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W2091944253 abstract "Abstract: Modulated chlorophyll fluorescence was used to compare dissipation of light energy as heat in photosystem II of homoiohydric and poikilohydric photosynthetic organisms which were either hydrated or dehydrated. In hydrated chlorolichens with an alga as the photobiont, fluorescence quenching revealed a dominant mechanism of energy dissipation which was based on a protonation reaction when zeaxanthin was present. CO 2 was effective as a weak protonating agent and actinic light was not necessary. In a hydrated cyanobacterial lichen, protonation by CO 2 was ineffective to initiate energy dissipation. This was also true for leaves of higher plants. Thus, regulation of zeaxanthin‐dependent energy dissipation by protonation was different in leaves and in chlorolichens. A mechanism of energy dissipation different from that based on zeaxanthin became apparent on dehydration of both lichens and leaves. Quenching of maximum or Fm fluorescence increased strongly during dehydration. In lichens, this was also true for so‐called basal or Fo fluorescence. In contrast to zeaxanthin‐dependent quenching, dehydration‐induced quenching could not be inhibited by dithiothreitol. Both zeaxanthin‐dependent and dehydration‐induced quenching cooperated in chlorolichens to increase thermal dissipation of light energy if desiccation occurred in the light. In cyanolichens, which do not possess a zeaxanthin cycle, only desiccation‐induced thermal energy dissipation was active in the dry state. Fluorescence emission spectra of chlorolichens revealed stronger desiccation‐induced suppression of 685‐nm fluorescence than of 720‐nm fluorescence. In agreement with earlier reports of Bilger et al. (1989), fluorescence excitation data showed that desiccation reduced flow of excitation energy from chlorophyll b of the light harvesting complex II to emitting centres more than flow from chlorophyll a of core pigments. The data are discussed in relation to regulation and localization of thermal energy dissipation mechanisms. It is concluded that desiccation‐induced fluorescence quenching of lichens results from the reversible conversion of energy‐conserving to energy‐dissipating photosystem II core complexes." @default.
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W2091944253 date "2005-03-01" @default.
W2091944253 modified "2023-10-10" @default.
W2091944253 title "Thermal Dissipation of Light Energy is Regulated Differently and by Different Mechanisms in Lichens and Higher Plants" @default.
W2091944253 cites W1965938437 @default.
W2091944253 cites W1967644457 @default.
W2091944253 cites W1971956931 @default.
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W2091944253 cites W1980368622 @default.
W2091944253 cites W1983028958 @default.
W2091944253 cites W1984272431 @default.
W2091944253 cites W1985799120 @default.
W2091944253 cites W1987370559 @default.
W2091944253 cites W1990956245 @default.
W2091944253 cites W1996534783 @default.
W2091944253 cites W1996598706 @default.
W2091944253 cites W2000379065 @default.
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W2091944253 cites W2016401182 @default.
W2091944253 cites W2017546325 @default.
W2091944253 cites W2025331295 @default.
W2091944253 cites W2031482332 @default.
W2091944253 cites W2035088240 @default.
W2091944253 cites W2037849886 @default.
W2091944253 cites W2049803289 @default.
W2091944253 cites W2049982127 @default.
W2091944253 cites W2056425137 @default.
W2091944253 cites W2058164747 @default.
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W2091944253 cites W2075310312 @default.
W2091944253 cites W2078650294 @default.
W2091944253 cites W2082184752 @default.
W2091944253 cites W2082231557 @default.
W2091944253 cites W2084142646 @default.
W2091944253 cites W2092801481 @default.
W2091944253 cites W2102643689 @default.
W2091944253 cites W2115469544 @default.
W2091944253 cites W2132830333 @default.
W2091944253 cites W2136847685 @default.
W2091944253 cites W2143979112 @default.
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W2091944253 cites W2156312783 @default.
W2091944253 cites W2161251566 @default.
W2091944253 cites W2163141413 @default.
W2091944253 cites W2166508002 @default.
W2091944253 cites W2168278332 @default.
W2091944253 cites W2474808444 @default.
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W2091944253 doi "https://doi.org/10.1055/s-2005-837471" @default.
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