Add to ORKGThe experiment aimed to identify the effect of atmospheric carbon dioxide enrichment on the growth and nutrient status of alfalfa. Plants were grown in open-top chambers. Plant mineral nutrients and total non-structural carbohydrates (TNC) were measured in leaf samples. Above ground biomass and leaf area increased under high CO2 conditions whereas leaf concentrations of all the nutrients decreased except for Zn. TNC content increased too
The rising atmospheric CO2 concentration resulting from industrial development may enhance photosynt...
Future climatic conditions, including rising atmospheric CO2 and temperature may increase photosynth...
Carbon dioxide (CO2) concentrations affect the growth rate of plants by increasing photosynthesis. I...
The experiment aimed to identify the effect of atmospheric carbon dioxide enrichment on the growth a...
The influence of increasing atmospheric CO2 concentrations on the growth and yield of alfalfa has be...
The experiment aimed to identify the effect of atmospheric carbon dioxide enrichment on the water st...
The extent to which atmospheric CO2 enrichment may influence alfalfa (Medicago sativa L.) water rela...
The atmospheric carbon dioxide concentration is expected to double its present value within the next...
AbstractThe effects of elevated levels (40, 80 and 120 ppb) of ozone and elevated levels (350, 400 a...
Increasing atmospheric CO2 concentration could increase crop productivity and alter crop nutrient dy...
Increasing atmospheric CO2 enhances plant biomass production and may thereby change nutrient concent...
Plants grown in an environment of elevated CO2 and temperature often show reduced CO2 assimilation c...
This research was conducted to evaluate the effects of rising atmospheric carbon dioxide concentrati...
N2-fixing alfalfa plants were grown in controlled conditions at different CO2 levels (350 μmol mol−1...
We examined herbivore-induced responses of alfalfa (Medicago sativa) and cotton (Gossypium hirsutum)...
The rising atmospheric CO2 concentration resulting from industrial development may enhance photosynt...
Future climatic conditions, including rising atmospheric CO2 and temperature may increase photosynth...
Carbon dioxide (CO2) concentrations affect the growth rate of plants by increasing photosynthesis. I...
The experiment aimed to identify the effect of atmospheric carbon dioxide enrichment on the growth a...
The influence of increasing atmospheric CO2 concentrations on the growth and yield of alfalfa has be...
The experiment aimed to identify the effect of atmospheric carbon dioxide enrichment on the water st...
The extent to which atmospheric CO2 enrichment may influence alfalfa (Medicago sativa L.) water rela...
The atmospheric carbon dioxide concentration is expected to double its present value within the next...
AbstractThe effects of elevated levels (40, 80 and 120 ppb) of ozone and elevated levels (350, 400 a...
Increasing atmospheric CO2 concentration could increase crop productivity and alter crop nutrient dy...
Increasing atmospheric CO2 enhances plant biomass production and may thereby change nutrient concent...
Plants grown in an environment of elevated CO2 and temperature often show reduced CO2 assimilation c...
This research was conducted to evaluate the effects of rising atmospheric carbon dioxide concentrati...
N2-fixing alfalfa plants were grown in controlled conditions at different CO2 levels (350 μmol mol−1...
We examined herbivore-induced responses of alfalfa (Medicago sativa) and cotton (Gossypium hirsutum)...
The rising atmospheric CO2 concentration resulting from industrial development may enhance photosynt...
Future climatic conditions, including rising atmospheric CO2 and temperature may increase photosynth...
Carbon dioxide (CO2) concentrations affect the growth rate of plants by increasing photosynthesis. I...