Oat development in response to temperature

Temperature affects plant development therefore phyllochron has been used as a predictor for developmental events to define the time for agricultural managing practices. This study aims to evaluate changes in phyllochron and thermal sum required for flowering by oat genotypes developed at different decades at three temperature regimes; the effect of high temperature on phytomere development; and identify the development stage at the moment of meristem transition to reproductive stage. Three environments were obtained by sowing in the fall, in the spring, and under constant temperature (17 degrees C), always at inductive photoperiod. Despite changes in nominal values small differences were found among genotypes' phyllochron. Adding specific optimal and maximum temperatures into the growing degree days' calculation demonstrated phyllochron stability among environments. Plant cycle length and thermal sum correlated with the number of developed phytomeres. UFRGS 078030-2 plants flowered earlier, had a small number of phytomeres, and greater tolerance to elevated temperatures than the other genotypes. More recent genotypes transit to reproductive stage at an earlier Haun stage than older ones.

Automated summary

This study evaluates changes in phyllochron and thermal sum required for flowering in oat genotypes developed at different decades under different temperature regimes. The results show that the UFRGS 078030-2 genotype flowers earlier, has fewer developed phytomeres, and greater tolerance to high temperatures. More recent genotypes transition to reproductive stage earlier than older ones.