Carbon isotope dynamics in Abies amabilis stands in the Cascades

Abstract

Carbon isotope ratios ( delta ¹³C) of canopy air and carbon isotope discrimination at the ecosystem level were studied in three montane Pacific silver fir (Abies amabilis (Dougl. ex Loud.) Dougl. ex J. Forbes) stands, an old-growth and two younger stands. Spatial and temporal variations of canopy CO₂ concentrations ([CO₂]) and their delta ¹³C were strongly related to stand structure. Within the old-growth stand, both daytime canopy [CO₂] and canopy delta ¹³C stayed close to those of the troposphere, either indicating low overall photosynthetic rates or high turbulent mixing. Pronounced periods of photosynthetic drawdown below baseline [CO₂] accompanied by more enriched canopy delta ¹³C were observed for the two younger and denser stands. Canopy [CO₂] profiles seemed closely related to changes in soil conditions. Soil respiration rates were positively related to soil temperature, but negatively to soil moisture. delta ¹³C of soil-respired CO₂ stayed relatively constant at -24.55 ± 0.20%oduring the growing season. Significant relationships existed between canopy delta ¹³C and 1/[CO₂] in all three stands. Using the intercepts of these regressions, we calculated an average delta ¹³C for ecosystem respiration of -26.4 ± 0.1%o. Ecosystem carbon isotope discrimination ( DELTA _e), an integrating measure for carbon exchange between the troposphere and the entire ecosystem, stayed relatively constant through time. DELTA _e showed no significant stand structure effect (leaf area index, density) and averaged 18.9%o for the old-growth and 19.2 ± 0.2%ofor the two younger stands.