Elevated CO2 causes changes in the photosynthetic apparatus of a toxic cyanobacterium,Cylindrospermopsis raciborskii

We studied the physiological acclimation of growth, photosynthesis and CO₂-concentrating mechanism (CCM) in Cylindrospermopsis raciborskii exposed to low (present day; L-CO₂) and high (1300 ppm; H-CO₂) pCO₂. Results showed that under H-CO₂ the cell specific division rate (μ_c) was higher and the CO₂- and light-saturated photosynthetic rates (V_max and P_max) doubled. The cells’ photosynthetic affinity for CO₂ (K_0.5CO₂) was halved compared to L-CO₂ cultures. However, no significant differences were found in dark respiration rates (R_d), pigment composition and light harvesting efficiency (α). In H-CO₂ cells, non-photochemical quenching (NPQ), associated with state transitions of the electron transport chain (ETC), was negligible. Simultaneously, a reorganisation of PSII features including antenna connectivity (J_conPSIIα), heterogeneity (PSIIα/β) and effective absorption cross sectional area (σPSIIα/β) was observed. In relation to different activities of the CCM, our findings suggest that for cells grown under H-CO₂: (1) there is down-regulation of CCM activity; (2) the ability of cells to use the harvested light energy is altered; (3) the occurrence of state transitions is likely to be associated with changes of electron flow (cyclic vs linear) through the ETC; (4) changes in PSII characteristics are important in regulating state transitions.