Carbon-isotope discrimination by leaves of Flaveria species exhibiting different amounts of C3-and C4-cycle co-function

Abstract

Carbon-isotope ratios were examined as δ¹³C values in several C₃, C₄, and C₃−C₄ Flaveria species, and compared to predicted δ¹³C, values generated from theoretical models. The measured δ¹³C values were within 4‰ of those predicted from the models. The models were used to identify factors that contribute to C₃-like δ¹³C values in C₃−C₄ species that exhibit considerable C₄-cycle activity. Two of the factors contributing to C₃-like δ¹³C values are high CO₂ leakiness from the C₄ pathway and pi/pa values that were higher than C₄ congeners. A marked break occurred in the relationship between the percentage of atmospheric CO₂ assimilated through the C₄ cycle and the δ¹³C value. Below 50% C₄-cycle assimialtion there was no significant relationship between the variables, but above 50% the δ¹³C values became less negative. These results demonstrate that the level of C₄-cycle expression can increase from, 0 to 50% with little integration of carbon transfer from the C₄ to the C₃ cycle. As expression increaces above 50%, however, increased integration of C₃- and C₄-cycle co-function occurs.