Adaptation to high light irradiances enhances the photosynthetic Cu resistance in Cu tolerant and non-tolerant populations of the brown macroalgae Fucus serratus

The relationship between light acclimation and Cu²⁺ tolerance was studied in two populations of Fucus serratus known to be naturally non-tolerant and tolerant to Cu²⁺. Acclimation to high irradiances increased the photosynthetic tolerance to Cu²⁺. The xanthophyll cycle was apparently not involved in protecting the photosynthetic apparatus against Cu²⁺ toxicity, as results showed that Cu²⁺ did not induce dynamic photoinhibition. The higher photosynthetic Cu²⁺ resistance of high light algae did not result in increased growth. The excess energy acquired by high light-adapted algae appeared to be utilized in Cu²⁺ defense mechanisms in the Cu²⁺ non-tolerant population. The polyphenol content of the algae was reciprocal to the Cu_T content, suggesting that polyphenol may be the primary Cu²⁺ defense of non-tolerant low light algae, acting through secretion and extracellular chelating of Cu²⁺, while the compounds do not seem to be involved in the primary Cu²⁺ tolerance mechanism in Cu²⁺ tolerant algae.