1 Department of Food Science - Plant, Food & Sustainability, Department of Food Science, Science and Technology, Aarhus University2 unknown3 Institut for Kemi-, Bio- og Miljøteknologi4 Department of Food Science - Differentiated & Biofunctional Foods, Department of Food Science, Science and Technology, Aarhus University5 Department of Food Science - Differentiated & Biofunctional Foods, Department of Food Science, Science and Technology, Aarhus University
The concentration of the lifesaving antimalarial compound artemisinin (AN) in cultivated Artemisia annua (A. annua) plants is relatively low, and thus research in improving the content is important. In the present study, external stress was applied to adult plants of A. annua and the effect was examined on the concentrations of AN and its immediate precursors in leaves, and these concentrations were related to densities and sizes of the glandular trichomes (GT). Plants were stress treated weekly five times by sandblasting or spraying with salicylic acid, chitosan oligosaccharide, H2O2, and NaCl solutions. Contents of AN-related compounds (AN-c) were analysed in leaf samples from an upper and a lower position of the plants, and GT were quantified and measured. In lower leaves, several stress treatments had significant negative effects on concentrations of AN-c, whereas the ratios between compounds showed an increased conversion to AN. In the upper leaves, no changes were observed compared to controls. Linear relations were found between the concentrations of metabolites and the density of GT in both upper and lower leaves, and size of GT in lower leaves. Results suggested that older and younger leaves may respond differently to applied stress. A part of the plants were infected by powdery mildew, and this caused significantly different compositions of the AN-c, compared to uninfected plants. In conclusion, changes in concentrations of AN-c seemed largely to be related to changes in GT densities and sizes.
Planta, 2013, Vol 237, Issue 4, p. 955-966
Artemisinin; Artemisia annua; leaf age; stress; trichome area; trichome density