Facilities: Reno
Frits Went Laboratory (B. Coulombe)

EcoCELL Research Publications

Luo Y., Hui D., Cheng W., Coleman J.S., Johnson D.W., and Sims D.A. 1999. Canopy quantum yield in a mesocosm study. Agricultural and Forest Meteorology 100: 35-48.

Abstract: Due to past limitations in experimental technology, canopy function has generally been inferred from leaf properties through scaling and/or indirect measurements. The development of a facility (EcoCELLs) at the Desert Research Institute has now made it possible to directly measure canopy gas exchange. In this experiment, sunflowers (Helianthus annuus) were planted in the EcoCELLs and grown under ambient (399 µmol mol^-1) and elevated (746 µmol mol^-1) CO₂ concentrations. We continuously measured carbon flux during canopy development from which canopy quantum yield (^f_C) was estimated. The results indicated that the total daily carbon flux was similar between elevated and ambient CO₂ treatments in the early stage of canopy development. After the canopy closed, carbon flux under elevated CO₂ averaged 53% higher than that under ambient CO₂. Assimilation/incident irradiance (A/I) curves of leaves at different canopy positions were used to estimate leaf quantum yields (^f_L), and A/I curves of canopies at late development stages were used to estimate ^f_L. Elevated CO₂ enhanced ^f_L by 24%. There was little difference in ^f_L at different canopy positions, averaging 0.0542 at ambient CO₂ and 0.0671 at elevated CO₂. Canopy quantum yield (^f_C) was higher by 32% at elevated than ambient CO₂. It increased with canopy development and was strongly correlated with leaf area index (LAI) by ^f_C = 0.0094 LAI/(0.0829 + 0.1137 LAI) at ambient CO₂ and ^f_C = 0.01382 LAI/(0.1129 + 0.1224 LAI) at elevated CO₂. In addition, the curvilinear relationship between radiation and canopy carbon fluxes suggests that canopy radiation use efficiency (CRUE) varied with radiation availability. The variability in ^f_C and CRUE with canopy development and light levels warrants further research on the notion drawn from earlier work that CRUE in non-stressed conditions is relatively constant.

Ecocell Specifications
EcoCELL cross sectional view
EcoCELL Research Publications

For more information on the EcoCELLs, please contact Mr. Bill Coulombe at (775) 674-7038 or via email at Bill.Coulombe@dri.edu.