| Abstract: | The aim of this research was to describe the temperature responseof gas exchange in grain sorghum (Sorghum bicolor L. Moench)leaves as temperature was increased in a fashion similar toits daily increase in a hot environment. The hypothesis thatsorghum hybrids manifested heterosis for carbon dioxide exchangerate on a wider temperature range as compared with their parentallines was also evaluated. Gas exchange of detached turgid leaveswas measured in four sorghum hybrids and their parents as leaftemperature rose steadily from 32 °C to 43 °C in 4 h.CER was maximal at about 3740 °C depending on thegenotype. In one genotype (Tx378), CER was maximal at 42 °C.In three out of four hybrids significant heterosis was foundfor CER at the lower, the higher or at the full range of temperaturestested depending on the hybrid. Consequently, all three heterotichybrids displayed a greater temperature range for high CER ascompared with their parents. Heterosis in CER was largely explainedby heterosis in stomatal conductance, though the effects ofnon-stomatal components could not be elucidated here. Heterosisin transpiration was revealed in the same three hybrids, especiallyat moderate temperatures. Since heterosis in CER was relativelygreater than heterosis in transpiration, significant heterosisin transpiration ratio at moderate temperatures was seen intwo of the four hybrids. An effect of heat hardening on CERwas observed in parental line Tx430 and its two hybrids as seenin the reduction of CER at 3637 °C and its subsequentrecovery as temperatures rose slowly to 43 °C. The effectof heat hardening on photosynthesis was also observed in someof the genotypes as a hysteresis in the association betweenstomatal conductance and CER as temperatures increased. Thishysteresis indicated that, for the same stomatal conductance,CER was greater after than before leaves were exposed to hightemperature. Key words: Photosynthesis, hybrid vigour, heat stress |
