Abstract
BackgroundThe environmental control of flowering in apple (Malus × domestica Borkh.) has remained an enigma for generations.MethodsWe studied growth and flowering effects of temperature under daylight phytotron conditions in 3-year old ‘Summerred’ and ‘Discovery’ apple trees. Flowering was assessed by dissection of buds on spurs and extension shoots at termination of treatments and flowering performance in the subsequent spring.ResultsExposure to constant temperatures ranging from 12 to 27 °C for 12 weeks yielded a hyperbolic response curve with optimum at 18–21 °C and little or no flowering at 12 and 27 °C. A drop from high to low temperature after 6 weeks caused growth cessation and initiation of flowering, whereas the reverse shift had the opposite effect. Shoot growth and leaf accumulation increased with increasing temperature, but under flower-inducing conditions, both levelled off and ceased towards the end of the treatment period.ConclusionsThe results are discussed in relation to the extensive physiological and genetic literature on the subject. We interpret the results as two separate effects of temperature on flowering in apple. At 12 °C flowering seems to be limited by low temperature depression of growth and leaf production, while at 27 °C, flowering is blocked by inhibition of the floral initiation itself. Intermediate temperatures of 18–21 °C, on the other hand, seem to satisfy the requirements for both processes. These opposite effects of temperature have apparently confounded the understanding of the environmental control of flowering in apple.
Highlights
The domesticated apple (Malus × domestica Borkh.) is one of the world’s most important fruit crops (FAO 2017)
In apple as in any other plant, flowering is an absolute prerequisite for fruit production and studies on the control of floral initiation in apple has received the attention of scientists for generations
In an attempt to provide more information on the environmental control of flower bud formation (FBF) in apple trees, we have studied the effects of a range of temperature conditions on threeyear-old trees of ‘Summerred’ and ‘Discovery’ grown under natural daylength conditions in daylight phytotron compartments in the years 2016 and 2017
Summary
The domesticated apple (Malus × domestica Borkh.) is one of the world’s most important fruit crops (FAO 2017). In apple as in any other plant, flowering is an absolute prerequisite for fruit production and studies on the control of floral initiation in apple has received the attention of scientists for generations Floral initiation is the key developmental step that marks the process of sexual reproduction in plants. The process is usually triggered by an environmental signal, but can be endogenously controlled. Floral initiation marks the stage of no return when the first morphological changes are taking place at the shoot apical meristem (Lang 1965). The environmental control of flowering in apple (Malus × domestica Borkh.) has remained an enigma for generations
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