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Nitrogenase activity and N2 fixation are stimulated by elevated CO2 in a tropical N2-fixing tree

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Abstract

 Seeds of Gliricidia sepium, a fast-growing woody legume native to seasonal tropical forests of Central America, were inoculated with N2-fixing Rhizobium bacteria and grown in environmentally controlled glasshouses for 67–71 days under ambient CO2 (35 Pa) and elevated CO2 (70 Pa) conditions. Seedlings were watered with an N-free, but otherwise complete, nutrient solution such that bacterial N2 fixation was the only source of N available to the plant. The primary objective of our study was to quantify the effect of CO2 enrichment on the kinetics of photosynthate transport to nodules and determine its subsequent effect on N2 fixation. Photosynthetic rates and carbon storage in leaves were higher in elevated CO2 plants indicating that more carbon was available for transport to nodules. A 14CO2 pulse-chase experiment demonstrated that photosynthetically fixed carbon was supplied by leaves to nodules at a faster rate when plants were grown in elevated CO2. Greater rates of carbon supply to nodules did not affect nodule mass per plant, but did increase specific nitrogenase activity (SNA) and total nitrogenase activity (TNA) resulting in greater N2 fixation. In fact, a 23% increase in the rate of carbon supplied to nodules coincided with a 23% increase in SNA for plants grown in elevated CO2, suggesting a direct correlation between carbon supply and nitrogenase activity. The improvement in plant N status produced much larger plants when grown in elevated CO2. These results suggest that Gliricidia, and possibly other N2-fixing trees, may show an early and positive growth response to elevated CO2, even in severely N-deficient soils, due to increased nitrogenase activity.

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Received: 27 February 1996 / Accepted: 19 June 1996

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Tissue, D., Megonigal, J. & Thomas, R. Nitrogenase activity and N2 fixation are stimulated by elevated CO2 in a tropical N2-fixing tree. Oecologia 109, 28–33 (1996). https://doi.org/10.1007/s004420050054

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  • DOI: https://doi.org/10.1007/s004420050054

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