Effects of Elevated CO2, Increased Nitrogen Deposition and Soil on Evapotranspiration and Water use Efficiency of Spruce-Beech Model Ecosystems : Root - Soil Interactions in Trees

2000

S. 49-60

27 Lit.Ang.

Unselbständiges Werk

200083821

Evaportranspiration (ET) of model ecosystems of young spruce and beech trees, exposed in either ambient or elevated CO2 (ambient + 200 ömol mol®Ü) and high or low (65 vs. 6.5 kg N ha®Üa®Ü) wet nitrogen deposition for four years in open-top chambers was estimated from the water balance biweekly during the last growing season. The open-top chambers contained two lysimeter compartments, with tow types of natural unfertilized forest soils taken from either an acidic or a calcareous site and were equipped with transparent roofs, which automatically closed at the onset of rain. After harvest the water use efficiency for the production of new leaf biomass (WUEp) was determined. In the final year of the experiment, the CO2 and N effects on water relations differed between the two soil types: on the acidic soil, elevated CO2 reduced ET significantly by 7 % and increased soil moisture, whereas increased nitrogen deposition had opposite effects. In contrast, on the calcarous soil evapotranspiration was not significantly influenced by any treatment, but soil moisture and drainage water were reduced under elevated CO2. WUEp was increased and ET per unit new foliage area decreased under elevated CO2 on both soils. Under elevated CO2 stomatal conductance was reduced in beech leaves, but not in spruce needles. Our results suggest that plants at high CO2 either deplete the soil water more slowly at the same growth rate (as observed here under nutrient-poor conditions) or grow faster for the same rate of water 'consumption' (as we found under favourable growth conditions).