A connected model of the photosynthetic unit.

The concept of photosynthetic unit (PSU) is reviewed in the light of the authors' results in the fields of fluorescence and luminescence (delayed light). Models of PSU are mainly distinguished by the amount of exciton exchange which is allowed between units. The "separate" model, with its "first-order" character, is not consistent with fluorescence kinetic data. The sigmoidal rise of fluorescence under actinic light is best explained by "nonseparate" models; however, most of these models assume a delocalization of excitons or centers. The "connected" model introduced here is not subject to this criticism. It discloses a new effect (the "îlot" effect): a nonrandom grouping of fluorescent units the consequences of which are discussed. It is noted that a "two-quantum" model for the photochemical reaction gives results very similar to those of the connected model. A relation between luminescence intensity and fluorescence yield is seen as a necessary consequence of the PSU concept. Its meaning is different in separate and nonseparate models. This relation is discussed in connection with the true system II fluorescence emission.