(1) The dynamics of the leaf water status and stomatal behaviour in Bouteloua gracilis and Agropyron smithii, two of the dominant grasses of the semi-arid grasslands in North America were studied. (2) The grasses showed remarkably different stomatal behaviour. While A. smithii showed a typical behaviour B. gracilis presented maximum values of conductance before dawn and then a slow decrease until reaching a stable status around mid-morning. (3) Leaf water potential in B. gracilis was independent of leaf conductance and closely followed the pattern of atmospheric water demand. In the case of A. smithii, both leaf conductance and atmospheric water demand exerted control upon leaf water potential. (4) It was concluded that the predawn opening of stomata represented an adaptive advantage for B. gracilis allowing this species to maximize carbon fixation during the early morning, the time of day when under the most frequent steppe conditions water deficit does not impair the photosynthesis process. (5) It is proposed that B. gracilis and A. smithii have two different and complementary ecological strategies. Bouteloua gracilis is adapted to a scarce and highly variable water supply and to a precipitation pattern in which small rainfall events constitute a large portion of total water input. Agropyron smithii is adapted to a less variable water supply and to a water balance more favourable in which small precipitation events account for a smaller portion of the water input.
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