Effect of elevated temperatures on carbon dioxide exchange in Picea rubens

We examined some of the physiological reasons that may underlie past and expected future migrations of red spruce (Picea rubens Sarg.) by evaluating the effects of high temperatures on photosynthesis and respiration of trees growing on Whiteface Mountain, NY. At temperatures of 35-40 degrees C, the trees exhibited a zero or negative carbon balance. Higher temperatures resulted in cellular disorganization and death. Temperatures around 30 degrees C resulted in reduced CO(2) uptake, a condition that could decrease future reproductive output and competitive stature. We conclude that thermal intolerance explains, at least in part, the absence of red spruce at low elevations and latitudes where temperatures of >/= 30 degrees C occur. We suggest that the thermosensitivity of this species is important with respect to global climate trends and migration patterns.