Effects of elevated ozone on CO<sub>2</sub> uptake and leaf structure in sugar maple under two light environments

Bäck, Jaana; Vanderklein, Dirk; Topa, Mary A.

doi:10.1046/j.1365-3040.1999.00393.x

Cited by 22 publications

(45 citation statements)

References 44 publications

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“…We conclude that the assimilation rates of the seedlings were not limited by light availability, resulting in a similar total carbon gain and a similar growth rate for seedlings in both light treatments. Leaf morphology, structure and thickness are known to differ with increasing irradiance levels [2,51]. However, in our study, specific leaf mass values were similar at both irradiance levels.…”

Section: Discussioncontrasting

confidence: 57%

“…O 3 is formed by the photochemical reaction between anthropogenic and biogenic nitrogen oxides (NOx), and volatile organic compounds (VOCs) in polluted air masses. In contrast to other gaseous anthropogenic pollutants such as SO 2 , tropospheric O 3 concentration is increasing, probably due to the increase in the levels of NO x and VOC emissions [21]. Increase in global tropospheric O 3 concentration during the 21st century was projected by a range of global emission scenarios studied by the IPCC 2001 assessment.…”

Section: Introductionmentioning

confidence: 99%

“…Asthon et al [1] have reported that the leaves of young maple seedlings have a great capacity to adapt to different irradiance environments. Topa et al [52] reported that leaves grown in shade show a greater susceptibility to O 3 than leaves grown in higher light environments, which is mainly due to the structural differences of the sun and shade leaves [2,58].…”

Section: Introductionmentioning

confidence: 99%

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Response to an ozone gradient of growth and enzymes implicated in tolerance to oxidative stress inAcer saccharum(Marsh.) seedlings

et al. 2006

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-Two-year-old sugar maple (Acer saccharum Marsh.) seedlings were exposed in open top chambers to an extensive gradient of O 3 (0 to 300 nL.L −1 ) during 85 days under two light environments (20% and 80% of full sun at noon on a sunny day). The growth of truncated seedlings (with one flush of leaves) and episodic seedlings (with two flushes) was decreased as O 3 increased, especially the growth of the second flush which developed under the oxidative treatment. Visible leaf injuries developed during the season under high O 3 concentrations. Survivalist growth strategy of sugar maple, as seen by the root/shoot ratio, together with the enzymatic stimulations of glucose 6-phosphate dehydrogenase, phosphoenolpyruvate carboxylase and glutathione reductase allowed the seedlings to tolerate the O 3 doses. However, at the end of the season, the cumulative oxidative stress in the second flush of the episodic seedlings exposed to concentrations over 150 nL.L −1 O 3 was too large and exceeded the capacity of seedlings for detoxification and repair. carboxylation / detoxification / croissance / stress oxydatif / érable à sucre

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Section: Discussioncontrasting

confidence: 57%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Response to an ozone gradient of growth and enzymes implicated in tolerance to oxidative stress inAcer saccharum(Marsh.) seedlings

et al. 2006

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“…It was supposed that remobilization of resource from senescing leaves to younger ones could allow the latter to withstand ozone stress [21], but this hypothesis needs more experiments to test. The increase of intercellular space during leaf development possibly enhanced the susceptibility to ozone by increasing the ozone dose into per cell, as suggested for leaves of sugar maple seedlings [22]. However, Bagard et al demonstrated that the expanding leaves of hybrid poplar showed higher resistance to O 3 with the same uptake of O 3 as the fully expanded leaves, and proposed that further work was needed to ascertain whether the contribution of the antioxidant capability was responsible for the higher resistance of young leaves [18].…”

Section: A Effects Of Elevated O 3 On Malondialdehyde and Hydrogen Pmentioning

confidence: 74%

Ozone-Induced Changes in Antioxidant Systems of Ginkgo Biloba in Relation to the Developmental Stage of the Leaves

