Differential Distribution of Flavonoids and Phenolic Acids in Leaves of Kalanchoe delagoensis Ecklon & Zeyher (Crassulaceae).

Kalanchoe delagoensis is adapted to intense solar irradiation, drought, and heat, partially due to the presence of phenols, important photo-protective compounds and antioxidants. This study aimed to evaluate the distribution of flavonoids and phenolic acid derivatives throughout the erect-tubular leaves of K. delagoensis. Specimens grown under sunny conditions were used for histochemical and high-performance liquid chromatography coupled with diode array detection (liquid HPLC-DAD) analysis. The NP (2-aminoethyl diphenylborinate) test suggested the presence of phenolic acids throughout the leaf blade below the epidermis and in chloroplasts, mainly in the leaf base. Flavonoids were detected specifically in chloroplasts, on the adaxial side of the middle third and at the leaf apex, near the meristematic cells. There was a tendency of flavonoid accumulation from the middle third to the apex, especially surrounding the gem, while phenolic acids were observed mainly in the base. This can be explained by the more exposed leaf apex and to the presence of apical buds (high production and regulation sites of ROS). The HPLC-DAD analysis showed different classes of flavonoids and phenolic acid derivatives in the leaf extracts, agreeing with the NP test results. This is the first time that the substitution of phenolic acids by flavonoids from the leaf base to the apex has been described.

Environmental regulation of carbon isotope composition and crassulacean acid metabolism in three plant communities along a water availability gradient.

Expression of crassulacean acid metabolism (CAM) is characterized by extreme variability within and between taxa and its sensitivity to environmental variation. In this study, we determined seasonal fluctuations in CAM photosynthesis with measurements of nocturnal tissue acidification and carbon isotopic composition (δ(13)C) of bulk tissue and extracted sugars in three plant communities along a precipitation gradient (500, 700, and 1,000 mm year(-1)) on the Yucatan Peninsula. We also related the degree of CAM to light habitat and relative abundance of species in the three sites. For all species, the greatest tissue acid accumulation occurred during the rainy season. In the 500 mm site, tissue acidification was greater for the species growing at 30% of daily total photon flux density (PFD) than species growing at 80% PFD. Whereas in the two wetter sites, the species growing at 80% total PFD had greater tissue acidification. All species had values of bulk tissue δ(13)C less negative than -20‰, indicating strong CAM activity. The bulk tissue δ(13)C values in plants from the 500 mm site were 2‰ less negative than in plants from the wetter sites, and the only species growing in the three communities, Acanthocereus tetragonus (Cactaceae), showed a significant negative relationship between both bulk tissue and sugar δ(13)C values and annual rainfall, consistent with greater CO(2) assimilation through the CAM pathway with decreasing water availability. Overall, variation in the use of CAM photosynthesis was related to water and light availability and CAM appeared to be more ecologically important in the tropical dry forests than in the coastal dune.