Seasonal variation of sepal-petaloidy in F1 progenies of double-flowered cyclamen

Y. Mizunoe, D. Kumamoto, Y. Ozaki

Research output: Contribution to journalArticlepeer-review


Cyclamen persicum is popular as a potted flower and its cold tolerant cultivars are used as garden plants. Recently, new double-flowered cyclamen cultivars with petaloid stamens or sepals have been bred by crossing. Our previous studies revealed that constant low and medium growth temperatures promoted the petaloidy of stamens. However, the effects of seasonal environmental changes, such as those associated with growth temperature and light conditions, on sepal-petaloidy of F1 progenies was not assessed under actual cultivation conditions. Therefore, the seasonal variation of sepal-petaloidy in F1 progenies of double-flowered cyclamen was investigated in this study. F1 progenies produced by reciprocal crossing between single- A nd double-flowered cyclamens with petaloid-sepals were used. The seedlings obtained from eight cross combinations were cultivated using common methods under glasshouse conditions, from February to April 2019, during the flowering in each flower and within each plant. Degree of petaloidy, according to the sepal shape in each flower, was categorized into four levels. Additionally, a petaloidy index (PI) of each plant was calculated using the degree of petaloidy and the number of flowers. Based on the floral phenotypes of F1 progenies, it was suggested that the double-flower trait was dominantly inherited. In double-flowered progenies, the degree of petaloidy showed variation where most of the flowers that opened in the early season expressed a lower degree of petaloidy than those flowers opened in the late season. The seasonal changes of petaloidy in F1 progenies were expressed regardless of the cross combinations. However, the degree of petaloidy in several F1 plants did not show significant seasonal differences between flowers in February and April during the flowering season. These results indicate that seasonal changes of petaloidy were regulated both by environmental and genetic factors.

Original languageEnglish
Pages (from-to)59-65
Number of pages7
JournalActa Horticulturae
Publication statusPublished - Jun 2021

All Science Journal Classification (ASJC) codes

  • Horticulture


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