Relationships between Carbon Assimilation, Partitioning, and Export in Leaves of Two Soybean Cultivars

To evaluate leaf carbon balance during rapid pod-fill in soybean (Glycine max [L.] Merrill), measurements were made of CO(2) assimilation at mid-day and changes in specific leaf weight, starch, and sucrose concentrations over a 9-hour interval. Assimilate export was estimated from CO(2) assimilation and leaf dry matter accumulation. Chamber-grown ;Amsoy 71' and ;Wells' plants were subjected on the day of the measurements to one of six photosynthetic photon flux densities in order to vary CO(2) assimilation rates.Rate of accumulation of leaf dry matter and rate of export both increased as CO(2) assimilation rate increased in each cultivar.Starch concentrations were greater in Amsoy 71 than in Wells at all CO(2) assimilation rates. At low CO(2) assimilation rates, export rates in Amsoy 71 were maintained in excess of 1.0 milligram CH(2)O per square decimeter leaf area per hour at the expense of leaf reserves. In Wells, however, export rate continued to decline with decreasing CO(2) assimilation rate. The low leaf starch concentration in Wells at low CO(2) assimilation rates may have limited export by limiting carbon from starch remobilization.Both cultivars exhibited positive correlations between CO(2) assimilation rate and sucrose concentration, and between sucrose concentration and export rate. Carbon fixation and carbon partitioning both influenced export rate via effects on sucrose concentration.