THE INFLUENCE OF ELEVATED CO2 ON COMMUNITY STRUCTURE, BIOMASS AND CARBON BALANCE OF MEDITERRANEAN OLD-FIELD MICROCOSMS

We studied the effects of a doubling of atmospheric CO2 concentration on intact monoliths of Mediterranean grassland in growth chambers wher e climatic field conditions were simulated. During the six month growi ng season, changes in community structure were monitored by quantifyin g species richness and cover. The CO2 exchange of microcosms was measu red continuously and the resulting quantity and quality of biomass wer e evaluated. Species richness and cover did not respond to elevated C0 2. After one month of treatment, CO2 exchange measured during the day did not differ between CO2 levels but the night respiration was two-fo ld higher under elevated CO2. Stimulations of both day and night CO2 f lux by short-term CO2 enrichment were recorded several times during th e growing season. These results suggest that despite some downward adj ustment of photosynthesis, net canopy photosynthesis was stimulated by elevated CO2, but this stimulation was compensated for by an increase d respiration. The 20% stimulation of final phytomass under elevated C O2 was not significant: it resulted from unchanged live plant matter b ut a significant, 100% increase in litter accumulation. These results suggest that in low-productivity Mediterranean herbaceous systems, the greatest effect of CO2 is not on the storage of carbon in biomass but on the turnover of the carbon in the plants.