short of optimal levels, resulting in delayed production and poor quality plants.

Roberto Lopez and Wesley Randall, researchers at the Department of Horticulture and Landscape Architecture at Purdue University, published a study in the May 2015 issue of HortScience in which they compared the quality of bedding plant seedlings grown under sole-source LEDs and supplemental lighting from LEDs and high-pressure sodium lamps. "Due to their small size, wavelength specificity, high light output, and relatively low heat output, LEDs have been used in environmental chambers for sole-source photosynthetic lighting and now in greenhouses as overhead supplemental lighting for young ornamental plants," Lopez said.

Lopez and Randall compared bedding plant seedlings grown under low greenhouse ambient light (AL) to those grown under supplemental lighting (SL) or sole-source photosynthetic (SSL) with a similar DLI. The researchers used seeds of French marigold, geranium, impatiens, petunia, and vinca sown into seed trays filled with soilless medium and then placed in a glass-glazed greenhouse. Trays of each species were moved upon hypocotyl emergence to one of three treatments: ambient light, ambient light plus supplemental light in a glass-glazed greenhouse, or sole-source photosynthetic light in a growth chamber. After the lighting treatments, seedlings from each tray were transplanted into containers filled with soilless medium and placed in a common greenhouse environment with a 16-hour photoperiod of ambient light supplemented with high-pressure sodium lamps.

"Our results showed that the bedding plant seedlings grown under SSL were of similar or greater quality compared with those under SL, indicating that LED SSL could be used as an alternative to traditional greenhouse seedling production," Lopez and Randall said.

"Supplemental and SSL with blue light are known to suppress extension growth and leaf expansion, resulting in compact young plants, which is often a desirable characteristic for greenhouse growers," the authors noted. "A general recommendation for SSL of bedding plant seedlings would be to include anywhere from 10% to 30% blue light depending on the desired crop-specific attributes and costs."

The researchers added that LEDs could be used for SSL in high-density multilayer production systems as an effective alternative in greenhouse annual bedding plant seedling production.


The complete study and abstract are available on the ASHS HortScience electronic journal web site:

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