Growth and crown architecture of two aspen genotypes exposed to interacting ozone and carbon dioxide

Dickson, Richard E.; Coleman, Mark D.; Pechter, Priit; Karnosky, David F.

doi:10.1016/s0269-7491(01)00225-1

Cited by 37 publications

(23 citation statements)

References 83 publications

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“…However, it is more likely that roots will suffer more from ozone exposures to the canopy because of reduced export from the foliage to the roots, but roots were not examined in this study. Reduced branch elongations are consistent with the review by Matyssek et al (1998) of biomass partitioning in trees in response to ozone, and with other studies of aspen (Dickson et al, 2001) and beech (Stribley and Ashmore, 2002) showing decreased branch length caused by ozone.…”

Section: Black Cherrysupporting

confidence: 91%

Field responses of Prunus serotina and Asclepias syriaca to ozone around southern Lake Michigan

Bennett

Jepsen

Roth

2006

Environmental Pollution

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Decreased cherry branch elongation, milkweed stem height and pod production, and foliar injury on both species occurred at sites around southern Lake Michigan at ozone exposures of 13 SUM06 ppm-h and 93e98 ppb peak hourly. AbstractHigher ozone concentrations east of southern Lake Michigan compared to west of the lake were used to test hypotheses about injury and growth effects on two plant species. We measured approximately 1000 black cherry trees and over 3000 milkweed stems from 1999 to 2001 for this purpose. Black cherry branch elongation and milkweed growth and pod formation were significantly higher west of Lake Michigan while ozone injury was greater east of Lake Michigan. Using classification and regression tree (CART) analyses we determined that departures from normal precipitation, soil nitrogen and ozone exposure/peak hourly concentrations were the most important variables affecting cherry branch elongation, and milkweed stem height and pod formation. The effects of ozone were not consistently comparable with the effects of soil nutrients, weather, insect or disease injury, and depended on species. Ozone SUM06 exposures greater than 13 ppm-h decreased cherry branch elongation 18%; peak 1-h exposures greater than 93 ppb reduced milkweed stem height 13%; and peak 1-h concentrations greater than 98 ppb reduced pod formation 11% in milkweed. Published by Elsevier Ltd.

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Section: Black Cherrysupporting

confidence: 91%

Field responses of Prunus serotina and Asclepias syriaca to ozone around southern Lake Michigan

Bennett

Jepsen

Roth

2006

Environmental Pollution

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“…Although not significant, in fact, this decrease suggests an allometric change within the crowns and is consistent with the significant 33% decrease found after three growing seasons of exposure. Dickson et al (2001), in two trembling aspen clones planted in the ground in open-top chambers and exposed for only 98 days, found similar effects of O 3 (58e71 ppm h AOT0) on all allometric ratios but L/B, likely because they investigated current-year branches only. In our experiment, both leaf and branch biomass decreased with O 3 , but the relative weight of leaves decreased even more.…”

Section: Discussionmentioning

confidence: 82%

“…The remaining leaves and the lateral branches were then collected. Lateral branches longer than 16 cm (Dickson et al, 2001) were counted.…”

Section: Tree Harvesting and Assessment Of Below And Above Ground Biomentioning

confidence: 99%

Effects of long-term ambient ozone exposure on biomass and wood traits in poplar treated with ethylenediurea (EDU)

Carriero¹,

Emiliani²,

Giovannelli³

et al. 2015

Environmental Pollution

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“…In contrast to the beneficial effects of elevated CO 2 , O 3 is generally detrimental to tree growth and metabolism. O 3 decreases plant height, and leaf area (Noormets et al 2001;Karnosky et al 2005;Dermody et al 2006) and total biomass (Dickson et al 2001;Gaucher et al 2003;Estes et al 2004).…”

Section: Introductionmentioning

confidence: 98%

Effects of elevated CO2 and/or O3 on hormone IAA in needles of Chinese pine

Chen

et al. 2007

Plant Growth Regul

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This study examined the effects of season-long exposure of Chinese pine (Pinus tabulaeformis) to elevated carbon dioxide (CO 2 ) and/or ozone (O 3 ) on indole-3-acetic acid (IAA) content, activities of IAA oxidase (IAAO) and peroxidase (POD) in needles. Trees grown in open-top chambers (OTC) were exposed to control (ambient O 3 , 55 nmol mol À1 + ambient CO 2 , 350 mmol mol À1 , CK), elevated CO 2 (ambient O 3 + high CO 2 , 700 mmol mol À1 , EC) and elevated O 3 (high O 3 , 80 ± 8 nmol mol À1 + ambient CO 2 , EO) OTCs from 1 June to 30 September. Plants grown in elevated CO 2 OTC had a growth increase of axial shoot and needle length, compared to control, by 20% and 10% respectively, while the growth in elevated O 3 OTC was 43% and 7% less respectively, than control. An increase in IAA content and POD activity and decrease in IAAO activity were observed in trees exposed to elevated CO 2 concentration compared with control. Elevated O 3 decreased IAA content and had no significant effect on IAAO activity, but significantly increased POD activity. When trees preexposed to elevated CO 2 were transferred to elevated O 3 (EC-EO) or trees pre-exposed to elevated O 3 were transferred to elevated CO 2 (EO-EC), IAA content was lower while IAAO activity was higher than that transferred to CK (EC-CK or EO-CK), the change in IAA content was also related to IAAO activity. The results indicated that IAAO and POD activities in Chinese pine needles may be affected by the changes in the atmospheric environment, resulting in the change of IAA metabolism which in turn may cause changes in Chinese pine's growth.

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Growth and crown architecture of two aspen genotypes exposed to interacting ozone and carbon dioxide

Cited by 37 publications

References 83 publications

Field responses of Prunus serotina and Asclepias syriaca to ozone around southern Lake Michigan

Field responses of Prunus serotina and Asclepias syriaca to ozone around southern Lake Michigan

Effects of long-term ambient ozone exposure on biomass and wood traits in poplar treated with ethylenediurea (EDU)

Effects of elevated CO2 and/or O3 on hormone IAA in needles of Chinese pine

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