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- Title
The Photoprotective Role of Epidermal Anthocyanins and Surface Pubescence in Young Leaves of Grapevine (Vitis vinifera).
- Authors
LIAKOPOULOS, GEORGIOS; NIKOLOPOULOS, DIMOSTHENIS; KLOUVATOU, ASPASIA; VEKKOS, KORNILIOS-ANDRIANOS; MANETAS, YIANNIS; KARABOURNIOTIS, GEORGE
- Abstract
• Background and Aims Depending on cultivar, surfaces of young leaves of Vitis vinifera may be glabrous-green (‘Soultanina’) or transiently have anthocyanins (‘Siriki’) or pubescence (‘Athiri’). A test is made of the hypothesis that anthocyanins and pubescence act as light screens affording a photoprotective advantage to the corresponding leaves, and an assessment is made of the magnitude of their effect.• Methods Measurements were made on young leaves of the three cultivars in spring under field conditions. Photosynthetic gas-exchange and in vivo chlorophyll fluorescence were measured. Photosynthetic and photoprotective pigments were analysed by HPLC.• Key Results Compared with glabrous-green leaves, both anthocyanic and pubescent leaves had greater dark-adapted PSII photochemical efficiency and net photosynthesis. In leaves possessing either anthocyanins or pubescence, the ratio of xanthophyll cycle components to total chlorophyll, and mid-day de-epoxidation state of the xanthophyll cycle were considerably smaller, than in glabrous-green leaves. These differences were more evident in pubescent leaves, probably indicating that trichomes were more effective in decreasing light stress than anthocyanins in the epidermis.• Conclusions Light screens, especially in the form of pubescence, decrease the risk of photoinhibition whilst allowing leaves to maintain a smaller content of xanthophyll cycle components and depend less on xanthophyll cycle energy dissipation. This combination of photoprotective features, i.e. decreased photon flux to the photosynthetic apparatus and lower xanthophyll cycle utilization rates may be particularly advantageous under stressful conditions.
- Subjects
ANTHOCYANINS; GRAPES; LEAF development; PHOTOSYNTHESIS; XANTHOPHYLLS; PLANT photorespiration
- Publication
Annals of Botany, 2006, Vol 98, Issue 1, p257
- ISSN
0305-7364
- Publication type
Article
- DOI
10.1093/aob/mcl097