On the heels of our webinar on achieving higher yields, revenue cycles and crop quality with light control
, we dive into this third and final post of our series on daily light integral (DLI
). Earlier in this series, we outlined the basics of optimizing light
and identifying target DLI
to improve plant health and increase yields year-round.
We usually hear from our commercial partners that after labor costs, energy is their largest expense and concern. Our friends in places like the Kingsville and Leamington areas of Ontario are not only faced with balancing runaway utility expenses1
, but also with predicting if enough electricity2
will be generated by utility companies’ aging grids to feed their business expansion.
With more automated systems entering greenhouses every year, it’s good to ask how bringing LED
light into your operation will result in a net gain. The answer, in part, has to do with DLI
Give to Get
Verified by historical data from commercial growers, and long-supported by the academic research community, there is a 1:1 correlation between DLI
and production. As presented by Dr. Ryan Dickson of University of New Hampshire Cooperative Extension3
at last month’s Greenhouse and Production Conference, a 1% increase in DLI
correlates to a 1% increase in yield.
Picture: Data compiled by a tomato producer in the southwestern United States over two decades showing monthly yields tied directly to the available natural light. No supplemental lighting in use.
Whether leafy greens, tomatoes or floriculture, increased light intensity (which boosts DLI
) up to a saturation point accelerates every stage of plant development. That means cuttings develop robust roots and reach transplant size quickly, which then leaf out on thick, highly branched stems. During rooting 4
, maintaining a fixed or stable DLI
is important but light intensities should not be high.
By adding just enough light, the University of Akron Research Foundation demonstrated5
increasing brix levels (sugars) in hydroponic lettuce. Or in the case of tomatoes, scientists and cultivators are reporting quick-healing grafts, followed by abundant flowers and vigorous fruit set.
Given increasing consumer demand for fresh produce year-round, a grower’s initial investment in supplemental LED
lighting is quickly offset by accelerated harvests, smarter energy consumption and a uniform, quality yield day in and day out.
Real-Time DLI Solutions and Integrated Systems
to guide our growing strategies is not a new concept, though how we use it has evolved.
Whereas systems that automatically turn lighting on and off at set times of day were once the vanguard, greater sophistication has given rise to the “hourly response” method. Newer, but still limited, this method uses a datalogger that records natural light levels and instructs lights to turn on or remain off on an hourly basis (high-pressure sodium ballasts limit increments shorter than that because they require a warm-up and rest period) in order to meet your plants’ DLI
Today, programmable LED
s can address changes in natural light conditions in real time, delivering precise amounts of supplemental light to meet DLI
requirements. Whether using energy-efficient LED
s or traditionally energy-hungry HPS
for supplemental lighting, further savings can be achieved by shifting run times to off-peak hours where electricity is available at a much lower price.
Heliospectra’s standalone control system gives users real-time control of the lights (no waiting for ballasts to warm up), and is also ready to integrate with a wide variety of facility and building control systems.
Picture: The Heliospectra vision is to create a complete biofeedback solution where the plants are in essence controlling the light strategy and control system.
With the stunning diversity of plants and food grown in greenhouses and controlled environments, today’s LED lighting and control solutions
deliver long-lasting performance and dollar savings while improving the overall quality of the crops. As intelligent light solutions continue to evolve, it won’t be long before we can rely on the plants to tell the lights what to do.