Effect of Leaf Age and Shading on Photosynthesis in Potatoes (Solanum tuberosum)

The effects of leaf age and of shading on photosynthetic rateand on other leaf parameters of potato (Solanum tuberosum L.)were studied using a portable gas exchange system. A rapid decreasein the rate of photosynthesis during leaf senescence was observed.This was accompanied by an increase in stomatal resistance,and as a result a fairly constant level of sub-stomatal CO₂concentration was maintained at all leaf ages. The reductionin the photosynthetic rate in older leaves was therefore assumedto be essentially mesophyllic in origin, whereas the stomatalresponse was probably secondary. Canopy density significantly affected the rate of photosyntheticreduction with leaf age. Leaves maintained under high radiationintensities manifested a slower decline in their photosyntheticrate, especially in the early stages of their senescence, thanleaves kept under shade conditions. The latter leaves were foundto be more adapted to low radiation intensities, as indicatedby changes in their chlorophyll a:b ratio and specific leafweight Solanum tuberosum L, potato, photosynthetic rate, mesophyll, stomata, leaf age, radiation intensity, chlorophyll a:b ratio     

Effect of High Temperature on Photosynthesis in Potatoes

The effect of high temperatures on the rate of photosynthesiswas studied in several potato varieties. Temperatures of upto 38 °C did not cause a reduction in the photosynthesisof plants that had been grown at these temperatures for longperiods prior to measurement. Higher temperatures of 40–42°C, or the transfer of plants from daytime temperature regimesof 22 °C to 32 °C, caused a reduction in net photosynthesis.This reduction was found to be essentially mesophyllic in origin.High temperature was found to be associated with a decreasein stomatal resistance, an increase in transpiration, and alarger difference between air and leaf temperatures. Dark respirationrates and compensation points for CO₂ concentration were alsogreater at the high temperatures. It was concluded that thepotato crop can be adopted to grow and have an adequate rateof photosynthesis even at relatively high temperatures. Source-sinkrelationships, which were modified by the later formation oftubers at higher temperatures, did not affect photosynthesisin this study. Varietal differences in resistance to heat stresswere observed, with the clone Cl-884 showing a more efficientcapacity for photosynthesis at temperatures up to 40 °Cthan many commonly grown varieties. High temperature, photosynthesis, potato, Solanum tuberosum L