Nitrate and ammonium differ in their impact on δC of plant metabolites and respired CO from tobacco leaves.

The carbon isotopic composition (δC) of foliage is often used as proxy for plant performance. However, the effect of vs. supply on δC of leaf metabolites and respired CO is largely unknown. We supplied tobacco plants with a gradient of to concentration ratios and determined gas exchange variables, concentrations and δC of tricarboxylic acid (TCA) cycle intermediates, δC of dark-respired CO, and activities of key enzymes nitrate reductase, malic enzyme and phosphoenolpyruvate carboxylase. Net assimilation rate, dry biomass and concentrations of organic acids and starch decreased along the gradient. In contrast, respiration rates, concentrations of intercellular CO, soluble sugars and amino acids increased. As decreased, activities of all measured enzymes decreased. δC of CO and organic acids closely co-varied and were more positive under supply, suggesting organic acids as potential substrates for respiration. Together with estimates of intra-molecular C enrichment in malate, we conclude that a change in the anaplerotic reaction of the TCA cycle possibly contributes to C enrichment in organic acids and respired CO under supply. Thus, the effect of vs. on δC is highly relevant, particularly if δC of leaf metabolites or respiration is used as proxy for plant performance.