Photosynthetic Capacity and Nitrogen Use Efficiency of Maize, Wheat, and Rice: A Comparison Between C3 and C4 Photosynthesis

The C₃ species wheat and rice and the C₄ species maize weregrown for 2–3 weeks in controlled environment growth chambersat 20 or 30 °C day and 15 °C night temperatures. CO₂assimilation rates (at 20 and 30 °C) and several leaf parametersincluding total nitrogen, soluble protein, and RuBP carboxylaseprotein were determined. When the assimilation rates under atmosphericCO₂ and O₂ levels were expressed on a total nitrogen basis (=nitrogen use efficiency), the C₄ species maize had a greaternitrogen use efficiency than either of the two C₃ species examined,regardless of the combination of temperatures used for growthor measurement of CO₂ assimilation. Maize is also shown to makemore efficient use of its soluble protein and RuBP carboxylaseprotein than either wheat or rice when measurements are madeat 320 parts 10^–6 CO₂ and 21% O₂. Atmospheric CO₂ enrichmentduring CO₂ assimilation measurements increased the nitrogenuse efficiency in the C₃ species. In one treatment (wheat grownand measured at 20 °C), CO₂ assimilation under saturatingCO₂ showed nitrogen, soluble protein, and RuBP carboxylase proteinuse efficiencies equal to or greater than that of the C₄ species. These data indicate that C4 species may make more efficientuse of their nitrogen, soluble protein, and RuBP carboxylaseprotein than C₃ species under atmospheric CO₂ conditions. Thismay be due in part to the C₄ cycle and CO₂-concentrating mechanismin C₄ photosynthesis.