The characterization of photoinhibition and recovery during cold acclimation in Arabidopsis thaliana using chlorophyll fluorescence imaging

The responses to photoinhibition of photosynthesis at low temperature and subsequent recovery were examined in Arabidopsis thaliana (ecotype Columbia) developed at 4degreesC cold-acclimating conditions, 23degreesC non-acclimating conditions and for non-acclimated plants shifted to 4degreesC (cold-shifted). These responses were determined in planta using Chl fluorescence imaging. We show that cold acclimation results in an increased tolerance to photoinhibition in comparison with non-acclimated plants and that growth and development at low temperature is essential for this to occur. Cold-shifted plants were not as tolerant as the cold-acclimated plants. In addition, we demonstrate this tolerance is as a result of growth under high PSII excitation pressure, that can be modulated by growth temperature or growth irradiance. Cold-acclimated and cold-shifted plants fully recover from photoinhibition in the dark, whereas non-acclimated plants show reduced levels of recovery and demonstrate a requirement for light. The role of the PSII repair cycle, PSII quenching centres, and the use of Chl fluorescence imaging to monitor photoinhibitory responses in planta are discussed.