Seasonal fluctuations in photoprotective (xanthophyll cycle) and photoselective (chlorophylls) capacity in eight Mediterranean plant species belonging to two different growth forms

Kyparissis, Aris; Drilias, Periklis; Manetas, Yiannis

doi:10.1071/pp99037

Cited by 80 publications

(77 citation statements)

References 25 publications

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“…Changes of NPQ process development in our case indicated that decrease of F v /F m was not due to photodamage and that heat dissipation process though still persistent under severe water stress is not fully functional. Under similar RWC, Kyparissis et al (2000) recorded the highest photoprotective potential (xanthophyll pool size) of mature P. fruticosa plants in the field. Therefore, seedlings appeared to be less efficient than the mature plants against the increased demand for thermal energy dissipation during severe water stress, but similar regarding recovery after re-watering (Kyparissis et al 2000, Montanaro et al 2007).…”

Section: Discussionmentioning

confidence: 85%

“…In the present work we investigated PSII resistance to water stress in seedlings of the malacophyllous, dimorphic, semi-deciduous Mediterranean shrub Phlomis fruticosa L. Overall photosynthesis (gas exchange measurements), as well as ecophysiology of mature plants of P. fruticosa have been thoroughly investigated in our laboratory and a big repertoire of adaptations (morphological, biochemical and physiological) against adverse Mediterranean summer has been found (Grammatikopoulos and Manetas 1994, Grammatikopoulos et al 1995, Kyparissis et al 1997, Grammatikopoulos 1999, Karavatas and Manetas 1999, Kyparissis et al 2000. However, seedlings and young plants are expected to be more sensitive to water stress than their mature individuals (Fenner 1987, Padilla and Pugnaire 2007, Fotelli et al 2000.…”

Section: Introductionmentioning

confidence: 99%

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Drought resistance and recovery of photosystem II activity in a Mediterranean semi-deciduous shrub at the seedling stage

Petsas¹,

Grammatikopoulos²

2009

Photosynt.

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Phlomis fruticosa is one of the main species of post-fire Mediterranean communities, occupying areas with post-fire grazing or altered precipitation pattern and consequently water stress imposed on seedlings of co-occurring species. Seedlings of woody perennials often differ from their mature individuals regarding their resistance of photosynthetic performance to environmental stresses. Such differences have been reported for tree species but there is a lack of information regarding shrub species. In the present study, we tried to detect changes in (PSII) activity imposed by water stress in P. fruticosa seedlings as well as its capability for recovery after rehydration. Maximum PSII photochemical efficiency decreased only under severe water stress exactly as in mature plants in the field. However, leaf chlorophyll (Chl) content was almost stable regardless of leaf relative water content (RWC). We assume that the photoprotective chlorophyll loss process, reported for many mature Mediterranean species (including P. fruticosa), has not yet been developed at the seedling stage. On the other hand, photoprotection through an increase of the relative amount of non-Q B -reducing centers was found during dehydration. Non-photochemical quenching (NPQ) contributed to protection from photodamage until moderate water stress but was significantly suppressed under severe water stress. Both processes were reversed after rehydration. The above characteristics enabled seedlings not only to survive during aggravating drought but also to maintain a considerable part of their effective quantum yield and perform significant electron transport even at extremely low relative water content (RWC). This was confirmed with measurements in a semi-natural environment (pots) and under real steady state conditions regarding adaptation of the photosynthetic machinery to prevailing light intensities.

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Section: Discussionmentioning

confidence: 85%

Section: Introductionmentioning

confidence: 99%

Drought resistance and recovery of photosystem II activity in a Mediterranean semi-deciduous shrub at the seedling stage

Petsas¹,

Grammatikopoulos²

2009

Photosynt.

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“…Such excess is partly related to the absorption of light and the capacity of a plant to use it in photosynthesis. Low A max together with a high chlorophyll concentration in the more exposed seedlings of Q. petraea is likely to increase such imbalance, triggering NPQ (Faria et al 1998;Kyparissis et al 2000;Martínez-Ferri et al 2000;Williams et al 2003). The rapid onset of NPQ suggested a higher sensitivity to elevated PPFD in Q. petraea.…”

Section: Discussionmentioning

confidence: 93%

Acclimation to light in seedlings of Quercus petraea (Mattuschka) Liebl. and Quercus pyrenaica Willd. planted along a forest-edge gradient

