EFFECTS OF UV‐B RADIATION ON THE D1 PROTEIN REPAIR CYCLE OF NATURAL PHYTOPLANKTON COMMUNITIES FROM THREE LATITUDES (CANADA, BRAZIL, AND ARGENTINA)1

Abstract

Ultraviolet radiation effects were examined in natural phytoplankton communities from Rimouski (Canada), Ubatuba (Brazil), and Ushuaia (Argentina). Outdoor pump‐mixed mesocosms were submitted to ambient solar radiation (NUVB) and ambient with additional UV‐B radiation (UVBR) from lamps (HUVB), corresponding to a local 60% ozone depletion scenario. At all sites, neither algal biomass nor dark‐adapted Fv/Fmwere significantly affected by additional UVBR, suggesting the presence of active UV protection or repair mechanisms. To examine the role of D1 protein turnover, essential for PSII repair, short‐term surface incubations were performed in the presence or absence of lincomycin, a chloroplast protein synthesis inhibitor. Effects on PSII were determined using chl a in vivo fluorescence, whereas the D1 protein was detected immunochemically. In the absence of D1 repair, D1 pools and Fv/Fmdecreased to a similar extent under both light treatments. In the presence of D1 repair, D1 pools suffered faster net degradation under HUVB compared with NUVB, whereas Fv/Fmwas maintained for both light treatments, suggesting that HUVB exposure in field populations had more effect on D1 synthesis and PSII repair than on D1 degradation. The fewer undamaged reaction centers remaining in phytoplankton under HUVB were able to maintain Fv/Fmor actually recovered during the dark acclimation before Fv/Fmmeasurements. The D1 pools suffered faster net degradation at the tropical site where high irradiance drove faster D1 degradation and high water temperature enabled fast enzymatic activities. This study shows the crucial role of dynamic changes in D1 turnover in the photobiology of natural planktonic communities across a range of latitudes.