1. Control of Flowering in Strawberries
- Author
-
Timo Hytönen, Elli A. Koskela, Hytonen, Timo, Graham, Julia, Harrison, Richard, Doctoral Programme in Plant Sciences, Department of Agricultural Sciences, Viikki Plant Science Centre (ViPS), Plant Production Sciences, and Strawberry research group
- Subjects
0106 biological sciences ,0301 basic medicine ,Perennial plant ,Vegetative reproduction ,fungi ,food and beverages ,414 Agricultural biotechnology ,Meristem ,Biology ,Fragaria ,01 natural sciences ,Sexual reproduction ,03 medical and health sciences ,Horticulture ,030104 developmental biology ,Inflorescence ,Axillary bud ,1183 Plant biology, microbiology, virology ,010606 plant biology & botany ,Plant stem - Abstract
Strawberries (Fragaria sp.) are small perennial plants capable of both sexual reproduction through seeds and clonal reproduction via runners. Because vegetative and generative developmental programs are tightly connected, the control of flowering is presented here in the context of the yearly growth cycle. The rosette crown of strawberry consists of a stem with short internodes produced from the apical meristem. Each node harbors one trifoliate leaf and an axillary bud. The fate of axillary buds is dictated by environmental conditions; high temperatures and long days (LDs) promote axillary bud development into runners, whereas cool temperature and short days (SDs) favor the formation of branch crowns. SDs and cool temperature also promote flowering; under these conditions, the main shoot apical meristem is converted into a terminal inflorescence, and vegetative growth is continued from the uppermost axillary branch crown. The environmental factors that regulate vegetative and generative development in strawberries have been reasonably well characterized and are reviewed in the first two chapters. The genetic basis of the physiological responses in strawberries is much less clear. To provide a point of reference for the flowering pathways described in strawberries so far, a short review on the molecular mechanisms controlling flowering in the model plant Arabidopsis is given. The last two chapters will then describe the current knowledge on the molecular mechanisms controlling the physiological responses in strawberries.
- Published
- 2018