Presnov, E., Besor Experiment Station, Volcani Center, 85400, Israel Dayan, E., Besor Experiment Station, Volcani Center, 85400, Israel Fuchs, M., Besor Experiment Station, Volcani Center, 85400, Israel Plaut, Z., Besor Experiment Station, Volcani Center, 85400, Israel Matan, E., Besor Experiment Station, Volcani Center, 85400, Israel
Spline interpolation neutralizes the random effects of the environment and cultivation procedures on measured parameters (number and length of produced flowering shoots). This procedure reveals biological rhythms (internal clocks) of flowering shoots. Periodic changes in environmental conditions, sigmoid law of growth, and the property of ergodicity allow the reconstruction of the state parameters of a flower population. Two linked processes are discussed: radiation transmission and leaf area expansion. The purpose of the simulation is to measure the synchrony of these processes. The behavior of this measure reveals information of the management of cultivation methods for the improvement of product quality.
Presnov, E., Besor Experiment Station, Volcani Center, 85400, Israel Dayan, E., Besor Experiment Station, Volcani Center, 85400, Israel Fuchs, M., Besor Experiment Station, Volcani Center, 85400, Israel Plaut, Z., Besor Experiment Station, Volcani Center, 85400, Israel Matan, E., Besor Experiment Station, Volcani Center, 85400, Israel
Coherence and synchronization of rose development
Spline interpolation neutralizes the random effects of the environment and cultivation procedures on measured parameters (number and length of produced flowering shoots). This procedure reveals biological rhythms (internal clocks) of flowering shoots. Periodic changes in environmental conditions, sigmoid law of growth, and the property of ergodicity allow the reconstruction of the state parameters of a flower population. Two linked processes are discussed: radiation transmission and leaf area expansion. The purpose of the simulation is to measure the synchrony of these processes. The behavior of this measure reveals information of the management of cultivation methods for the improvement of product quality.