Photosynthesis as Biofeedback for Adjusting Light Levels in Greenhouses

Photo of a small commercial indoor growing setup by CJP

We’ve recently shared interesting methods to improve the growth of plants, whether in the commercial or domestic setting. We learned that tomatoes may reduce need for pesticides, that plants can grow fairly well in artificial bubbles underwater, and now that technology might soon develop to use a metric of how much one’s plants are photosynthesizing to determine how much light they need, in an effort to cut electricity use. Catherine Elton reports for Conservation Magazine on a study published in the Journal of the American Society of Horticultural Science:

Indoor agriculture is gaining in popularity, and there are high expectations that—at a large enough scale—it could help satisfy the growing demand for food. But whether indoor farms, often called vertical farms or plant factories, make economic or environmental sense is hotly debated.

While indoor farms save land and water and use fertilizer more efficiently—all with little to no natural light—they consume lots of electricity to power lights and air conditioners to compensate for the heat all those lights generate. But what if farmers could reduce the amount of light they use and still grow their plants?

That is the goal of a recently developed biofeedback system which monitors photosynthesis in the plant and automatically adjusts light levels according to the plants’ needs. A study demonstrating the system’s effectiveness was published recently in the Journal of the American Society of Horticultural Science. 

“In most cases indoor farmers don’t know if they are wasting light because they have no way of knowing whether the plants are using the light efficiently,” says lead author Marc van Iersel, adding that plants only ever use photosynthesis for a portion of the light they absorb. “We want to help people see whether the plants are using light efficiently or not, and have the plants control their own light levels.”

For the study, researchers placed lettuce, sweet potato, and the house plant pothos, which all require different levels of light, in a growth chamber with LED lighting and connected them to a chlorophyll fluorometer. A datalogger used the data collected on the fluorometer to calculate the Electron Transfer Rate (ETR), which is a proxy for photosynthesis. The datalogger then sent a signal to the lighting control board, which adjusted the photosynthetic photon flux density of the lights—essentially turning them up or down—depending upon whether the plants are above or below a predetermined target ETR. The study demonstrated that the system was able to maintain a wide range of ETR values. According to the authors, a system like this could be programmed with an algorithm that takes into account different electricity prices at different hours of the day to maximize ETR when electricity prices are lower.

Read the rest of the original article here.

One thought on “Photosynthesis as Biofeedback for Adjusting Light Levels in Greenhouses

  1. Pingback: Weeding and Stopping Compost Hurts Farms | Raxa Collective – WORLD ORGANIC NEWS

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