Optimising strawberry lighting with plant photosynthesis

LED Strategies for Strawberries

Gardin, a phenotyping technology company, and Agrolux, a global leader in horticultural lighting, set out to demonstrate the use of chlorophyll fluorescence measurements of photosynthesis as a technique to optimise lighting strategies in strawberry production in an ongoing trial at Delphy Improvement Centre in the Netherlands.

Gert-Jan, the lead agronomist from Agrolux on the project proposes, "Plant sensors that can indicate how the plant responds to all climate variables are crucial for further optimisation of not only the lighting strategy, but the entire greenhouse climate".

Gardin's sensor has been able to quantify the difference in performance of three different light treatments on two strawberry varieties, Albion and Favori, in terms of photosynthetic performance and how that relates to berry quality and yield. Notably, photosynthesis under sunlight for Albion was 12% more efficient than Favori (P<.005), resulting in a 28% increase in the proportion of harvested berries larger than 35mm (P<.005). By measuring the plant in this way, growers can identify differences in plant response weeks ahead of visible crop changes, and use this information to select the most effective lighting strategies.

Chlorophyll Fluorescence: A Link Between Greenhouse Climate and Plant Health

In this study, Favori and Albion strawberry varieties have been grown under three different lighting conditions; (1) 4hr low intensity extension, 16hr high intensity, end of day far-red (2) 16hr high intensity with end of day far-red (3) 16hr high intensity with night interruption flowering bulbs. Each treatment was measured using Gardin's novel photosynthesis sensor to understand the plant response under each light treatment and establish the impact of each on plant stress factors.

At the heart of this novel approach to growing is chlorophyll fluorescence, a remarkable indicator of plant health and stress. This measurement, performed by Gardin, captures the emission of light by chlorophyll in every plant species, offering critical insights into how plants react to varying climate and lighting conditions. Using Gardin's proprietary analytics, growers can understand plant stresses in real-time to steer the climate for optimum plant performance.

Gardin's Plant Health monitor instantly compares the efficiency of photosynthesis across each treatment; in this study the Albion variety has outperformed Favori for each treatment by an average 12% (P<.005), resulting in a 28% higher fraction of berries with size larger than 35mm (P<.005) - this included normalisation for differences in planting density between the two varieties. The difference is largest for the flowering bulbs (24%), then 4hr extension (9%) and smallest for 16hr+FR (5%). On average across both varieties, the far-red treatment had the highest photosynthetic efficiency and the 4hr extension treatment had the lowest.

Image Credit: Gardin

From Measurements to Outcomes: The Berry Quality Connection

Gardin's measurements have been able to establish significant differences in plant productivity for each lighting strategy, which has a direct correlation with the quality and size of the strawberries that are produced. Specifically, the harvested berries were separated into two groups by those greater or less than 35mm in size and the fraction of harvested berry yield (grams) of each group was tracked each week.

16hr-FR lighting strategy had the highest photosynthetic performance, 27% higher than flowering bulbs and 12% higher than 4hr extension treatment. The fraction of berries >35mm for each treatment was 0.50 : 0.40 : 0.48 respectively, reflecting the same trend.

Over the part of the trial, the plants experienced a stress that led to reduced photosynthetic efficiency, as this occurred the fraction of berries >35mm decreased while the fraction of smaller low-value berries increased. This means that by using Gardin to monitor plant photosynthesis, farmers can predict and influence the outcome of their crops to grow higher quality berries.

Image Credit: Gardin

Gardin's Plant Energy monitor determines whether the plants are light limited or light saturated, under the same light intensity, plants that are more light limited are able to usefully convert more energy into sugars rather than wasting excess light as heat. The 16hr+FR treatment is the most light-efficient and least light-saturated treatment for both varieties. The 20hr treatment demonstrates the lowest efficiency and most light saturation which peaks at the end of day after 16+hrs of lighting. This is particularly stark for Favori which is light saturated for the entire day, suggesting the 4hr extension at low light is not beneficial to Favori development. This is reflected in 20hr Favori yielding the lowest fraction of berries >35mm in size.

"Gardin sensors added value in seeing a response before we saw the crop deteriorating. I could definitely see the sensors being used to enhance quality and yield in lit crops, particularly as a way to increase their light use efficiency." Says Stijn Jochems, Researcher at Delphy Improvement Centre.

Image Credit: Gardin

Driving Better Practices with Plant Driven Growing

This collaborative investigation provides valuable insights into optimising strawberry lighting strategies and demonstrates the use of chlorophyll fluorescence to quantify plant performance in commercial greenhouses. "The findings underscore the importance of a plant-centric approach in greenhouse cultivation. Using feedback from the plant, growers can make rapid adjustments to their climate and lighting strategy to significantly benefit photosynthesis." says Julian Godding, Lead Data Scientist at Gardin.

This approach not only optimises growing conditions but also directly contributes to the production of larger, superior-quality strawberries. Gardin offers an affordable method for growers to understand and respond to their crops with greater precision. Reach out to Gardin to get a quote for your greenhouse today!

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