1f, g). During the culture for 7 d, the pH of the medium was maintained
at 8.0–8.3, 7.6–7.9 and 7.5–7.7 by the bubbling of air containing 406, 816 and 1,192 ppm CO2, respectively (Fig. 1h). The specific growth rate (μ) was slightly higher ca. 15 and 25 % at 816 and 1,192 ppm CO2, respectively, in comparison with that at 406 ppm CO2 (Fig. 1i). Under such conditions, total DIC and bicarbonate concentrations were almost the same among the three different CO2 conditions resulting in different pHs (Fig. 1h) where dCO2 concentrations were increased according to the elevation of CO2 concentration (Fig. 1j). Effect of acidification on photosynthetic activity in E. huxleyi The photosynthetic O2 evolution activity was not affected when pH of the medium decreased Selleck LY2606368 (Fig. 2a–c, g), suggesting that photosynthetic machinery was hardly damaged by acidification with HCl. However, photosynthetic activity changed during the 7-day experiment at every pH tested. Although the reason is unclear yet, it maybe associated with the depletion of inorganic phosphate from the medium during growth, according to our previous study (Satoh et al. 2009). Photosynthetic
O2 evolution activity was slightly higher at higher CO2 concentration when compared among the 406, 816 and 1,192 ppm CO2 experiments, where pH values were maintained at 7.9–8.3, 7.6–7.9 and 7.5–7.7 (Fig. 2d–f, g). The highest average value of photosynthetic O2 evolution CYT387 clinical trial was 150 μmol (mg Chl)−1 h−1 at pH 7.5–7.7, which was attained by the bubbling of air containing 1,192 ppm CO2 (Fig. 2g). These results show that the response of photosynthetic activity to pH change was almost the same, irrespective of the method of how pH was decreased, namely by adding HCl or bubbling air with elevated CO2. Fig. 2 Effect of the acidification by HCl (a–c) and the ocean acidification conditions by elevating pCO2 (d–f) on the changes in photosynthetic O2 evolution activity of the coccolithophore E. huxleyi. Experimental conditions for acclimation (indicated in
the figure) were same as shown in Fig. 1. The rate of photosynthetic O2 evolution was determined using a Clark-type O2 electrode at the light intensity of 270 μmol photons m−2 s−1 Branched chain aminotransferase and 25 °C which are the optimum conditions. The values are average of three experiments (n = 3) The activities of the photosystems were determined by measuring F v/F m, which reflects the state of photosystem II (Demmig and Bjorkman 1987) and ϕPSII, which is an index of the electron transport activity of the whole photosystem (Genty et al. 1989). The results indicate that the photosystem parameters determined were not changed, namely almost the same, during the 6-day experiment between pH 7.7 and 8.2 (Fig. 3a, b). On the other hand, F v/F m decreased similarly after 3 days under all tested CO2 conditions when pH was set by the bubbling of air containing various CO2 (Fig. 3c, e).
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