Experimental systems and a mathematical model for studying temperature effects on pollen-tube growth and fertilization in plum

Abstract. Cross and self pollen tubes were cultured in 'Victoria' plum flowers ( Prunus domestica L.) at 5, 10, 15 and 20°C. Pollen-tube lengths measured at intervals were fitted by S-shaped growth curves (logistic function) and the parameters of the curves used to derive a generalized model for pollen-tube growth based on accumulated temperatures. Above the threshold of 2.5°C, maximum growth rate was 0.34 mm per day-degree and the tubes reached half their final length at 16.6 day-degrees above 2.5°C. The model indicates that fertilization of plum flowers requires 16–20 d at a constant temperature of 5°C after pollination, but only 3–4 d at 15°C. Mathematical expressions based on the model are given for estimating pollen-tube penetration and growth rate from values of cumulated temperature since pollination, and for estimating the cumulated temperature necessary for pollen tubes to penetrate a given distance. Pollen-tube growth rates were the same in detached flowers, flowers attached to twigs, and flowers on young, grafted trees in pots. In detached flowers growth stopped before fertilization could occur, but some embryo sacs were fertilized in both the remaining treatments. Accurate pollen-tube growth assessments can therefore be made with detached flowers which are most convenient to use and can be accommodated in small incubators. Studies on fertilization, however, must use flowers on bulky and expensive grafted trees.