By changing the chemical composition of foliage, the increase in atmospheric CO2 is fundamentally altering insect herbivory. The responses of folivorous insects to these changes is, however, highly variable. In this review we highlight emerging mechanisms by which increasing CO2 alters the defense chemistry and signaling of plants. The response of allelochemicals affecting insect performance varies under elevated CO2, and results suggest this is driven by changes in plant hormones. Increasing CO2 suppresses the production of jasmonates and ethylene and increases the production of salicylic acid, and these differential responses of plant hormones affect specific secondary chemical pathways. In addition to changes in secondary chemistry, elev...
Elevated atmospheric CO₂ has generally been found to have negative impacts on the performance of ins...
Elevated atmospheric CO2 alters C3 plant chemical defense for reasons that remain unclear. To explai...
Plants growing under elevated CO2 concentration may acclimate by modifying chemical traits. Most stu...
Industrialisation has elevated atmospheric levels of CO2 from original 280ppmto current levels at 40...
Elevated CO 2 and temperature are altering the interactions between plants and insects with importa...
Not AvailableThe increasing concentration of CO2 in the atmosphere is expected to lead to global cha...
Predicting how insect crop pests will respond to global climate change is an important part of incre...
Rising atmospheric CO2 is expected to increase primary productivity resulting in changes in bottom-u...
The accumulation of CO2 and O3 in the troposphere alters phytochemistry which in turn influences the...
Compositive changes in climatic factors, e.g., carbon dioxide (CO2) and precipitation frequency and ...
Changes in insect herbivore performance under elevated atmosphere carbon dioxide concentrations e[CO...
While the impact of climate change on plant or insect communities has been receiving increasing atte...
This program investigated how host plant responses to elevated atmospheric carbon dioxide may be tra...
Elevated levels of atmospheric CO2 are predicted to contribute to major climatic changes during the ...
Plants growing under elevated CO2 concentration may acclimatize to this environmental change by modi...
Elevated atmospheric CO₂ has generally been found to have negative impacts on the performance of ins...
Elevated atmospheric CO2 alters C3 plant chemical defense for reasons that remain unclear. To explai...
Plants growing under elevated CO2 concentration may acclimate by modifying chemical traits. Most stu...
Industrialisation has elevated atmospheric levels of CO2 from original 280ppmto current levels at 40...
Elevated CO 2 and temperature are altering the interactions between plants and insects with importa...
Not AvailableThe increasing concentration of CO2 in the atmosphere is expected to lead to global cha...
Predicting how insect crop pests will respond to global climate change is an important part of incre...
Rising atmospheric CO2 is expected to increase primary productivity resulting in changes in bottom-u...
The accumulation of CO2 and O3 in the troposphere alters phytochemistry which in turn influences the...
Compositive changes in climatic factors, e.g., carbon dioxide (CO2) and precipitation frequency and ...
Changes in insect herbivore performance under elevated atmosphere carbon dioxide concentrations e[CO...
While the impact of climate change on plant or insect communities has been receiving increasing atte...
This program investigated how host plant responses to elevated atmospheric carbon dioxide may be tra...
Elevated levels of atmospheric CO2 are predicted to contribute to major climatic changes during the ...
Plants growing under elevated CO2 concentration may acclimatize to this environmental change by modi...
Elevated atmospheric CO₂ has generally been found to have negative impacts on the performance of ins...
Elevated atmospheric CO2 alters C3 plant chemical defense for reasons that remain unclear. To explai...
Plants growing under elevated CO2 concentration may acclimate by modifying chemical traits. Most stu...