Developing a common mechanistic model to predict tiller dynamics in sorghum and rice canopies growing in favorable conditions can greatly contribute to the identification of common genetic regions involved in tiller production of both species. Crop growth processes of a high-tillering sorghum hybrid, grown in different plant densities in Australia, and a conventional rice inbred, grown during several crop seasons and under several crop management techniques in the Philippines, were quantified. Total tiller production per plant was up to 6 for sorghum growing at 2 plants m-2, and up to 30 for rice growing at 25 plants m-2. Only primary tillers were observed on sorghum, whereas secondary and tertiary tillers developed on the rice plant. Rate of tiller emergence for sorghum was linearly related to leaf number on the main tiller, with the first tiller emerging at leaf number 6 (when the incomplete leaf was counted) and tiller 5 emerging at leaf number 10. Even if the rate of tiller emergence in rice was exponentially related to leaf number, that of the primary tiller was also linearly related to leaf number, with the same characteristics as that in sorghum. This was also probably the case for emergence of secondary tillers related to leaf number of their mother primary tiller. Dynamics in leaf emergence on primary tillers was identical to that of the main tiller in sorghum and rice. Cessation in tiller emergence in sorghum was correlated to a unique value of leaf area index, 0.6, when plant densities from 2 to 16 plants m-2 were considered. Cessation in tiller emergence in rice occurred, however, with leaf area index between 1.0 and 3.5, with crop stage between 15 and 2 days before panicle initiation or between 9 days and 1 day before start in internode elongation, when considering a large number of field experiments. Delayed cessation in secondary and tertiary tiller emergence compared to that of primary tiller emergence may suggest considering tiller order to predict