Purdue Grows Ornamental Plant Seedlings with Blue and Red LED Lights

Purdue University researchers' success in using red and blue LEDs as the only source of light to grow ornamental plant seedlings indoors has led to a new phase of determining whether they can reduce production time with more colors.

The research is important because most seedlings are grown in greenhouses in the late winter and early spring, a time when sunlight with enough growing power is low, especially in northern states. Seedlings need to grow at that time to meet spring and summer sales of bedding plants, so supplemental lighting from electric lamps is typically needed.

Purdue University associate professor Roberto Lopez (right) and doctoral student Joshua Craver are finding that sole-source LEDs can produce high-quality ornamental seedlings. (Purdue Agricultural Communication Photo/Tom Campbell) 

 In the first part of the research, associate professor of horticulture Roberto Lopez and master's student Wesley Randall grew seedlings from five bedding plant species - impatiens, marigold, petunia, vinca and zonal geranium - some using light-emitting diodes, known as LEDs, as a supplement to sunlight. They found that the quality of seedlings grown with LEDs was similar to - and in some cases better than - those grown in a greenhouse with high-pressure sodium lamps (similar to street or arena lamps) to supplement sunlight.

They then decided to see if the seedlings could be produced indoors with LEDs as the sole source of light.

 "It was quite surprising to see how uniform, compact and sturdy the seedlings were compared to seedlings produced in the greenhouse with sunlight and supplemental lighting from LEDs," Lopez said. Compact seedlings are desirable because tall seedlings can be damaged in boxes during shipping.

"I didn't think we could produce such a nice, high-quality plant without the sun," he said.

The greenhouse study was published in June in HortScience, a publication of the American Society for Horticulture Science. The researchers also wrote about the sole-source LED lighting study in Greenhouse Product News in September.

Lopez said the research shows that sole-source LED lighting could be used to grow ornamental plant seedlings indoors with a technique known as multilayer production, in which plants are stacked on top of each other on shelves such as in a warehouse where there is no sunlight. Some companies, especially in Japan, already use multilayer production for leafy vegetables.

High-intensity LEDs, with their red and blue colors resembling Christmas lights, convert electricity into light that plants use for photosynthesis. They are much more efficient than traditional lights such as incandescent bulbs and fluorescent lights because they consume less energy. They last longer, too, but they also are more expensive to buy.

The current research led by Lopez and doctoral student Joshua Craver has advanced to the stage of trying to make the seedlings grow faster than the typical 3-4 weeks in a greenhouse, using red, blue, white and far-red LEDs. Growing time was not considered in the first phase of the research.

"We want to see if we can take a week or so off of production," Lopez said.

The goal, he said, is to help the plants flower faster for sale to consumers.

The research is part of a four-year grant by the U.S. Department of Agriculture for research involving growing both ornamental and vegetable plants with LED lights. 

Below is an abstract of the professors paper submitted for journal publications.

 
ABSTRACT
Comparison of Supplemental Lighting from High-pressure Sodium Lamps and Light-emitting Diodes during Bedding Plant Seedling Production
Wesley C. Randall 1; Roberto G. Lopez 2
1, 2 Department of Horticulture and Landscape Architecture
Purdue University
West Lafayette, IN  47907
Annual bedding plant seedlings or plugs are considered high quality when they are compact, fully rooted transplants with a large stem caliper and high root dry mass. Greenhouses in northern latitudes rely on supplemental lighting (SL) from high-pressure sodium lamps (HPS) during winter months to achieve high-quality, finished plugs. Light-emitting diodes (LEDs) offer higher energy efficiencies, a long operating life, and precise waveband specificity that can eliminate wavebands not considered useful. Seedlings of Antirrhinum, Catharanthus, Celosia, Impatiens, Pelargonium, Petunia, Tagetes, Salvia, and Viola were grown at 21 °C under a 16-hour photoperiod of ambient solar light and SL of 100 μmol·m-2·s-1 from either HPS lamps or LED arrays with varying proportions (%) of red:blue light (100:0, 85:15, or 70:30). Height of Catharanthus, Celosia, Impatiens, Petunia, Tagetes, Salvia, and Viola was 31%, 29%, 31%, 55%, 20%, 9%, and 35% shorter, respectively, for seedlings grown under the 85:15 red:blue LEDs compared with those grown under HPS lamps. Additionally, stem caliper of Antirrhinum, Pelargonium, and Tagetes was 16%, 8%, and 13% larger, respectively, for seedlings grown under the 85:15 red:blue LEDs compared with seedlings grown under HPS lamps. The quality index (QI), a quantitative measurement of quality, was similar for Antirrhinum, Catharanthus, Impatiens, Pelargonium, and Tagetes grown under LEDs and HPS lamps. However, it was significantly higher for Petunia, Salvia, and Viola under 85:15, 70:30, and 100:0 red:blue LEDs than under HPS lamps, respectively. These results indicate that seedling quality for the majority of the species tested under SL from LEDs providing both red and blue light was similar or higher than those grown under HPS lamps.
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