Add to ORKGThe response of Plantago major ssp. pleiosperma plants, grown on nutrient solution in a climate chamber, to a doubling of the ambient atmospheric CO2 concentration was investigated. Total dry matter production was increased by 30 % after 3 weeks of exposure, due to a transient stimulation of the relative growth rate (RGR) during the first 10 days. Thereafter RGR returned to the level of control plants. Photosynthesis, expressed per unit leaf area, was stimulated during the first two weeks of the experiment, thereafter it dropped and nearly reached the level of the control plants. Root respiration was not affected by increased atmospheric CO2 levels, whereas shoot, dark respiration was stimulated throughout the experimental period. Dry matte...
There are relatively few reports concerning carbon and nitrogen partitioning into secondary metaboli...
We investigated the effects of increased atmospheric CO2 on the biomass, photosynthesis, protein and...
• Here, we investigated the impact of temperature on the carbon economy of two Plantago species from...
The response of Plantago major ssp. pleiosperma plants, grown on nutrient solution in a climate cham...
The response of Plantago major ssp. pleiosperma plants, grown on nutrient solution in a climate cham...
The effect of an elevated atmospheric CO2 concentration on growth, photosynthesis and root respirati...
To assess the interactions between concentration of atmospheric CO2 and N supply, the response of Pl...
The effect of elevated CO2 on the relative growth rate (RGR) of Plantago major ssp. pleiosperma was ...
Transfer of plants of Plantago major ssp. pleiosperma (L.) Pilger to elevated CO2 (700 mul l(-1)) sh...
Doubling the atmospheric CO2 concentration from 350 to 700 μ1 1−1 increased the relative growth rate...
This study investigated the effects of a gradual versus step increases in carbon dioxide (CO2) on pl...
An analysis of elevated CO2 effects (2-4 times ambient) on dark respiration rate and carbon content ...
The atmospheric concentration of CO{sub 2}, a radiatively-active ({open_quotes}green-house{close_quo...
We studied short- and long-term growth responses of Poa annua L. (Gramineae) at ambient and elevated...
There are relatively few reports concerning carbon and nitrogen partitioning into secondary metaboli...
We investigated the effects of increased atmospheric CO2 on the biomass, photosynthesis, protein and...
• Here, we investigated the impact of temperature on the carbon economy of two Plantago species from...
The response of Plantago major ssp. pleiosperma plants, grown on nutrient solution in a climate cham...
The response of Plantago major ssp. pleiosperma plants, grown on nutrient solution in a climate cham...
The effect of an elevated atmospheric CO2 concentration on growth, photosynthesis and root respirati...
To assess the interactions between concentration of atmospheric CO2 and N supply, the response of Pl...
The effect of elevated CO2 on the relative growth rate (RGR) of Plantago major ssp. pleiosperma was ...
Transfer of plants of Plantago major ssp. pleiosperma (L.) Pilger to elevated CO2 (700 mul l(-1)) sh...
Doubling the atmospheric CO2 concentration from 350 to 700 μ1 1−1 increased the relative growth rate...
This study investigated the effects of a gradual versus step increases in carbon dioxide (CO2) on pl...
An analysis of elevated CO2 effects (2-4 times ambient) on dark respiration rate and carbon content ...
The atmospheric concentration of CO{sub 2}, a radiatively-active ({open_quotes}green-house{close_quo...
We studied short- and long-term growth responses of Poa annua L. (Gramineae) at ambient and elevated...
There are relatively few reports concerning carbon and nitrogen partitioning into secondary metaboli...
We investigated the effects of increased atmospheric CO2 on the biomass, photosynthesis, protein and...
• Here, we investigated the impact of temperature on the carbon economy of two Plantago species from...