Photosynthesis and photoprotection in Quercus ilex resprouts after fire

Fleck, Isabel; Hogan, Kevin P.; Llorens, Laura; Abadı́a, Anunciación; Aranda, Xavier

doi:10.1093/treephys/18.8-9.607

Cited by 64 publications

(61 citation statements)

References 38 publications

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“…Mean values of midday potential quantum yield of PS II , (F v / F m ) were also similar for all kinds of treatment (0.7 ± 0.01) (figures 3g,h and figures 4g,h) and only slightly lower than reported pre-dawn values for this species (0.78) [17]. The lack of differences in F v / F m between inoculated and control plants denoted that light processing structures in PS II were not affected by infection.…”

Section: Discussionsupporting

confidence: 61%

“…After these measurements, leaves were wrapped in aluminium foil to measure dark-adapted fluorescence: F o , F m and F v / F m (potential quantum yield of PS II equivalent to (F m -F o ) / F m )). The adaptation time was at least 20 minutes, after which values of F v / F m reach about 95% of pre-dawn ones in Q ilex [17]. Data were corrected for changes in measuring light intensity induced by temperature changes in the Mini Pam.…”

Section: Measurementsmentioning

confidence: 99%

“…Increased rates of gas-exchange and growth have been observed in resprouts after fire or clear-cut [14,15,26,36], due to increased water [13,17,30] and/or nitrogen [16,20] availability for smaller crowns. Quercus species are also often affected by fungal pathogens such as Cryphonectria parasitica (Murrill) Barr.…”

Section: Introductionmentioning

confidence: 99%

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Effect of fungal infection on leaf gas-exchange and chlorophyll fluorescence in Quercus ilex

et al. 2001

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-Experiments were conducted to study the susceptibility to infection by two fungal pathogens, Cryphonectria parasitica or Phomopsis spp. of undisturbed holm oaks (Quercus ilex) and the resprout from the stump of trees after excision of the shoot. Leaf gas-exchange and chlorophyll a fluorescence were recorded on plants growing in natural conditions for two years, as markers of disease progress at the first stages of infection. In infected plants, pathogen-induced stomatal closure limited photosynthesis and increased contribution of energy dissipating processes protecting PSII integrity, as shown by higher non-photochemical quenching (NPQ). Excision treatment reduced susceptibility to infection and favoured water availability in resprouts, which showed higher gasexchange rates.Quercus ilex / Cryphonectria parasitica /Phomopsis spp. / gas-exchange / chlorophyll fluorescence Résumé -Effet de l'infection fongique sur les échanges gazeux et la fluorescence de la chlorophylle chez Quercus ilex. Le but de ce travail est l'étude de la susceptibilité des plants élagués (cas du chêne vert), à l'infection par Cryphonectria parasitica et Phomopsis spp. Pendant deux années, les échanges gazeux et la fluorescence de la chlorophylle d'un groupe de plants croissants dans des conditions environnementales naturelles ont été étudiés. Ces paramètres ont été des marqueurs convenables de l'évolution de la maladie durant les premières étapes de l'infection. Chez les plants infectés, le progrès de la maladie a été mis en évidence par la réduction de l'assimilation de CO 2 et l'augmentation de la participation des processus de dissipation thermique de l'énergie révélée par un NPQ élevé (Non-photochemical quenching). L'élagage induit une diminution de la susceptibilité à l'infection et permet une haute disponibilité hydrique chez les rejets assurant ainsi des taux élevés d'échanges gazeux. Quercus ilex / Cryphonectria parasitica / Phomopsis

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Section: Discussionsupporting

confidence: 61%

Section: Measurementsmentioning

confidence: 99%

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Effect of fungal infection on leaf gas-exchange and chlorophyll fluorescence in Quercus ilex

et al. 2001

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“…Species show different aboveground and belowground characteristics responsible for their survival, growth, and reproduction in different habitats. There is broad evidence supporting a correspondence between the various root system traits developed by species in drought-prone ecosystems and their performance (Davis et al 1999;Bell 2001;Verdaguer and Ojeda 2002), with important implications on the extent of fluctuations in water status of species (Fleck et al 1995(Fleck et al , 1998. In addition, it has been reported that the first summer rainless period after seedling establishment is a major limiting factor when seedling roots are not fully developed (Vallejo et al 1999;Pratt et al 2007).…”

