Temperature acclimation of photosynthesis in spinach leaves: analyses of photosynthetic components and temperature dependencies of photosynthetic partial reactions

Abstract

Spinach (Spinacia oleracea) plants were grown under the day/night temperature regime of 15/10 °C (LT) or 30/25 °C (HT). The plants were also transferred from HT to LT when the sample leaves were at particular developmental stages (HL‐transfer). With fully mature leaves, the light‐saturated photosynthetic rate (A) at the ambient CO₂ concentration (C_a) of 1500 µL L⁻¹ (A₁₅₀₀) and the initial slope of A versus intercellular CO₂ concentration (C_i) at low C_i region (IS) were obtained to assess capacities of RuBP regeneration and carboxylation. Photosynthetic components including Rubisco and cytochrome f (Cyt f) were also determined. The optimum temperatures for A at C_a of 360 µL L⁻¹ (A₃₆₀), A₁₅₀₀ and IS in HT leaves were 27, 36 and 24 °C, whereas those in LT leaves were 18, 30 and 18 °C. The optimum temperatures in HL‐transfer leaves approached those of LT leaves with the increase in the duration at LT. The shift in the optimum temperature was greater and quicker for IS than A₁₅₀₀. By the HL‐transfer, the maximum values of A₁₅₀₀ and IS also increased. The maximum A₁₅₀₀ and Cyt f content increased more promptly than IS and Rubisco content. Changes in the Cyt f/Rubisco ratio were reflected to those in the A₁₅₀₀/IS ratio. Taken together, photosynthetic acclimation to low temperature in spinach leaves was due not only to the change in the balance of the absolute rates of RuBP regeneration and carboxylation but also to the large change in the optimum temperature of RuBP carboxylation.