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Effects of Phosphorus Deficiency on the Photosynthesis and Respiration of Leaves of Sugar Beet ¹

^a Department of Soils and Plant Nutrition, University of California, Berkeley, California 94720

Phosphorus deficiency was induced in sugar beet plants (Beta vulgaris L. var. F5855441), cultured hydroponically under standardized environmental conditions, by removal of phosphorus from the nutrient supply at the ten leaf stage 28 days after germination. CO₂ and water vapor exchange rates of individual attached leaves were determined at intervals after P cutoff. Leaves grown with an adequate nutrient supply attained net rates of photosynthetic CO₂ fixation of 125 ng CO₂ cm^–2 sec^–1 at saturating irradiance, 25 C, and an ambient CO₂ concentration of about 250 µl l^–1. After P cutoff, leaf phosphorus concentrations decreased as did net rates of photosynthetic CO₂ uptake, photorespiratory evolution of CO₂ into CO₂-free air, and dark respiration, so that 30 days after cutoff these rates were about one-third of the control rates. The decrease in photosynthetic rates during the first 15 days after cutoff was associated with increased mesophyll resistance (r_m) which increased from 2.4 to 4.9 sec cm^–1, while from 15 to 30 days there was an increase in leaf (mainly stomatal) diffusion resistance (r_l') from 0.3 to 0.9 sec cm^–1, as well as further increases in r_m to 8.5 sec cm^–1. Leaf diffusion resistance (r_l') was increased greatly by low P at low but not at high irradiance, r_l' for plants at low P reaching values as high as 9 sec cm^–1.

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