Photosynthesis and conductance of spring wheat ears: field response to free-air CO2 enrichment and limitations in water and nitrogen supply

The mid-day responses of wheat ear CO₂ and water vapour exchange to full-season CO₂ enrichment were investigated using a Free-Air CO₂ Enrichment (FACE) apparatus. Spring wheat [Triticum aestivum (L). cv. Yecora Rojo] was grown in two experiments under ambient and elevated atmospheric CO₂ (C_a) concentrations (approximately 370 μ mol mol ^{− 1} and 550 μ mol mol ^{− 1}, respectively) combined first with two irrigation (Irr) schemes (Wet: 100% and Dry: 50% replacement of evapotranspiration) and then with two levels of nitrogen (N) fertilization (High: 350, Low: 70 kg ha ^{− 1} N). Blowers were used for C_a enrichment. Ambient C_a plots were exposed to blower induced winds as well the C_a × N but not in the C_a × Irr experiment. The net photosynthesis for the ears was increased by 58% and stomatal conductance (g_s) was decreased by 26% due to elevated C_a under ample water and N supply when blowers were applied to both C_a treatments. The use of blowers in the C_a-enriched plots only during the C_a × Irr experiment (blower effect) and Low N supply restricted the enhancement of net photosynthesis of the ear due to higher C_a. In the latter case, the increase of net photosynthesis of the ear amounted to 26%. The decrease in g_s caused by higher C_a was not affected by the blower effect and N treatment. The mid-day enhancement of net photosynthesis due to elevated C_a was higher for ears than for flag leaves and this effect was most pronounced under ample water and N supply. The contribution of ears to grain filling is therefore likely to increase in higher C_a environments in the future. In the comparison between Wet and Dry, the higher C_a did not alter the response of net photosynthesis of the ear and g_s to Irr. However, C_a enrichment increased the drought tolerance of net photosynthesis of the glume and delayed the increase of the awn portion of net photosynthesis of the ear during drought. Therefore, the role of awns for maintaining high net photosynthesis of the ear under drought may decrease when C_a increases.