For two strains, the green alga Pleurococcus CVB4 and the cyanobacterium Lyngbya CCB2, isolated from the pioneering algal biocoenosis present on a marble statue, we determined the optimum range of growth in selective cultural media in relation to pH, light intensity, and temperature, together with the ability of these organisms to colonize stone surfaces that differed either in the structure-texture or in the physico-chemical composition of the various lithotypes. The results showed a higher capacity of the green alga to withstand environmental factor changes. For both organisms the preferential colonization of the stone surface was correlated primarily, together with the environmental factors (pH, temperature, irradiance), to the physical characteristics (roughness and porosity) and secondarily to the chemical composition of the assayed lithotypes.
As the effects of light and oxygen stress in algae on mass culture has not been intensively studied, we investigated them in Spirulina platensis under outdoor conditions in controlled tubular reactors where the respective roles of each stress can be distinguished. It was observed that exposure of this cyanobacterium at two oxygen concentrations (ca 20 and 53 mg 1−1) caused very little change in the ratio between variable and maximum fluorescence (Fv/Fm) during the day even when the culture was grown at higher oxygen concentration (about 7% lower in the evening than in the morning). Vice‐versa, when the photochemical efficiency of PSII (photon yield, Φc) was measured, a reduction of about 20% was observed. Neither the Fv/Fm ratio nor the Φc of the culture grown at the lower oxygen concentration changed significantly during the day. The daily productivity of the culture exposed to the higher oxygen concentration was reduced by about 20%. Laboratory cultures bubbled with air or pure oxygen under continuous light showed a similar response; i.e., a smaller decrease in Fv/Fm (17%) than in the Φc (56%) after 4 h. After 32 h of culture in pure oxygen, a total lysis of the cells occurred. Our results support the hypothesis that photoinhibition and photooxidation, two traditionally linked terms, although often closely associated under similar environmental conditions, may comprise two types of stress with different sites of inhibition.
and Tomaselli, L. 1996, Light and oxygen stress in Spirulina platensis (cyanobacteria) grown outdoors in tubular reactors, -Physiol, Plant, 97;[175][176][177][178][179] As the effects of light and oxygen stress in algae on mass culture has not been intensively studied, we investigated them in Spiruiina platensis under outdoor conditions in controlled tubular reactors where the respective roles of each stress can be distinguished. It was observed that exposure of this cyanobacterium at two oxygen concentrations (ca 20 and 53 mg !"') caused very little change in the ratio between variable and maximum fluorescence (F^/F^,) during the day even when the culture was grown at higher oxygen concentration (about 7% lower in the evening than in the moming). Vice-versa, when the photochemical efficiency of PSII (photon yield, O,) was measured, a reduction of about 20% was observed. Neither the F,/F^ ratio nor the , of the culture grown at the lower oxygen concentration changed significantly during the day. The dally productivity of the culture exposed to the higher oxygen concentration was reduced by about 20%, Laboratory cultures but>bled with air or pure oxygen under continuous light showed a similar response; i,e,, a smaller decrease in F,/F^ (11%) than in the
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