Developing Sustainable Agriculture Systems in Medicinal and Aromatic Plant Production by Using Chitosan and Chitin-Based Biostimulants.
Wenli SunMohamad Hesam ShahrajabianSpyridon Alexandros PetropoulosNazanin ShahrajabianPublished in: Plants (Basel, Switzerland) (2023)
Chitosan is illustrated in research as a stimulant of plant tolerance and resistance that promotes natural defense mechanisms against biotic and abiotic stressors, and its use may lessen the amount of agrochemicals utilized in agriculture. Recent literature reports indicate the high efficacy of soil or foliar usage of chitin and chitosan in the promotion of plant growth and the induction of secondary metabolites biosynthesis in various species, such as Artemisia annua , Curcuma longa , Dracocephalum kotschyi , Catharanthus roseus , Fragaria × ananassa , Ginkgo biloba , Iberis amara , Isatis tinctoria , Melissa officinalis , Mentha piperita , Ocimum basilicum , Origanum vulgare ssp. Hirtum , Psammosilene tunicoides , Salvia officinalis , Satureja isophylla , Stevia rebaudiana , and Sylibum marianum , among others. This work focuses on the outstanding scientific contributions to the field of the production and quality of aromatic and medicinal plants, based on the different functions of chitosan and chitin in sustainable crop production. The application of chitosan can lead to increased medicinal plant production and protects plants against harmful microorganisms. The effectiveness of chitin and chitosan is also due to the low concentration required, low cost, and environmental safety. On the basis of showing such considerable characteristics, there is increasing attention on the application of chitin and chitosan biopolymers in horticulture and agriculture productions.