Abstract
COMPARING the energy required by legumes for symbiotic nitrogen fixation with that of assimilation of nitrate, Gibson1 concluded the costs to be about the same. About 15% of net photosynthetic production by the plant may be used in meeting its nitrogen requirements. If energy for the fixation of nitrogen symbiotically and that for the assimilation of NH4+ or NO3− from the soil solution are both provided by the chemical products of photosynthesis, then the CO2 respired in supplying that energy must contribute to the total efflux of CO2 from the plant in the dark. McCree2 and Thornley3 have discussed methods of partitioning the dark CO2 efflux into a growth (synthesis) and a maintenance component. Both nitrogen fixation and nitrogen assimilation can be expected to contribute to the CO2 flux associated with synthesis. If Gibson is correct, nodulated plants using only symbiotically fixed nitrogen should have the same growth coefficient as non-nodulated plants supplied with exogenous mineral nitrogen when grown in the same conditions. I have examined this hypothesis using a modification of the method used by McCree with Trifolium subterraneum L. cultivar Woogenellup as test material.
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References
Gibson, A. H. Somiplan Symp. Kuala Lumpur (1976).
McCree, K. J. in Prediction and Measurement of Photosynthetic Productivity (ed. Setlik, I.) 221–229 (Pudoc, Wageningen, 1970).
Thornley, J. H. M. Mathematical Models in Plant Physiology (Academic, New York, 1976).
Pirt, S. J. Proc. R. Soc. B 163, 224–231 (1965).
Penning de Vries, F. W. T. in Crop Processes in Controlled Environments (ed. Rees et al.) (Academic, New York, 1972).
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SILSBURY, J. Energy requirement for symbiotic nitrogen fixation. Nature 267, 149–150 (1977). https://doi.org/10.1038/267149a0
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DOI: https://doi.org/10.1038/267149a0
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