Ozone Component of Global Change: Potential Effects on Agricultural and Horticultural Plant Yield, Product Quality and Interactions with Invasive Species

The productivity, product quality and competitive ability of important agricultural and horticultural plants in many regions of the world may be adversely affected by current and anticipated concentrations of ground-level ozone (O₃). Exposure to elevated O₃ typically results in suppressed photosynth...

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Bibliographic Details
Published in:Journal of integrative plant biology 2009-04, Vol.51 (4), p.337-351
Main Authors: Booker, Fitzgerald, Muntifering, Russell, McGrath, Margaret, Burkey, Kent, Decoteau, Dennis, Fiscus, Edwin, Manning, William, Krupa, Sagar, Chappelka, Arthur, Grantz, David
Format: Article
Language:English
Subjects:
Agriculture - standards
air pollution
Biomass
climate change
crop
crop quality
crop yield
Fabaceae - drug effects
Fabaceae - growth & development
field crops
forage
genetic resistance
genetic variation
Genetic Variation - drug effects
herbicides
Herbicides - pharmacology
horticultural crops
horticultural plant
Internationality
Introduced Species
invasive species
Lycopersicon esculentum - drug effects
Lycopersicon esculentum - growth & development
North Carolina
open-top field chambers
ozone
Ozone - toxicity
photosynthesis
Photosynthesis - drug effects
phytotoxicity
plant damage
Plant Development
plant growth
plant response
Plants - drug effects
Plants - genetics
pollutants
product quality
Reproduction - drug effects
Seasons
senescence
weed
weeds
yield
yields
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Summary:The productivity, product quality and competitive ability of important agricultural and horticultural plants in many regions of the world may be adversely affected by current and anticipated concentrations of ground-level ozone (O₃). Exposure to elevated O₃ typically results in suppressed photosynthesis, accelerated senescence, decreased growth and lower yields. Various approaches used to evaluate O₃ effects generally concur that current yield losses range from 5% to 15% among sensitive plants. There is, however, considerable genetic variability in plant responses to O₃. To illustrate this, we show that ambient O₃ concentrations in the eastern United States cause substantially different levels of damage to otherwise similar snap bean cultivars. Largely undesirable effects of O₃ can also occur in seed and fruit chemistry as well as in forage nutritive value, with consequences for animal production. Ozone may alter herbicide efficacy and foster establishment of some invasive species. We conclude that current and projected levels of O₃ in many regions worldwide are toxic to sensitive plants of agricultural and horticultural significance. Plant breeding that incorporates O₃ sensitivity into selection strategies will be increasingly necessary to achieve sustainable production with changing atmospheric composition, while reductions in O₃ precursor emissions will likely benefit world food production and reduce atmospheric concentrations of an important greenhouse gas.
ISSN:1672-9072
1744-7909
DOI:10.1111/j.1744-7909.2008.00805.x