Interactive Effect of UVR and Phosphorus on the Coastal Phytoplankton Community of the Western Mediterranean Sea: Unravelling Eco- Physiological Mechanisms

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Photoinhibition and recovery after selective short-term exposure to solar radiation of five chlorophyll c-containing marine microalgae

The differential sensitivity of five chlorophyll c-containing marine microalgae to different components of solar radiation, e.g. photosynthetic active radiation (PAR), ultraviolet-A (UV-A) and ultraviolet-B (UV-B), was investigated in an exclusion experiment involving exposure to PAR, PAR+UV-A and PAR+UV-A+UV-B (P-, PA- and PAB-treatment, respectively) for 20 min and subsequent recovery for up to 24 h in dim light. The decrease in the variable to maximal chlorophyll fluorescence ratio (Fv/Fm) was used as indicator of photoinhibition. Changes in photosynthetic oxygen production, cell densities and pigment contents were also ascertained. The ratio Fv/Fm decreased in all the algae after exposure, but differences were found between the algae and the treatments. In relation to the inhibition extent, Chaetoceros sp. was the least affected alga in each treatment, while Phaeodactylum tricornutum was the most sensitive. Data of Fv/Fm during recovery fitted well to a sigmoid exponential function, and calculated constants were used to quantify the particular recovery rate of each alga. In general, recovery time did not show a direct relationship with the extent of inhibition. The highest recovery rate was shown by P. tricornutum cells exposed to only PAR, and the lowest by Isochrysis galbana cells exposed to PAB. There were no losses of cell density at the end of the recovery period in relation to the initial cell density in any of the algae. Photosynthetic oxygen production dropped in the five algae in all treatments and showed a similar evolution pattern to Fv/Fm during recovery, except for P. tricornutum and Amphidinium sp. Results of this study point out that capacity for photosynthesis inhibition is specific for each alga and, consequently, it should be taken into consideration for a reliable assessment of differential sensitivity to ultraviolet radiation among diverse marine phytoplanktonic species

Effect of irradiance on growth, photosynthesis, pigment content and nutrient consumption in dense cultures of Rhodomonas salina (Wislouch) (Cryptophyceae)

 The effects of different incident irradiances on growth, photosynthesis, pigment content and nutrient uptake were studied in dense cultures of the cryptophyte Rhodomonas salina (Wislouch) Hill y Wetherbee. Cells were grown for ten days at different incident irradiances: 11, 33, 75, 260 and 320 µmol photon m-2s-1. The average pigment content (phycoerythrin and chlorophyll a) was lower when cells were grown at high irradiances (260 and 320 µmol photon m-2s-1) compared with cells grown under low irradiances (11, 33 and 75 µmol photon m-2s-1).The maximum photosynthetic rate (Pmax) was maximal at 75 µmol photon m-2s-1 , decreasing considerably at the highest irradiance in which apparent photosynthetic efficiency per cell and per chlorophyll a unit (αcell and αchla) also decreased. Results showed that dense cultures of R. salina grew optimally in a range between 75 and 260 µmol photon m-2s-1 with optimal photosynthetic performance at 75 µmol photon m-2s-1. Nitrogen and phosphorus depletion occurred as a consequence of the exponential growth, except under the lowest and the highest irradiances (11 and 320 µmol photon m-2s-1, respectively). Associated to N-limitation, phycoerythrin (PE) and chlorophyll a decreased considerably. It is suggested that R.salina responds to nitrogen-depleted conditions by mobilizing nitrogen from PE, this behaviour being modelled by a relationship between external nitrogen availability and PE mobilization