Ke¹,

Chen

et al. 2010

2010 4th International Conference on Bioinformatics and Biomedical Engineering

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Ozone (O 3 ) pollution has adverse effects on the trees grown in urban area. Using open top chambers, responses of antioxidant systems were detected in Ginkgo biloba leaves at different developmental stages after a long term O 3 exposure (O 3 concentration ≈ 80 nmol mol -1 ). As leaf size is closely related to the developmental stage, leaves with different sizes were chosen to indicate the various developmental stages. The results suggested that activities of superoxide dismutase (SOD), ascorbate peroxidase (APX) and catalase (CAT) were induced to a higher level in younger leaves with 50% expansion size under elevated O 3 exposure, whereas O 3 -induced decrease in APX and SOD activities was found in the 80% and 100% expanded ones. Dehydroascorbate reductase (DHAR) activity and ascorbate (Asc) content were not affected by high O 3 in 50% expanded leaves, but the O 3 -induced decrease in them occurred in the 80% and 100% expanded ones. Malondialdehyde (MDA) and hydrogen peroxide (H 2 O 2 ) contents increased significantly in the 80% and 100% expanded leaves at elevated O 3 . However, O 3induced increase in MDA and H 2 O 2 contents did not reach the significant level in the 50% expanded leaves, indicating the higher resistance to O 3 in the younger leaves. The positive responses of antioxidant systems could be responsible for the higher resistance to O 3 in the younger leaves.

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“…Ozone may interfere with control of the stomatal aperture and may have the potential to disturb the water balance of the leaf, or even the whole plant (Pearson and Mansfield 1993). Elevated O 3 levels have been shown to influence leaf differentiation during its formation (Frey et al 1996;Bäck et al 1999). Leaf differentiation changed towards xeromorphism, somewhat resembling sun leaves or leaf development under mild drought conditions (Matyssek et al 1991).…”

Section: Introductionmentioning

confidence: 99%

Effects of elevated [CO2] and O3 on stomatal and surface wax characteristics in leaves of pubescent birch grown under field conditions

Vanhatalo

Huttunen

Bäck

2001

Trees

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The responses of pubescent birch (Betula pubescens Ehrh.) leaves to elevated levels of carbon dioxide and ozone were investigated. The micropropagated birch clones used in this research were divided into coastal (Kempele 64°N °25E) and inland (Ylikiiminki 65°N 26°E) clones according to the provenance of the parent tree. The seedlings were exposed to elevated levels of CO 2 and CO 2 +O 3 in open-top chambers over four growing seasons (1993)(1994)(1995)(1996). The leaves used in this investigation were gathered in 1995 and 1996. Leaf characteristics seemed to be dependent on leaf age and weather conditions. Stomatal density was greater in plants grown in open-top chambers relative to unchambered controls. The CO 2 and CO 2 +O 3 treatments did not affect the stomatal density of the birches. However, the mean stomatal size of the coastal clone increased significantly (13%) in the CO 2 treatment compared with the filtered and ambient controls in 1995. In 1996, the mean stomatal sizes of the inland clones were also significantly higher in the CO 2 (10%), CO 2 +O 3 (11%) and non-filtered (12%) treatments compared with the filtered control. The distribution of wax deposits on the abaxial leaf surface increased in the inland clone under elevated levels of CO 2 . The growth environment affected the development of the epicuticular waxes: non-filtered air, CO 2 and CO 2 +O 3 treatments seemed to stimulate the formation of wax deposits compared with the charcoal filtered control in which wax formation was the weakest. The combined effects of elevated CO 2 and O 3 levels on the stomatal size and epicuticular wax deposits were similar in comparison to the effects of elevated CO 2 levels alone.

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Effects of elevated ozone on CO₂ uptake and leaf structure in sugar maple under two light environments

Cited by 22 publications

References 44 publications

Response to an ozone gradient of growth and enzymes implicated in tolerance to oxidative stress inAcer saccharum(Marsh.) seedlings

Response to an ozone gradient of growth and enzymes implicated in tolerance to oxidative stress inAcer saccharum(Marsh.) seedlings

Ozone-Induced Changes in Antioxidant Systems of Ginkgo Biloba in Relation to the Developmental Stage of the Leaves

Effects of elevated [CO2] and O3 on stomatal and surface wax characteristics in leaves of pubescent birch grown under field conditions

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Effects of elevated ozone on CO2 uptake and leaf structure in sugar maple under two light environments

Cited by 22 publications

References 44 publications

Response to an ozone gradient of growth and enzymes implicated in tolerance to oxidative stress inAcer saccharum(Marsh.) seedlings

Response to an ozone gradient of growth and enzymes implicated in tolerance to oxidative stress inAcer saccharum(Marsh.) seedlings

Ozone-Induced Changes in Antioxidant Systems of Ginkgo Biloba in Relation to the Developmental Stage of the Leaves

Effects of elevated [CO2] and O3 on stomatal and surface wax characteristics in leaves of pubescent birch grown under field conditions

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Effects of elevated ozone on CO₂ uptake and leaf structure in sugar maple under two light environments