High light intensity improves yield of specialized metabolites in medicinal cannabis (Cannabis sativa L.), resulting from both higher inflorescence mass and concentrations of metabolites

Medicinal cannabis (Cannabis sativa L.) contains various plant specialized metabolites, such as cannabinoids and terpenoids. These metabolites are mainly accumulated in inflorescences and are the primary focus of cultivation. Medicinal cannabis is often cultivated in indoor farming with electrical l...

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Bibliographic Details
Published in:Journal of applied research on medicinal and aromatic plants 2024-12, Vol.43, p.100583, Article 100583
Main Authors: Sae-Tang, Wannida, Heuvelink, Ep, Nicole, Céline C.S., Kaiser, Elias, Sneeuw, Kjell, Holweg, Mexximiliaan M.S.F., Carvalho, Sabrina, Kappers, Iris F., Marcelis, Leo F.M.
Format: Article
Language:English
Subjects:
Cannabinoids
Cannabis sativa L
LEDs
Terpenoids
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Summary:Medicinal cannabis (Cannabis sativa L.) contains various plant specialized metabolites, such as cannabinoids and terpenoids. These metabolites are mainly accumulated in inflorescences and are the primary focus of cultivation. Medicinal cannabis is often cultivated in indoor farming with electrical light, which allows for light intensities to optimize quantity and quality of production. Although it is known that an increase in light intensity results in increased inflorescence yield in cannabis, its impact on specialized metabolites remains unclear. We aim to quantify the effects of light intensity on the yield of specialized metabolites, and to elucidate which plant traits explain these effects, using a yield component analysis. Hereto, we conducted an experiment in a climate-controlled chamber using broad-band white LEDs at three light intensities: 600, 800, and 1000 µmol m−2 s−1 photosynthetic photon flux density (PPFD), applied during the generative phase (8 weeks with a 12-h photoperiod) in cannabis cv. ‘Critical CBD’. Yield of specialized metabolites, including cannabinoids and terpenoids, strongly increased with increasing PPFD due to increases in both their concentrations and inflorescence yield. The inflorescence yield showed a proportional increase with PPFD, resulting in a constant light use efficiency. The higher inflorescence dry mass was mainly caused by an increase in total plant dry matter production, and to a lesser extent a larger fraction of dry mass partitioned to the inflorescences. Leaf photosynthesis was higher for plants grown at higher PPFD. This study shows that cannabis can use very high light intensity, resulting in high yield of specialized metabolites due to high inflorescence mass and metabolite concentrations. [Display omitted] •Concentrations of cannabinoids and terpenoids increase with light intensity.•Inflorescence dry mass increases proportionally with light intensity.•Higher inflorescence dry mass is mainly due to higher plant dry matter production.•Cannabis is a species with exceptionally high photosynthetic capacity.
ISSN:2214-7861
2214-7861
DOI:10.1016/j.jarmap.2024.100583