The effect of carbon dioxide concentration on respiration of growing and mature soybean leaves

Soybean plants were grown continuously at 350 and 700cm 3 m −3 CO 2 at constant temperature. Respiration rates of third trifoliolate leaves were measured at the growth CO 2 concentration for the whole dark period from 5d before through to 5d after full area expansion. The short‐term response of respiration rate to the measurement CO 2 concentration was also determined at each age. Respiration rates per unit of dry mass declined with age and were significantly less at a given age or RGR in leaves grown and measured at the elevated CO 2 . The difference in respiration rate was largest in mature leaves and resulted from the different measurement CO 2 concentrations. The respiratory costs of the tissue synthesis, estimated from the elemental composition of the tissue, did not differ substantially between CO 2 treatments. The response of respiration rate to carbon dioxide concentration was not strongly affected by the form of nitrogen supplied. Maintenance respiration calculated by subtracting growth respiration from total respiration was negative in rapidly growing leaves for both CO 2 treatments. This indicates that CO 2 efflux in the dark does not accurately reflect the average 24 h rate of energy expenditure on growth and maintenance for soybean leaves.