Postharvest Operations of Cannabis and Their Effect on Cannabinoid Content: A Review
Date
2022-08
Authors
Das, Pabitra Chandra
Vista, Alec Roger
Tabil, Lope
Baik, Oon-Doo
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Abstract
In recent years, cannabis (Cannabis sativa L.) has been legalized by many countries for production, processing, and use considering its tremendous medical and industrial applications. Cannabis contains more than a hundred biomolecules (cannabinoids) which have the potentiality to cure different chronic diseases. After harvesting, cannabis undergoes different postharvest operations including drying, curing, storage, etc. Presently, the cannabis industry relies on different traditional postharvest operations, which may result in an inconsistent quality of products. In this review, we aimed to describe the biosynthesis process of major cannabinoids, postharvest operations used by the cannabis industry, and the consequences of postharvest operations on the cannabinoid profile. As drying is the most important post-harvest operation of cannabis, the attributes associated with drying (water activity, equilibrium moisture content, sorption isotherms, etc.) and the significance of novel pre-treatments (microwave heating, cold plasma, ultrasound, pulse electric, irradiation, etc.) for improvement of the process are thoroughly discussed. Additionally, other operations, such as trimming, curing, packaging and storage, are discussed, and the effect of the different postharvest operations on the cannabinoid yield is summarized. A critical investigation of the factors involved in each postharvest operation is indeed key for obtaining quality products and for the sustainable development of the cannabis industry.
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Keywords
cannabis, cannabinoids, postharvest, drying, curing, storage, biosynthesis, pre-treatments, sorption isotherm
Citation
Das, P. C., Vista, A. R., Tabil, L. G., & Baik, O.-D. (2022). Postharvest Operations of Cannabis and Their Effect on Cannabinoid Content: A Review. Bioengineering (Basel), 9(8), 364-. https://doi.org/10.3390/bioengineering9080364
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DOI
https://doi.org/10.3390/bioengineering9080364