Nitrogen fixation and assimilation efficiency in Ethiopian and German pea varieties

Dinitrogen (N-2) fixation and assimilation efficiency in a German and two Ethiopian varieties of Pisum sativum L. was studied in a pot experiment during vegetative and reproductive growth. The objective of the study was to assess whether genotypes having contrasting growth habits showed differences in physiological processes that affect the efficiency of N-2 fixation and assimilation. Dry matter formation, nodulation and nitrogen assimilation were compared between two treatments where one depended solely on N-2 fixation while the other was nourished with nitrate. Moreover, carbon (C) costs of N-2 fixation and the capacity of different respiratory chains in roots and nodules were determined at vegetative and reproductive growth. As compared to the Ethiopian cultivars, the German variety displayed a more rapid vegetative growth with intensive N-2 fixation and assimilation and highly efficient individual nodules. However, during reproductive growth, N-2 fixation in the German variety declined sharply, while continuing in the Ethiopian varieties. Lowest C costs of N-2 fixation coincided with most efficient individual nodules in both growth intervals. C costs of N-2 fixation were lower during reproductive growth in all varieties which was accompanied by a shift in root/nodule respiratory capacity towards more C efficient respiratory pathways. The results provide further evidence that unreliable nitrogen fixation rates during reproductive growth of pea can be connected with restricted C supply to nodules. One strategy of pea plants to adapt to critical C availability is an increase in capacity of more C efficient root/nodule respiration.