Interpreting changes in stem diameter in rose plants

Sixteen adult rose plants ( Rosa hybrida cv. Sweet Promise) were grown in rockwool in a phytotron. Water uptake was estimated by computing the difference between the rate of nutrient solution supply and the rate of leaching, continuously measured using a high‐precision flowmeter. Transpiration was measured using a balance continuously recording the loss of weight in the entire system. Changes in stem diameter were recorded using linear variable differential transducers placed at the base of four developing shoots and on their corresponding basal stems. Changes in stem diameter were related to changes in the water content of 16 plants. The amplitude of shrinkage in daytime stem diameter and daily increase in stem diameter was lower in basal stems. Radial hydraulic resistance to water diffusion in stems seems to be very low and stem reservoirs appear to be very early sensors of water depletion. When the nutrient solution supply was suppressed, the amplitude of the daily increase in stem diameter and transpiration rates were reduced one and one‐and‐a‐half days later, respectively. When water depletion became more severe, stem diameter decreased from one day to another. The amplitude of daily stem shrinkage increased sharply for 6 days after watering was stopped, while the bulk modulus of elasticity of leaves decreased, probably as a result of damage to the cell wall.