Variations in Quercus ilex chloroplast pigment content during summer stress: involvement in photoprotection according to principal component analysis

TitleVariations in Quercus ilex chloroplast pigment content during summer stress: involvement in photoprotection according to principal component analysis
Publication TypeJournal Article
Year of Publication2002
AuthorsLlorens, L., Aranda X., Abadia A., & Fleck I.
JournalFUNCTIONAL PLANT BIOLOGY
Volume29
Issue1
Pagination81 - 88
Date Published2002///
Keywords6-epoxide, chlorophyll, lutein-5, photoprotection, Principal component analysis
Abstract

We examined chloroplast pigment variation in holm oak (Quercus ilex L.) leaves for two periods under two climatic conditions, at midday during summer. We compared variation between control (unburned) plants and plants burned the preceding summer, since post-fire resprouts show higher photosynthetic rates and lower thermal energy dissipation. Principal component (PC) analysis was performed on nine pigment-content variables for the two periods separately. Two PC factors (PC1 and PC2) explained 83 and 84% of the variance of the data for each period. In both periods, PC 1 was marked by positive loading of pigments associated with light absorption or structural function namely neoxanthin, lutein, beta-carotene, chlorophyll a, and chlorophyll b. These pigments were only affected by leaf age. In contrast, PC2 was marked by high loadings of xanthophyll-cycle pigments (associated with photoprotection), and lutein-5,6-epoxide. Leaf content of these pigments was affected by climatic conditions. In the situations considered in PC analysis (leaf types, periods), the lutein-5,6-epoxide content presented a variation pattern similar to that of violaxanthin, and was significantly correlated with thermal dissipation of excess energy (represented by non-photochemical quenching or NPQ). These results suggest a relationship of lutein and lutein-5,6-epoxide with photoprotection.