Section: Introductionmentioning

confidence: 99%

Morphological traits and water use strategies in seedlings of Mediterranean coexisting species

et al. 2009

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The distribution of plants is associated with their different patterns of response to their environment. Mediterranean plants have evolved a number of morphological and physiological adaptations that determine their ability to survive and grow, being an effective water uptake and use important factors for drought resistance. In this article, we evaluated interspecific differences in morphology, biomass allocation, and architectural traits and their relationship with water use strategies in seedlings of seven co-occurring Mediterranean species (Anthyllis cytisoides L., Genista scorpius L. DC., Myrtus communis L., Pistacia lentiscus L., Rosmarinus officinalis L., Spartium junceum L. and Ulex parviflorus Pourr.). The results showed that morphological root features vary among species and they are significantly correlated with root hydraulic conductance and leaf gas exchange variables. Species with high specific root length (SRL) showed a low hydraulic conductance per root length (K RRL ) but high specific hydraulic conductance (K As ). M. communis and P. lentiscus showed the most contrasting water use patterns with respect to the other species studied. The results are not affected when considering phylogenetic relatedness. Thus, the variability observed in root hydraulic properties and leaf gas exchange suggests important mechanisms for understanding species coexistence in water-limited ecosystems.

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“…Resprouts after any of these events show decreased shoot/root ratios, which makes more water and nutrients available to the shoot than in the original plants and favours photosynthesis stimulation and rapid growth (Fleck et al, 1998). Q. ilex is exposed to multiple environmental stress factors such as drought, heat shock, chilling, nutrient deprivation and high light stress amongst others.…”

Section: Introductionmentioning

confidence: 99%

Conductance mesophyllienne pour le CO2 et caractéristiques morphologiques des feuilles sous stress hydrique pendant la repousse de Quercus ilex L.

2010

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Abstract• Quercus ilex L., the dominant species in Mediterranean forests and one with a great capacity for resprouting after disturbances, is threatened by the expected increase in fire frequency and drought associated with climate change.• The aim of this study was to determine the contribution of photosynthesis limitants, especially mesophyll conductance (g mes ) during this species' resprouting and under summer drought.• Resprouts showed 5.3-fold increased g mes and 3.8-fold increased stomatal conductance (g s ) at midday with respect to leaves of undisturbed individuals. With increased drought, structural changes (decreased density and increased thickness) in resprouts contributed to the observed higher photosynthesis and increased g mes . However, g mes only partially depended on leaf structure, and was also under physiological control. Resprouts also showed lower non-stomatal limitations (around 50% higher carboxylation velocity (V c,max ) and capacity for ribulose-1,5-bisphosphate regeneration (J max )). A significant contribution of g mes to leaf carbon isotope discrimination values was observed.• g mes exhibits a dominant role in photosynthesis limitation in Q. ilex and is regulated by factors other than morphology. During resprouting after disturbances, greater capacity to withstand drought, as evidenced by higher g mes , g s and lower non-stomatal limitants, enables increased photosynthesis and rapid growth. Mots-clés :composition isotopique du carbone / structure des feuilles / conductance mésophyllienne / limitation de la photosynthèse / Quercus ilex Résumé -Conductance mesophyllienne pour le CO 2 et caractéristiques morphologiques des feuilles sous stress hydrique pendant la repousse de Quercus ilex L.• Quercus ilex L., l'espèce dominante dans les forêts méditerranéennes qui a une grande capacité de rejets après des perturbations, est menacée par l'augmentation prévue de la fréquence des incendies et de la sécheresse associées au changement climatique.• Le but de cette étude était de déterminer, chez cette espèce, la contribution des limitations de la photosynthèse, en particulier de la conductance du mésophylle (g mes ) au cours de la repousse et sous sécheresse estivale.• Les feuilles des rejets ont présenté une conductance mésophylienne (g mes ) 5,3 fois plus élevée et une conductance stomatique (g s ) à midi 3,8 fois plus élevée par rapport aux feuilles d'arbres non perturbés. Avec l'accroissement de la sécheresse, les changements de structures (diminution de la densité et épaisseur accrue) dans les rejets ont contribué à augmenter la photosynthèse et à accroître g mes . Toutefois, g mes dépendait partiellement de la structure des feuilles, et était également sous contrôle physiologique. Les rejets ont aussi montré une abscence de limitation stomatique (vitesse de carboxylation (V c,max ) environ 50% plus élevée et une capacité de régénération pour le ribulose-1,5-bisphosphate (J max ). Une contribution significative de g mes à la discrimination isotopique du carbone dans les feuille a été obse...

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Photosynthesis and photoprotection in Quercus ilex resprouts after fire

Cited by 64 publications

References 38 publications

Effect of fungal infection on leaf gas-exchange and chlorophyll fluorescence in Quercus ilex

Effect of fungal infection on leaf gas-exchange and chlorophyll fluorescence in Quercus ilex

Morphological traits and water use strategies in seedlings of Mediterranean coexisting species

Conductance mesophyllienne pour le CO2 et caractéristiques morphologiques des feuilles sous stress hydrique pendant la repousse de Quercus ilex L.

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