Fluorescence induction in the macroalgae Chondrus crispus (Rhodophyceae) and Ulva sp. (Chlorophyceae)

The induction of in vivo chlorophyll a (chl a) fluorescence (change in fluorescence intensity during a time-scale of ms to s) was measured to determine the potential of this technique for assessing the physiological condition of the macroalgae Chondrus crispus and Ulva sp. A gradient in variable fluorescence (P-F ₀ =peak minus initial fluorescence, a measure of Photosystem II activity) was found along the frond of C. crispus, the values increasing with distance from the thallus apex. No gradient was observed for Ulva sp. thalli. Nitrogen- or phosphorus-depleted Ulva sp. required a longer dark-conditioning period and had lower values of P-F ₀ than did controls. In contrast, no differences were found in P-F ₀ of N- or P-depleted C. crispus unless values were normalized to chl a. The irradiance history of C. crispus strongly influenced P-F ₀ , even after dark-conditioning: P-F ₀ declined by about 70% as the mean daily natural irradiance increased between 2 February and 14 March 1986; a negative correlation was observed between P-F ₀ and the photon flux density 1 d prior to the measurement; P-F ₀ remained elevated when C. crispus was grown under a low photon flux density; and P-F ₀ decreased in thalli within 5 d of transfer from growth under natural irradiance to an incubator with artificial irradiance. Changes in variable fluorescence at different growth irradiances of C. crispus may be due to adaptive changes in the relative absorption cross-section of this alga. The influence of irradiance history on Ulva sp. was minimal in comparison.Issued as NRCC No. 28730Part of this study was carried out while employed by Focal Marine Ltd., Bedford, Nova Scotia, Canada