Carbon Dioxide Assimilation by Pineapple Plants, Ananas comosus (L.) Merr. II. Effects of Variation of the Day/Night Temperature Regime

Abstract

The effects of variation of day/night temperature regime on the diurnal patterns of CO₂ assimilation of pineapple plants were examined using single leaf and field enclosure methods.

At day temperatures of 30°C, increasing night temperatures from 20 to 35°C reduced the total assimilation of CO₂ per daily light/dark cycle from 6.5 to 1.3 g CO₂ m^-2 (leaf area) day^-1, and also reduced the proportion of total CO₂ assimilation that occurred at night from c. 90% to c. 40%.

Decreasing day temperatures (30 to 10°C) had little effect on total daily CO₂ assimilation in warm (25°C) nights, but reduced it in cooler (15°C) nights. At day temperatures of <15₂C, CO₂ assimilation took place predominantly (60-100%) in the photoperiod. In cool (10°C) days, the normal inverted stomatal rhythm of CAM plants was reversed; leaf conductance was high (c. 1.0 mm s^-1) throughout the photoperiod and a large CO₂ efflux was observed, lasting c. 2 h, at the beginning of the dark period.

Leaf conductance of pineapples, by day and by night, is strongly influenced by ambient temperatures, with cool conditions favouring stomatal opening.