An Evaluation of the Rapid a-Ci Response Method to Elucidate Drought Effects in Field-Grown Pima and Upland Cotton Under Contrasting Irrigation Regimes.

Drought has been shown to reduce net carbon assimilation in upland cotton through primarily stomatal limitations. That is to say, by decreasing stomatal conductance, drought reduces intercellular CO₂ concentration to the point where Rubisco is substrate-limited, whereas the light reactions and electron transport appear to be unaffected by drought. Confounding factors such as leaf age and elevated leaf temperature are often inseparable under drought conditions. For example, in addition to a substrate limitation, drought typically results in elevated leaf temperatures and a decrease in Rubisco activase activity is thought to be the primary limitation to photosynthesis under heat stress. Experiments done in Pima cotton showed that electron transport was the primary limitation to photosynthesis under high leaf temperature conditions. One major limitation to differentiating between stomatal and non-stomatal limitations to photosynthesis under drought or heat stress is the time necessary to complete an A-C_i response curve under field conditions. A recent paper published in Plant, Cell and Environment describes a method for generating A­-C_i curves in as little as five minutes (rapid A-C_i response; RACiR), making field-scale data collection more feasible within a narrow window of time. With this in mind, Pima and Upland cotton were grown in Stoneville, MS under contrasting irrigation regimes (irrigated and dryland). An analysis of the thylakoid and carbon fixation reactions throughout the growing season will be conducted in an effort to elucidate the limitations to net photosynthesis under drought conditions.