Description:
<p>Sessile oak (<italic>Quercus petraea</italic> Liebl.) was grown for ca. half a year from seeds at ambient control (525 ppm), 750, 900, and 1000 ppm atmospheric pCO₂ under controlled conditions. Increasing pCO₂ enhanced biomass production, modified the cell wall composition of the leaves in favor of cellulose at the expense of lignin, and enhanced the foliar non-structural carbohydrate level, in particular the sucrose content; as well as total N content of leaves by increased levels of all major N fractions, i. e., soluble proteins, total amino acids, and structural N. The enhanced total amino acid level was largely due to 2-ketoglutarate and oxalo acetate-derived compounds. Increasing pCO₂ alleviated oxidative stress in the leaves as indicated by reduced H₂O₂ contents. High in vitro glutathione reductase activity at reduced H₂O₂ contents suggests enhanced ROS scavenging, but increased lipid peroxidation may also have contributed, as indicated by a negative correlation between malone dialdehyde and H₂O₂ contents. Almost all these effects were at least partially reversed, when pCO₂ exceeded 750 or 900 ppm. Apparently, the interaction of atmospheric pCO₂ with leaf structural and physiological traits of Q. petraea seedlings is characterized by a dynamic response depending on the pCO₂ level.</p>