Journal
JOURNAL OF PHYCOLOGY
Volume 40, Issue 1, Pages 130-137Publisher
BLACKWELL PUBLISHING INC
DOI: 10.1046/j.1529-8817.2004.03026.x
Keywords
diadinoxanthin; diatoxanthin; nonphotochemical fluorescence quenching; photoinhibition; photoprotection; planktonic diatoms; xanthophyll cycle
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Planktonic diatoms (Bacillariophyceae) have to cope with large fluctuations of light intensity and periodic exposure to high light. After a shift to high light, photoprotective dissipation of excess energy characterized by the nonphotochemical quenching of fluorescence (NPQ) and the concomitant deepoxidation of diadinoxanthin to diatoxanthin (DT) were measured in four different planktonic marine diatoms (Bacillariophyceae): Skeletonema costatum (Greville) Cleve, Cylindrotheca fusiformis Reimann et Lewin, Thalassiosira weissflogii (Grunow) Fryxell et Hasle, and Ditylum brightwellii (West) Grunow in comparison to the model organism Phaeodactylum tricornutum Bohlin. Upon a sudden increase of light intensity, deepoxidation was rapid and de novo synthesis of DT also occurred. In all species, NPQ was linearly related to the amount of DT formed during high light. In this report, we focused on the role of DT in the dissipation of energy that takes place in the light-harvesting complex. In S. costatum for the same amount of DT, less NPQ was formed than in P. tricornutum and as a consequence the photoprotection of PSII was less efficient. The general features of photoprotection by harmless dissipation of excess energy in planktonic diatoms described here partly explain why diatoms are well adapted to light intensity fluctuations.
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