Add to ORKGBy altering foliage quality, exposure to elevated levels of atmospheric CO potentially affects the amount of herbivore damage experienced by plants. Here, we quantified foliar carbon (C) and nitrogen (N) content, C : N ratio, phenolic levels, specific leaf area (SLA) and the amount of leaf tissue damaged by chewing insects for 12 hardwood tree species grown in plots exposed to elevated CO (ambient plus 200 μl ) using free-air CO enrichment (FACE) over 3 yr. The effects of elevated CO varied considerably by year and across species. Elevated CO decreased herbivore damage across 12 species in 1 yr but had no detectable effect in others. Decreased damage may have been related to lower average foliar N concentration and SLA and increased ...
Rising atmospheric CO2 concentrations may alter the nitrogen (N) content of ecosystems by changing N...
Atmospheric carbon dioxide levels have been increasing since the beginning of the industrial age, an...
Anthropogenic changes in atmospheric carbon dioxide (CO2) and ozone (O3) are known to alter tree phy...
Human-induced increases in atmospheric CO concentration have the potential to alter the chemical co...
Insect herbivory is one of the most important ecological processes affecting plant–soil feedbacks an...
To understand how the increase in atmospheric CO from human activity may affect leaf damage by fore...
Insect herbivory is one of the most important ecological processes affecting plant–soil feedbacks an...
Increasing atmospheric CO2 concentrations alter leaf physiology, with effects that cascade to commun...
Elevated atmospheric CO₂ has generally been found to have negative impacts on the performance of ins...
Not AvailableThe increasing concentration of CO2 in the atmosphere is expected to lead to global cha...
The objective of this study was to determine the extent to which overall population sizes and commun...
Although rising levels of atmospheric carbon dioxide are expected to directly affect forest ecosyste...
Predicting how insect crop pests will respond to global climate change is an important part of incre...
The combustion of fossil fuels is profoundly altering the chemical composition of the atmosphere. Be...
Increased concentrations of CO and ozone are predicted to lower nutritional quality of leaves for i...
Rising atmospheric CO2 concentrations may alter the nitrogen (N) content of ecosystems by changing N...
Atmospheric carbon dioxide levels have been increasing since the beginning of the industrial age, an...
Anthropogenic changes in atmospheric carbon dioxide (CO2) and ozone (O3) are known to alter tree phy...
Human-induced increases in atmospheric CO concentration have the potential to alter the chemical co...
Insect herbivory is one of the most important ecological processes affecting plant–soil feedbacks an...
To understand how the increase in atmospheric CO from human activity may affect leaf damage by fore...
Insect herbivory is one of the most important ecological processes affecting plant–soil feedbacks an...
Increasing atmospheric CO2 concentrations alter leaf physiology, with effects that cascade to commun...
Elevated atmospheric CO₂ has generally been found to have negative impacts on the performance of ins...
Not AvailableThe increasing concentration of CO2 in the atmosphere is expected to lead to global cha...
The objective of this study was to determine the extent to which overall population sizes and commun...
Although rising levels of atmospheric carbon dioxide are expected to directly affect forest ecosyste...
Predicting how insect crop pests will respond to global climate change is an important part of incre...
The combustion of fossil fuels is profoundly altering the chemical composition of the atmosphere. Be...
Increased concentrations of CO and ozone are predicted to lower nutritional quality of leaves for i...
Rising atmospheric CO2 concentrations may alter the nitrogen (N) content of ecosystems by changing N...
Atmospheric carbon dioxide levels have been increasing since the beginning of the industrial age, an...
Anthropogenic changes in atmospheric carbon dioxide (CO2) and ozone (O3) are known to alter tree phy...