Photosynthesis and transpiration ofPinus radiata D. Don under natural conditions in a forest stand

Summary Gas-exchange ofPinus radiata foliage was measured with climatised cuvettes under natural light in the sun-crown of 8 m tall trees in a forest stand. Measurement began during a period of drought (_WS –8.2 bar, _We –10.5 bar) and continued after elimination of soil moisture-deficit by watering (_WS –0.5 bar, _We –5.5 bar). Soil and air moisture-deficits severely restricted gas-exchange. Watering resulted in an immediate decline in stomatal resistance (r _s ) and an increase in net photosynthesis (P _N ) of 13%. A slower progressive gas-exchange recovery occurred additionally during the 10 days after watering leading to a further decline inr _s to 3 s cm^-1 and an ultimate increase inP _N of 38% when measured under comparable conditions at 8 mb v.p.d. Radiata pine had a high photosynthetic capacity with a measured maximumP _N of 10.2 mg CO₂ dm^-2 h^-1 total needle surface (11.4 mg CO₂ g^-1 DM h^-1).Optimum temperature forP _N in March (late summer) occurred at ca. 18°C. Rate ofP _N was 95% saturated at irradiance of 900 E m^-2 s^-1 and 50% saturated at only 270 E m^-2 s^-1. Radiata pine needles responded directly to changes in atmospheric humidity by adjusting their stomatal diffusive resistance. As a result, between 8 and 18 mb v.p.d.P _N declined by 2.3% mb^-1 increase.