| Abstract | The ability to recycle H₂ evolved by nitrogenase is thought to be of importance in increasing the efficiency of N₂ fixation and to be a factor in increasing plant yield in symbiotic systems. To determine whether this ability is a significant factor in the Rhizobium leguminosarum-Pisum sativum L. system, plants were inoculated with R. leguminosarum isolates which differed in their ability to oxidize H₂ and in their relative efficiency of N₂ fixation. These plants were grown at three levels of irradiance and harvested after 3, 4, and 5 weeks of growth for determination of C₂H₂ reduction, H₂ evolution and uptake, plant dry weight, and N content. Plants inoculated with uptake hydrogenase-positive (Hup⁺) isolates did not exhibit higher dry weight or N content than those inoculated with Hup− isolates under any of the growth conditions studied. The efficiency of the nitrogenase system of Hup− isolates increased at a low irradiance, a factor which may allow them to compete successfully with Hup⁺ isolates. In some Hup⁺R. leguminosarum isolates, H₂ oxidation is coupled to ATP formation, whereas in others, it is not. There were no differences in plant dry weight and N content in plants inoculated with the two types and grown for 5 weeks at three irradiance levels. The addition of H₂ to Hup⁺ nodules whose supply of photosynthate had been removed by stem excision did not increase C₂H⁺ reduction in either coupled or uncoupled types. |
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