Photosynthesis and nitrogen utilization in exponentially growing nitrogen‐limited cultures of Lemna gibba

The photosynthetic performance and nitrogen utilization of Lemna gibba L. G3 adapted to limited nitrogen supply was studied. The plants were adapted to two levels of nitrogen limitation where the nitrogen addition rates were calculated to sustain relative growth rates (RGR) of 0.15 day −1 and 0.25 day −1 , respectively. The photosynthetic performance of these cultures was compared to nitrogen‐sufficient cultures with an average RGR of 0.32 day −1 . Plants transferred from nitrogen‐sufficient conditions attained RGR values corresponding to the nitrogen addition rates after 6 to 10 days. Light‐saturated net photosynthesis declined during adaptation according to the drop in growth rate, and a concomitant decrease in the respiration rate was recorded. The efficiency of net photosynthesis on a dry weight basis increased with increased nitrogen supply, whereas it was the same in all cultures when expressed on a chlorophyll basis. The light compensation point was unaffected by the nitrogen regime. Limited nitrogen supply resulted in an increased proportion of dry matter in the roots, which led to decreased leaf area ratios. The net assimilation rates also decreased, but not to the same extent as the leaf area ratios. Growth‐limiting amounts of nitrogen were added to the cultures once daily, and the net influx of N was higher than the requirement for N, also in adapted cultures with a steady growth rate. This resulted in transient, periodic fluctuations in the NO 3 − , NH 4 + and amino acid pools. Also the rates of NO 3 − reduction and NH 4 + assimilation fluctuated as did the amino acid assimilation which paralleled NH 4 + assimilation. The role of flux rates over the plasmalemma and tonoplast for control of nitrogen assimilation rates are discussed.