Thursday, August 11, 2016
Georgia Ballroom (Sheraton Hotel Atlanta)
The rising atmospheric CO2 levels, in addition to being an important factor in driving the global climate change, can directly affect plant growth and development including its ability to provide nutritional sustenance to humans. The main objective of this study was to examine the effects of elevated CO2 level on the growth and nutritional aspects consisting of protein, important minerals and phytochemicals in lettuce (Lactuca sativa, var. Black-Seeded Simpson) and spinach (Spinacia oleracea, var. Bloomsdale Long Standing). Plants were grown in growth chambers at 18/20oC (night/day) and 280-300 mmol.m-2.s-1 PAR with either 400 ppm (control) or 700 ppm (elevated) CO2. The net photosynthetic activity in lettuce was significantly higher at elevated CO2 level, however, with no significant differences in spinach between the two CO2 levels. This was also reflected in an increased biomass accumulation in lettuce at elevated CO2 but not in spinach. However, in both lettuce and spinach, stomatal conductance and plant total leaf area were drastically reduced at elevated CO2 level. Significant decrease in protein concentrations, more than 30% in lettuce shoots and 24% in spinach shoots, was noted at elevated CO2 while carbon accumulation was not affected by higher CO2 level. Shoots of both species had reduced levels of phosphorus and potassium in response to high CO2 level. In addition, concentrations of many micronutrients were drastically reduced; sulfur by 37%, manganese by 31%, zinc by 29% and copper by 21% at elevated CO2 in lettuce shoots. The results on the total phenolic content and antioxidant capacity in lettuce and spinach shoots were variable with regard to increasing CO2 level. Significant increase in the total phenolic content and antioxidant capacity was observed at elevated CO2 in lettuce shoots. The total phenolic content in lettuce shoots increased by more than 2-fold in response to elevated CO2. However, the elevated CO2 level did not have any effect either on the total phenolic content or the antioxidant capacity in spinach shoots. The study also characterizes the changes in the accumulation of individual phenolic compounds in lettuce and spinach shoots in response to increasing CO2level.
Partially funded by Kansas Agricultural Experiment Station.
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