Responses of Leaf Processes in a Sensitive Birch (Betula pendulaRoth) Clone to Ozone Combined with Drought

Pääkkönen, E.; Günthardt‐Goerg, Madeleine S.; Holopainen, Toini

doi:10.1006/anbo.1998.0656

Cited by 83 publications

(58 citation statements)

References 40 publications

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“…It can be concluded that the protection of EDU against O 3 was not affected by moderate drought. Similar results with no significant interaction between O 3 and drought were also found in tree species such as Betula pendula, Picea abies (Pearson and Mansfield, 1994;Karlsson et al, 2002), but O 3 damage enhanced by less severe drought was also observed compared to that of well-watered plants (Pääkkönen et al, 1998). Actually, the interaction of O 3 and drought is very complex and determined by many aspects, such as species, the sequence, degree, and duration of both factors.…”

Section: Discussionsupporting

confidence: 71%

“…From existing studies, possible interactions between O 3 and drought have been determined to be antagonistic, additive, or synergistic (Pearson and Mansfield, 1994;Wieser and Havranek, 1995;Pääkkönen et al, 1998;Pollastrini et al, 2014;Tingey and Hogsett, 1985). Drought usually induces the closure of stomata, thus reducing the stomatal O 3 flux into the apoplast, whereas EDU is retained in the apoplast only (Pasqualini et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

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Moderate drought did not affect the effectiveness of ethylenediurea (EDU) in protecting Populus cathayana from ambient ozone

Yue

Yuan

Shang

et al. 2016

Science of The Total Environment

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Section: Discussionsupporting

confidence: 71%

Section: Introductionmentioning

confidence: 99%

Moderate drought did not affect the effectiveness of ethylenediurea (EDU) in protecting Populus cathayana from ambient ozone

Yue

Yuan

Shang

et al. 2016

Science of The Total Environment

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“…Although N concentration in green leaf is not affected by O 3 so much Shimizu and Feng, 2007;Karlsson et al, 2003;Oksanen and Rousi, 2001;Saleem et al, 2001;Oksanen and Saleem, 1999;Pääkkönen et al, 1998), N concentration in leaf litter (fallen leaves) increased by O 3 treatment, suggesting the impaired capacity of trans-locating N from senescent leaves to tree body (Uddling et al, 2005). This may lead increased N loss at the whole tree level.…”

Section: Effects Of Omentioning

confidence: 99%

“…High O 3 damages chloroplasts (Prozherina et al, 2003;Pääkkönen et al, 1998) and reduces the photosynthetic rate (Mäenpää et al, 2011;Shimizu and Feng, 2007;Uddling et al, 2005;Shavnin et al, 1999). This can be reflected in changes in chlorophyll fluorescence that reveals O 3 stress in photosynthetic pathways (Mao et al, 2012;Wittmann et al, 2007;Shavnin et al, 1999).…”

Section: Effects Of Omentioning

confidence: 99%

“…Although Oksanen (2003) exceptionally reported that O 3 treatment had increased stomatal conductance, this could be attributed to increased stomatal density, which is common response to O 3 (Oksanen, 2005;Paoletti and Grulke, 2005;Pääkkönen et al, 1998;. Increase in stomatal density may be reflected in smaller leaf size under elevated O 3 (Oksanen, 2003(Oksanen, , 2001Oksanen and Saleem, 2001;Pääkkönen et al, 1998), for the ratio of guard cells (equal to stomata) to epidermal cells on leaf is unaffected by O 3 (Prozherina et al, 2003). In terms of the reason why stomatal conductance does not increase despite increased density of stomata under elevated O 3 , the effectiveness of low stomatal aperture against O 3 stress, or impaired photosynthetic pathway by O 3 seems to be a good answer (Paoletti and Grulke, 2005).…”

Section: Effects Of Omentioning

confidence: 99%

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Ecophysiological Responses of Northern Birch Forests to the Changing Atmospheric CO2 and O3 Concentrations

Kawaguchi¹,

Hoshika²,

Watanabe³

et al. 2012

Asian J. Atmos. Environ

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The effects on birch (Betula spp.) of elevated carbon dioxide (CO 2 ) and ozone (O 3 ), which are both increasing in the troposphere, are surveyed in detail based on the literature. Birches establish themselves in the open field after disturbances, and then become dominant trees in temperate or boreal forests. Ecophysiological approaches include the measurement of photosynthesis, biomass, growth, and survival of seedlings and trees. Elevated CO 2 levels give rise to a net enhancement of the growth of birch trees, whereas high O 3 generally reduces growth. Although the effects of the two are opposed, there is also an interactive effect. Basic physiological responses of the single genus Betula to CO 2 and O 3 are set out, and some data are summarized regarding ecological interactions between trees, or between trees and other organisms.

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Growing at the arid edge: Anatomical variations in leaves are more extensive than in stems of five Mediterranean species across contrasting moisture regimes

Alon,

Ginzburg,

Zemach

et al. 2024

American J of Botany

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PremiseIncreasing aridity in the Mediterranean region affects ecosystems and plant life. Various anatomical changes in plants help them cope with dry conditions. This study focused on anatomical differences in leaves and xylem of five co‐occurring Mediterranean plant species namely Quercus calliprinos, Pistacia palaestina, Pistacia lentiscus, Rhamnus lycioides, and Phillyrea latifolia in wet and dry sites.MethodsStomatal density, stomatal length, leaf mass area, lamina composition, percentage of intercellular air spaces, and mesophyll cell area in leaves of plants in wet and dry sites were analyzed. Xylem anatomy was assessed through vessel length and area in branches.ResultsIn the dry site, three species had increased stomatal density and decreased stomatal length. Four species had increased palisade mesophyll and reduced air space volume. In contrast, phenotypic changes in the xylem were less pronounced; vessel length was unaffected by site conditions, but vessel diameter decreased in two species. Intercellular air spaces proved to be the most dynamic anatomical feature. Quercus calliprinos had the most extensive anatomical changes; Rhamnus lycioides had only minor changes. All these changes were observed in comparison to the species in the wet site.ConclusionsThis study elucidated variations in anatomical responses in leaves among co‐occurring Mediterranean plant species and identified the most dynamic traits. Understanding these adaptations provides valuable insights into the ability of plants to thrive under changing climate conditions.

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Responses of Leaf Processes in a Sensitive Birch (Betula pendulaRoth) Clone to Ozone Combined with Drought

Cited by 83 publications

References 40 publications

Moderate drought did not affect the effectiveness of ethylenediurea (EDU) in protecting Populus cathayana from ambient ozone

Moderate drought did not affect the effectiveness of ethylenediurea (EDU) in protecting Populus cathayana from ambient ozone

Ecophysiological Responses of Northern Birch Forests to the Changing Atmospheric CO2 and O3 Concentrations

Growing at the arid edge: Anatomical variations in leaves are more extensive than in stems of five Mediterranean species across contrasting moisture regimes

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