Daily photosynthetic and C-export patterns in winter wheat leaves during cold stress and acclimation

Diurnal patterns of whole-plant and leaf gas exchange and ¹⁴C-export of winter wheat acclimated at 20 and 5°C were determined. The 5°C-acclimated plants had lower relative growth rates, smaller biomass and leaf area, but larger specific leaf weight than 20°C plants. Photosynthetic rates in 20°C and 5°C-acclimated leaves were similar; however, daytime export from 5°C-acclimated leaves was 45% lower. Photosynthesis and export remained steady in 20°C and 5°C-acclimated leaves during the daytime. By comparison, photosynthesis in 5°C-stressed leaves (20°C-acclimated plants exposed to 5°C 12 h before and during measurements) declined from 70 to 50% of the 20°C-acclimated leaves during the daytime, while export remained constant at 35% of the 20°C-acclimated and 60% of the 5°C-acclimated leaves. At high light and CO₂, photosynthesis and export increased in both 20°C and 5°C-acclimated leaves, but rates in 5°C-stressed leaves remained unchanged. At all conditions daytime export was greater than nighttime export. Taken together, during cold acclimation photosynthesis was upregulated, whereas export was only partially increased. We suggest that this reflects a requirement of cold-acclimated plants to both sustain an increased leaf metabolic demand while concomitantly supporting translocation of photoassimilates to overwintering sinks.