Gas exchange temperature dependence in Quercus ilex shrubs growing in the M
editerranean maquis was analysed. The gas exchange trend was monitored duri
ng the year: photosynthetic activity (A(net)) reached the highest average r
ates in early spring and autumn (12.5 mu mol m(2)s(-1) was the absolute max
imum A(net) measured) and the lowest rates were monitored in the middle of
June. There was a good correlation (r = 0.72) between A(net) and g(s) (A(ne
t) = 4.1246 In g(s) + 4316; P < 0.01), indicating that stomatal control of
CO2 diffusion plays an important role in controlling photosynthetic activit
y. Leaf temperature allowing the highest photosynthetic and stomatal conduc
tance rates of Quercus ilex were in the range 17.5 - 29<degrees>C. A(net) a
nd g(s) dropped below half its maximum value when leaf temperatures were be
low 11.5 degreesC and above 35.7 degreesC. Transpiration rates (E) were str
ongly related to leaf temperature; E increased as leaf temperature increase
d and the highest E rates were monitored in June, despite a 46% decrease in
g(s). Leaf water loss from transpiration, during the drought period, could
result in leaf water stress which would exacerbate heat effects on photosy
nthesis. During summer, the increase in leaf temperatures decreased g(s) wh
ich in turn decreased A(net). Consequently, stomatal control in Quercus ile
x may be considered as an adaptive strategy during drought.