Relationship between quenching of maximum and dark-level chlorophyll fluorescence in vivo: dependence on Photosystem II antenna size

The effects of nonphotochemical quenching were quantified separately applying the Stem-Volmer formalism for dark level (SV 0 ) and maximum chlorophyll fluorescence yield (SV N ) in barley leaves comprising a step-wise altered Photosystem II (PS II) antenna size. Proportions of overall SV N can be attributed to distinct sites of the photosynthetic apparatus: (i) the bulk light-harvesting complex of PS II (LHC II), (ii) the inner LHC II antenna, and (iii) the reaction center/core complex of PS II. The fraction of SV N which exerts an effect on SV 0 appeared to arise almost exclusively from the inner LHC II antenna. A strong linear correlation between SV 0 and violaxanthin de-epoxidation points to an intrinsic relationship of both. The results are in line with the notion of a regulatory function of the inner LHC II antenna, thus controlling excitation energy delivery from the bulk LHCII to the PS II-core complex.