Impact of Elevated Levels of Atmospheric CO2 and Herbivory on Flavonoids of Soybean (Glycine max Linnaeus)
BF O'Neill, AR Zangerl, O Dermody, DD Bilgin… - Journal of Chemical …, 2010 - Springer
Journal of Chemical Ecology, 2010•Springer
Atmospheric levels of carbon dioxide (CO 2) have been increasing steadily over the last
century. Plants grown under elevated CO 2 conditions experience physiological changes,
particularly in phytochemical content, that can influence their suitability as food for insects.
Flavonoids are important plant defense compounds and antioxidants that can have a large
effect on leaf palatability and herbivore longevity. In this study, flavonoid content was
examined in foliage of soybean (Glycine max Linnaeus) grown under ambient and elevated …
century. Plants grown under elevated CO 2 conditions experience physiological changes,
particularly in phytochemical content, that can influence their suitability as food for insects.
Flavonoids are important plant defense compounds and antioxidants that can have a large
effect on leaf palatability and herbivore longevity. In this study, flavonoid content was
examined in foliage of soybean (Glycine max Linnaeus) grown under ambient and elevated …
Abstract
Atmospheric levels of carbon dioxide (CO2) have been increasing steadily over the last century. Plants grown under elevated CO2 conditions experience physiological changes, particularly in phytochemical content, that can influence their suitability as food for insects. Flavonoids are important plant defense compounds and antioxidants that can have a large effect on leaf palatability and herbivore longevity. In this study, flavonoid content was examined in foliage of soybean (Glycine max Linnaeus) grown under ambient and elevated levels of CO2 and subjected to damage by herbivores in three feeding guilds: leaf skeletonizer (Popillia japonica Newman), leaf chewer (Vanessa cardui Linnaeus), and phloem feeder (Aphis glycines Matsumura). Flavonoid content also was examined in foliage of soybean grown under ambient and elevated levels of O3 and subjected to damage by the leaf skeletonizer P. japonica. The presence of the isoflavones genistein and daidzein and the flavonols quercetin and kaempferol was confirmed in all plants examined, as were their glycosides. All compounds significantly increased in concentration as the growing season progressed. Concentrations of quercetin glycosides were higher in plants grown under elevated levels of CO2. The majority of compounds in foliage were induced in response to leaf skeletonization damage but remained unchanged in response to non-skeletonizing feeding or phloem-feeding. Most compounds increased in concentration in plants grown under elevated levels of O3. Insects feeding on G. max foliage growing under elevated levels of CO2 may derive additional antioxidant benefits from their host plants as a consequence of the change in ratios of flavonoid classes. This nutritional benefit could lead to increased herbivore longevity and increased damage to soybean (and perhaps other crop plants) in the future.
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