Effects of CO2and Photosynthetic Photon Flux on Yield, Gas Exchange and Growth Rate ofLactuca SativaL. ‘Waldmann’s Green'

Abstract

Knight, S. L. and Mitchell, C. A. 1988. Effects of CO₂ and photosynthetic photon flux on yield, gas exchange and growth rate of Lactuca sativa L. ‘Waldmann’s Green'.—J. exp. Bot. 39: 317–328. Enrichment of CO₂ to 46 mmol m⁻³ (1 000 mm³ dm⁻³) at a moderate photosynthetic photon flux (PPF) of 450 μmol m⁻² s⁻¹ stimulated fresh and dry weight gain of lettuce leaves 39% to 75% relative to plants at 16 mmol m⁻³ CO₂ (350 mm³ dm⁻³). Relative growth rate (RGR) was stimulated only during the first several days of exponential growth. Elevating CO₂ above 46 mmol m⁻³ at moderate PPF had no further benefit. However, high PPF of 880–900 μmol m⁻² s⁻¹ gave further, substantial increases in growth, RGR, net assimilation rate (NAR) and photosynthetic rate (Pn), but a decrease in leaf area ratio (LAR), at 46 or 69 mmol m⁻³ (1000 or 1500 mm³ dm⁻³) CO², the differences being greater at the higher CO₂ level. Enrichment of CO₂ to a supraoptimal level of 92 mmol m⁻³ (2000 mm³ dm⁻³) at high PPF increased leaf area and LAR, decreased specific leaf weight, NAR and Pn and had no effect on leaf, stem and root dry weight or RGR relative to plants grown at 69 mmol m⁻³ CO₂ after 8 d of treatment. The results of the study indicate that leaf lettuce growth is most responsive to a combination of high PPF and CO₂ enrichment to 69 mmol m⁻³ for several days at the onset of exponential growth, after which optimizing resources might be conserved.