E. Dufrene et al., A BRANCH BAG TECHNIQUE FOR SIMULTANEOUS CO2 ENRICHMENT AND ASSIMILATION MEASUREMENTS ON BEECH (FAGUS-SYLVATICA L), Plant, cell and environment, 16(9), 1993, pp. 1131-1138
A cheap CO2 enrichment system was designed to perform continuous gas e
xchange measurements of branches of mature European beech trees (Fagus
sylvatica L.). Branches were grown at ambient (350 cm(3) m(-3)) and e
levated CO2 (700 cm(3) m(-3)) during the whole 1992 leafy period. Leak
s resulting from airtightness defaults in the system appeared to be lo
w enough to measure accurately net CO2 assimilation and transpiration
rates during the day. However, the CO2 exchange rates during the night
(respiration) were too low to allow accurate measurements. Elevated C
O2 had a great effect on the net assimilation rate of branches via its
influence on both the C-3 photosynthetic pathway and the shade-tolera
nce of beech frees (85% increase). The A/C-a curves showed no acclimat
ion effect to high CO2, both control and enriched branches increasing
their net assimilation in the same way. The decrease of net assimilati
on rates in mature leaves was similar for both control and enriched br
anches. The pattern of daily transpiration rates remained the same for
both control and enriched branches, hence we can assume that there wa
s no visible CO2 effect on stomata.