A Comparison of Photosynthetic Capacity between Myrica Gale var. Tomentosa a Nitrogen-Fixing Shrub,and Co-Occurring Species in an Oligotrophic Moor

Photosynthetic and transpiration (E) rates, stomatal conductance, and leaf nitrogen content were surveyed for Myrica gale var. tomentosa, a N₂-fixing wetland shrub, Betula platyphylla var. japonica, and Rhododendron japonicum in Ozegahara moor, an oligotrophic moor in Central Japan. Net photosynthetic rate saturated with irradiance (P_max) of M. gale was 15.2-16.5 μmol(CO₂) m^-2 s^-1, higher than those of the other species throughout the growing season. P_max was positively correlated with leaf N content among the three species. The large leaf N content in M. gale was due to N₂-fixation in root nodules. In a comparison of M. gale in two habitats, P_max, leaf N content, and root nodule development were larger in the wetter habitat. M. gale showed high E and no midday depression of P_max even under high irradiance and large vapour pressure deficit between leaves and ambient air on a midsummer day. These traits of photosynthesis and water relations were associated with the dominance of this shrub in wetter sites such as stream sides and hollows. This revised version was published online in September 2006 with corrections to the Cover Date.     

Regulation of hydrogen utilisation in Rhizobium japonicum by cyclic AMP

Utilisation (uptake) of hydrogen gas by whole cells of Rhizobium japonicum was found to be influenced by the carbon source(s) present in the growth medium, with activity being highest in a medium containing sugars. Tricarboxylic acid cycle intermediates, such as malate, significantly reduced H₂ utilisation. No reduction in the hydrogenase activity is observed when the enzyme is assayed directly by the tritium exchange method, indicating that the decrease in hydrogen uptake activity is not due to repression of hydrogenase biosynthesis. Cyclic AMP was found to alleviate the inhibition of H₂ uptake by malate, and this requires new protein synthesis. Addition of chloramphenicol or rifampicin simultaneously with cyclic AMP eliminated the stimulation of H₂ uptake in the malate medium. These results show that in R. japonicum cyclic AMP plays a major role in the regulation of H₂ metabolism.