Research
A study by Ida Fรคllstrรถm, Grazyna Bochenek, and Fei Jia from Heliospectra that examines the effect of far-red (FR) enriched spectrum and end-of-day FR on tomato seedling in a controlled environment.
Introduction
The red to far-red (FR) ratio strongly influences plant shape. FR promotes stem and leaf growth. Smart LED tech offers precise light control for commercial growers, allowing morphological adjustments in crops. For instance, regulating tomato seedling height and thickness yields uniform stock material for grafting. Our study examines tomato seedling growth under three LED strategies: without FR, FR-enriched spectrum (FR), and a 30-minute end-of-day (EOD) FR treatment. We aim to discover methods for shaping seedling stem morphology.
Conclusions
- FR-treated tomato seedlings grew taller and had larger, lighter leaves, while those without FR were shorter and darker in color.
- Tomato seedlings under EOD FR grew taller with larger leaves than those under FR-enriched spectrum.
- By adding FR only at the end of the day, growers will also be able to reduce
energy use. - Smart LEDs enable energy-efficient, non-chemical plant morphology control.
- This study highlights how Heliospectra’s helioCOREโข enhances light strategies for tomato seedling growth, giving LEDs an edge over traditional lighting.
Related content
Customized Lighting Strategies for Grow Zones
Heliospectra's Technical Solutions Manage Johan Lindqvist presents at the 2022 Tech 4.0 Conference on CEA
Greenhouse Lighting Strategies for Vegetable Transplant and Finish
Growing lettuce, herbs and vegetables in your greenhouse? Dr. Roberto Lopez of Michigan State University
Growing Tomatoes in an Autonomous Greenhouse
This webinar features the creators and winners of Wageningen Universityโs Autonomous Greenhouse Challenge who share