Effects of light intensity and CO2 concentration on the kinetics of 1st month growth and nitrogen fixation of alfalfa

Abstract

Medicago sativa L. cv. Algonquin seedlings were grown for 28 days in growth rooms at several intensities of light and concentrations of CO₂. Optimal or deficient NO₃⁻ concentrations were provided, the latter with or without inoculation and nodulation by Rhizobium meliloti str. 102F70 (Burton). All growth coefficients (k₁′) were hyperbolically dependent on the intensity of light. Light saturation of plant k₁′ was achieved, but the k₁′ for nitrogenase development the highest in value, was not light saturated at high CO₂ by the highest light intensity (555 μE∙m⁻²∙s⁻¹). That intensity also did not saturate the photosynthesis of plants grown at that intensity nor the amount (yield) and absolute rate of plant growth. The latter were very much reduced at intensities below the compensation point (100 μE∙m⁻²∙s⁻¹) of net photosynthesis. The data for k₁′ at low light intensity indicated that photosynthate was utilized with equal efficiency for N₂ and NO₃⁻ reduction. Fourfold enrichment of CO₂ concentration did not influence the k₁′ of plant growth in optimum NO₃⁻ and high light intensity but increased the yield by 78%. In the absence of high NO₃⁻ concentration, however, it nearly doubled the nitrogenase growth k₁′, to a doubling time of 1.4 days, increased the nodule yield fourfold, the plant (symbiotic) yield threefold, and N content twofold. Sevenfold enrichment of CO₂ was inhibitory to yields of N-deficient plants and nodules. The previous conclusion that added (combined) N chiefly limited seedling growth was supported by the lack of effect on plant k₁′ of the stimulation of photosynthesis by high light intensity and CO₂ concentration. A limitation on the value of the k₁′ for shoot elongation in deficient combined N raised CO₂ and high light was relieved symbiotically.