Isoprene emission rates under elevated CO < inf> 2 and O < inf> 3 in two field-grown aspen clones differing in their sensitivity to O < inf> 3

Document Type

Article

Publication Date

7-1-2008

Abstract

• Isoprene is the most important nonmethane hydrocarbon emitted by plants. The role of isoprene in the plant is not entirely understood but there is evidence that it might have a protective role against different oxidative stresses originating from heat shock and/or exposure to ozone (O3). Thus, plants under stress conditions might benefit by constitutively high or by higher stress-induced isoprene emission rates. • In this study, measurements are presented of isoprene emission from aspen (Populus tremuloides) trees grown in the field for several years under elevated CO2 and O3. Two aspen clones were investigated: the O3-tolerant 271 and the O3-sensitive 42E. • Isoprene emission decreased significantly both under elevated CO2 and under elevated O 3 in the O3-sensitive clone, but only slightly in the O3-tolerant clone. • This study demonstrates that long-term-adapted plants are not able to respond to O3 stress by increasing their isoprene emission rates. However, O3-tolerant clones have the capacity to maintain higher amounts of isoprene emission. It is suggested that tolerance to O3 is explained by a combination of different factors; while the reduction of O3 uptake is likely to be the most important, the capacity to maintain higher amounts of isoprene is an important factor in strengthening this character. © The Authors (2008).

Publication Title

New Phytologist

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