Molecules (May 2022)

Manipulation of the Phytochemical Profile of Tenderstem<sup>®</sup> Broccoli Florets by Short Duration, Pre-Harvest LED Lighting

  • Faye M. A. Langston,
  • James M. Monaghan,
  • Olivia Cousins,
  • Geoffrey R. Nash,
  • John R. Bows,
  • Gemma Chope

DOI
https://doi.org/10.3390/molecules27103224
Journal volume & issue
Vol. 27, no. 10
p. 3224

Abstract

Read online

Light quality has been reported to influence the phytochemical profile of broccoli sprouts/microgreens; however, few studies have researched the influence on mature broccoli. This is the first study to investigate how exposing a mature glasshouse grown vegetable brassica, Tenderstem® broccoli, to different light wavelengths before harvest influences the phytochemical content. Sixty broccoli plants were grown in a controlled environment glasshouse under ambient light until axial meristems reached >1 cm diameter, whereupon a third were placed under either green/red/far-red LED, blue LED, or remained in the original compartment. Primary and secondary spears were harvested after one and three weeks, respectively. Plant morphology, glucosinolate, carotenoid, tocopherol, and total polyphenol content were determined for each sample. Exposure to green/red/far-red light increased the total polyphenol content by up to 13% and maintained a comparable total glucosinolate content to the control. Blue light increased three of the four indole glucosinolates studied. The effect of light treatments on carotenoid and tocopherol content was inconclusive due to inconsistencies between trials, indicating that they are more sensitive to other environmental factors. These results have shown that by carefully selecting the wavelength, the nutritional content of mature broccoli prior to harvest could be manipulated according to demand.

Keywords