... The dark assimilation occurs at the expense of energy and of the reducer formed in ... are the energy source at assimilation of mineral nitrogen in the dark, it may be ...
... ful to analyze the kinetics of light induction and dark decay of variable fluorescence, which affords informa tion on the changes in electron transport at both PS II sides and through the PQ pool as well as on the pH dependent energy dissipation [2225 ...
... This allows photosynthetic CO 2 fixation in the dark as well as under illumination using the energy accumulated in the primary processes of photosynthesis as well as the energy produced by respiration. ...
... B, Etienne A-L (2004) General features of photoprotection by energy dissipation in planktonic diatoms (Bacillariophyceae ... a fluorescence rise induced by high light illumination of dark-adapted plant tissue studied by means of a model of Photosystem ...
... energy transformation in GENERAL MODEL OF PHOTOSYNTHETIC PROCESSES To provide more accurate evaluation of the contribution of individual reactions (electron transport, transmembrane ion transport, generation of transmembrane electrochemical potential of ...
... The energy of the light quanta absorbed by the light-collecting unit may be converted into the energy of separated charges, which is later utilized in the subsequent photosynthetic reactions or lost either through the emission of quanta of fluorescence or ...
... The energy of light quanta absorbed by the light-harvesting complex may either be converted to the energy of separated charges to be used in further photosynthetic reactions or lost by emitting fluorescence quanta or by dissipation in the form of heat [15 ...
... F0 , excited by an artificial light source, has b een measured in dark-adapted algae in which the PS I I reaction centres are op en, so that absorb ed light energy can b e converted into chemical b ond energy with maximum efficiency (Klughammer 1992 ...