Rodríguez‐Calcerrada

Pardos

Gil

et al. 2006

Trees

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Photosynthetic acclimation of two co-occurring deciduous oaks (Quercus petraea and Quercus pyrenaica) to a natural light gradient was studied during one growing season. In the spring of 2003, 90 seedlings per species were planted along a transect resulting from a dense Pinus sylvestris stand, an adjacent thinned area and a 10-mwide firebreak (16.5-60.9% Global Site Factor (GSF)). In two dates of the following summer, we measured leaf gas exchange, carboxylation efficiency (CE), chlorophyll and nitrogen content, light-response curves of chlorophyll a fluorescence parameters, and leaf mass per area (LMA). Summer was mild, as evidenced by leaf predawn water potential ( pd ), which reduced the interactive effect of water stress on the response of seedlings to light. Q. pyrenaica had higher LMA, CE, stomatal conductance (g s max ) and photosynthesis per unit area (A a max ) than Q. petraea at all growth irradiances. A a max , LMA, g s max and electron transport rate (ETR) all increased with light availability (GSF) in a similar fashion in both species. Light had also a clear effect on the organization of Photosystem II (PS II), as deduced by chlorophyll a fluorescence curves. Chlorophyll concentration (Chl m ) deCommunicated by U. Lüttge creased with increasing light availability in Q. pyrenaica but it did not in Q. petraea. Seedlings of Q. petraea acclimated to higher irradiances showed a greater non-photochemical quenching (NPQ) than those of Q. pyrenaica. This suggests a higher susceptibility to high light in Q. petraea, which would be consistent with a better adaptation to shade, inferred from the lower LMA or the lower rate of photosynthesis.

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“…The low plasticity detected for Xuorescence characters indicates that both the species maintain their photochemical eYciency by adjustments of other physiological characters, such as modiWcations of Quercus garrigue Quercus rock Pinus garrigue Pinus rock either photorespiration, pigment content or antioxidant capacity, especially in P. halepensis. This higher plasticity of P. halepensis for pigment and antioxidant characters could be related to the photoinhibition-avoiding strategy found in this species, since it would be a mechanism to reduce light absorption by PSII, dissipate excess energy and prevent overexcitation (Kyparissis et al 2000, Martínez-Ferri et al 2000. Phenotypic plasticity in response to water explained over 75% of the total variability among individual plants.…”

Section: Discussionmentioning

confidence: 95%

Phenotypic plasticity blurs ecotypic divergence in the response of Quercus coccifera and Pinus halepensis to water stress

2008

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The Mediterranean evergreen woody plants Quercus coccifera and Pinus halepensis grow in a range of environments where selection by drought, heat and high irradiance can drive genetic and phenotypic diVerentiation of populations. However, the role of these stresses in Wltering out maladaptive genotypes remains unknown. We hypothesize that this Wltering is an important process for woody Mediterranean species due to their low phenotypic plasticity reported in previous studies. We have studied the response of saplings of Q. coccifera and P. halepensis, originating from two contrasting populations (a rock outcrop and a garrigue formation), to water stress. Isozyme characterization of genetic diversity was done to determine whether populations were genetically distinct. Water response analysis was based on water relations, gas exchange, chlorophyll a Xuorescence, pigment content, antioxidant status and morphological and structural parameters. Ecotypic diVerentiation was found for both Q. coccifera and P. halepensis populations, with a higher population isozyme similarity and a higher frequency of dominance of a few genotypes at the rock outcrop in both the species. P. halepensis exhibited small but signiWcant diVerences between populations for plastic responses to water, with lower phenotypic plasticity in saplings from the rock outcrop. Although it was not found in Q. coccifera, this pattern suggests that ecotypic diVerentiation rendering stress-tolerant ecotypes involves a decreased plasticity. Phenotypic plasticity was not high but it explained over 75% of the total variability among individual plants. Thus, and although evidence for ecotypic divergence was found in both the species, saplings were plastic enough to blur ecotypic diVerentiation.

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Seasonal fluctuations in photoprotective (xanthophyll cycle) and photoselective (chlorophylls) capacity in eight Mediterranean plant species belonging to two different growth forms

Cited by 80 publications

References 25 publications

Drought resistance and recovery of photosystem II activity in a Mediterranean semi-deciduous shrub at the seedling stage

Drought resistance and recovery of photosystem II activity in a Mediterranean semi-deciduous shrub at the seedling stage

Acclimation to light in seedlings of Quercus petraea (Mattuschka) Liebl. and Quercus pyrenaica Willd. planted along a forest-edge gradient

Phenotypic plasticity blurs ecotypic divergence in the response of Quercus coccifera and Pinus halepensis to water stress

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