The Flux of14C-Labelled Photosynthate through Soyabean Root Nodules during N2Fixation

Abstract

Experiments are described which examine the flux of photosynthetic assimilates from leaves to nodules of soyabean during N₂ fixation. The first part, where the respiratory efflux of ¹⁴CO₂ by nodules was used as a means of assessing the import of labelled photosynthate from leaves, shows that most ¹⁴CO₂ loss from nodulated roots is due to the metabolic activity of nodules. Much less photosynthate was imported by nodules if the metabolic activity associated with N₂ fixation was inhibited by low O₂ concentration. The second part describes the chemical fate of current photosynthate as it is utilized by nodules. Labelled material was detected in nodules within c.15 min of supplying ¹⁴CO₂ to the leaf. This rose to a maximum at c.70 min before declining by 85% within the following 4 h. Most (80%) ¹⁴carbon imported by nodules was either lost as respiratory ¹⁴CO₂ or re-exported as products of N₂ fixation. Ten per cent of imported carbon was found as structural material and 10% as starch. Of the ¹⁴C soluble in ethanol, most was found in the neutral fraction (80% declining to 50% as sucrose) with smaller amounts as amino acids, organic acids (each category rising from 10% to 20%) and phosphate esters (14C among amino acids, amides and ureides in the nodules with that of xylem exudates indicated that selected compounds were exported from nodules. The ¹⁴C data indicate that c.80% of the nitrogen exported from nodules was in the form of ureides (mainly allantoic acid) and only 10–12% as amides.