ausblenden:
Schlagwörter:
Canopy assimilation
Ecosystem respiration
Eddy covariance
Model
Pinus radiata
Soil water deficit
Broad-leaved forest
Leaf CO2 exchange
Xylem sap flow
Stomatal conductance
Dioxide exchange
Gas-exchange
Soil respiration
Eastern siberia
Vapor exchange
Summer drought
Zusammenfassung:
We used a combination of eddy flux, chamber and environmental measurements with an integrated suite of models to analyse the seasonality of net ecosystem carbon uptake (F-CO2) in an 8-year-old, closed canopy Pinus radiata D.Don plantation in New Zealand (42 degrees 52' S, 172 degrees 45' E). The analyses utilized a biochemically based, big-leaf model of tree canopy photosynthesis (A(c)), coupled to multiplicative environmental-constraint functions of canopy stomatal conductance (G(c)) via environmental measurements, a temperature-dependent model of ecosystem respiration (R-eco), and a soil water balance model. Available root zone water storage capacity at the measurement site is limited to about 50 mm for the very stony soil, and annual precipitation is only 660 mm, distributed evenly throughout the year. Accordingly the site is prone to soil moisture deficit throughout the summer. G(c) and A(c) obtained maximum rates early in the growing season when plentiful soil water supply was associated with sufficient quantum irradiance (Q(abs)), and moderate air saturation deficit (D) and temperature (T). From late spring onwards, soil water deficit and D confined G(c) and A(c) congruously, which together with the solely temperature dependency of R-eco resulted in the pronounced seasonality in F-CO2. Reflecting a light-limitation of A(c) in the closed canopy, modelled annual carbon (C) uptake was most sensitive to changes in Qabs However, Qabs did not vary significantly between years, and changes in annual F-CO2 were mostly due to variability in summer rainfall and D. Annual C-uptake of the forest was 717 g C m(-2) in a near-average rainfall year, exceeding by one third the net uptake in a year with 20% less than average rainfall (515 g C m(-2)). [References: 56]
